WO2023018253A1 - Conductance-adjustable vacuum valve - Google Patents
Conductance-adjustable vacuum valve Download PDFInfo
- Publication number
- WO2023018253A1 WO2023018253A1 PCT/KR2022/012027 KR2022012027W WO2023018253A1 WO 2023018253 A1 WO2023018253 A1 WO 2023018253A1 KR 2022012027 W KR2022012027 W KR 2022012027W WO 2023018253 A1 WO2023018253 A1 WO 2023018253A1
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- piston
- chamber
- driving chamber
- connector
- vacuum
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- 238000003780 insertion Methods 0.000 claims description 16
- 230000037431 insertion Effects 0.000 claims description 16
- 230000008878 coupling Effects 0.000 claims description 15
- 238000010168 coupling process Methods 0.000 claims description 15
- 238000005859 coupling reaction Methods 0.000 claims description 15
- 230000000903 blocking effect Effects 0.000 claims description 4
- 238000003825 pressing Methods 0.000 claims description 2
- 238000002347 injection Methods 0.000 abstract description 7
- 239000007924 injection Substances 0.000 abstract description 7
- 230000001174 ascending effect Effects 0.000 abstract 1
- 238000007789 sealing Methods 0.000 description 6
- 230000008901 benefit Effects 0.000 description 4
- 230000008859 change Effects 0.000 description 4
- 238000000034 method Methods 0.000 description 4
- 230000008569 process Effects 0.000 description 4
- 230000015572 biosynthetic process Effects 0.000 description 2
- 230000006835 compression Effects 0.000 description 2
- 238000007906 compression Methods 0.000 description 2
- 239000000428 dust Substances 0.000 description 2
- 230000000694 effects Effects 0.000 description 2
- 238000012986 modification Methods 0.000 description 2
- 230000004048 modification Effects 0.000 description 2
- 239000004065 semiconductor Substances 0.000 description 2
- 239000010409 thin film Substances 0.000 description 2
- 239000000919 ceramic Substances 0.000 description 1
- 238000006243 chemical reaction Methods 0.000 description 1
- 238000005229 chemical vapour deposition Methods 0.000 description 1
- 238000013461 design Methods 0.000 description 1
- 238000010586 diagram Methods 0.000 description 1
- 238000007599 discharging Methods 0.000 description 1
- 238000002474 experimental method Methods 0.000 description 1
- 239000010419 fine particle Substances 0.000 description 1
- 239000011521 glass Substances 0.000 description 1
- 238000004519 manufacturing process Methods 0.000 description 1
- 239000000376 reactant Substances 0.000 description 1
- 230000000630 rising effect Effects 0.000 description 1
- 238000000926 separation method Methods 0.000 description 1
- 230000035939 shock Effects 0.000 description 1
- 238000012546 transfer Methods 0.000 description 1
Images
Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16K—VALVES; TAPS; COCKS; ACTUATING-FLOATS; DEVICES FOR VENTING OR AERATING
- F16K27/00—Construction of housing; Use of materials therefor
- F16K27/02—Construction of housing; Use of materials therefor of lift valves
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16K—VALVES; TAPS; COCKS; ACTUATING-FLOATS; DEVICES FOR VENTING OR AERATING
- F16K31/00—Actuating devices; Operating means; Releasing devices
- F16K31/12—Actuating devices; Operating means; Releasing devices actuated by fluid
- F16K31/122—Actuating devices; Operating means; Releasing devices actuated by fluid the fluid acting on a piston
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16K—VALVES; TAPS; COCKS; ACTUATING-FLOATS; DEVICES FOR VENTING OR AERATING
- F16K31/00—Actuating devices; Operating means; Releasing devices
- F16K31/44—Mechanical actuating means
- F16K31/50—Mechanical actuating means with screw-spindle or internally threaded actuating means
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16K—VALVES; TAPS; COCKS; ACTUATING-FLOATS; DEVICES FOR VENTING OR AERATING
- F16K31/00—Actuating devices; Operating means; Releasing devices
- F16K31/44—Mechanical actuating means
- F16K31/52—Mechanical actuating means with crank, eccentric, or cam
- F16K31/528—Mechanical actuating means with crank, eccentric, or cam with pin and slot
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16K—VALVES; TAPS; COCKS; ACTUATING-FLOATS; DEVICES FOR VENTING OR AERATING
- F16K37/00—Special means in or on valves or other cut-off apparatus for indicating or recording operation thereof, or for enabling an alarm to be given
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16K—VALVES; TAPS; COCKS; ACTUATING-FLOATS; DEVICES FOR VENTING OR AERATING
- F16K51/00—Other details not peculiar to particular types of valves or cut-off apparatus
- F16K51/02—Other details not peculiar to particular types of valves or cut-off apparatus specially adapted for high-vacuum installations
Definitions
- the present invention relates to a vacuum valve, and more particularly, to a vacuum valve whose conductance can be adjusted by adjusting an opening degree in an open position for forming a vacuum pressure.
- Many vacuum systems are used to perform a manufacturing process of a semiconductor device.
- a manufacturing process of a semiconductor device For example, in the case of chemical vapor deposition, when plasma is generated by injecting gas into a vacuum chamber in which a semiconductor wafer is disposed and transmitting certain energy, a reaction occurs on the wafer to form a thin film.
- Unnecessary reactants generated in the process of forming the thin film are discharged through pumps and pipes.
- a vacuum valve capable of controlling the degree of vacuum is installed in such a vacuum system.
- a vacuum is formed by discharging gas inside a vacuum chamber using a vacuum pump.
- gas inside the vacuum chamber is discharged and vacuum pressure is formed, and when the vacuum valve is closed, gas discharge inside the vacuum chamber is blocked.
- sensitive parts such as ceramics or glass may be damaged due to shock caused by a sudden gas flow.
- An object of the present invention is to solve the above problems, and to provide a vacuum valve capable of adjusting conductance in various ways according to the chamber capacity and pump size during vacuum formation.
- the above object of the present invention can be achieved by a vacuum valve capable of controlling conductance.
- the vacuum valve of the present invention includes a valve body 110 having a chamber connector 111 connected to a vacuum chamber at the bottom and a pump connector 113 connected to a vacuum pump on the side thereof; a lower driving chamber 120 coupled to an upper portion of the valve body 110 and having a lower air inlet 121 formed at a lower front portion; An upper piston 133 formed horizontally inside the lower driving chamber 120, a lower piston 131 formed inside the valve body 110 to a size capable of blocking the chamber connector 111, and the upper piston 133 and the lower piston 131 are connected, and the rise of the upper piston 133 according to whether air is supplied to the lower air inlet 121 is transferred to the lower piston 131, and the lower piston 131 an opening/closing piston part 130 having a connecting shaft 132 to move between a closed position in which the chamber connecting hole 111 is closed and an open position in which the lower piston 131 opens the chamber connecting hole 111; an upper driving chamber 150
- the conductance adjusting unit 140 is located between the lower drive chamber 120 and the upper drive chamber 150, and has a rotating plate accommodating groove 141-2 on the plate surface except for the corner region.
- an adjustment housing 141 formed in a recess and having a shaft insertion hole 141-6 for guiding the upper pressure shaft 161 downward through a central region of the rotation plate accommodating groove 141-2; It is accommodated in the rotation plate receiving groove 141-2 of the control housing 141, the outer periphery is exposed to the outside of the control housing 141, and is rotated by an external force, and an adjustment bolt coupling hole 143a is formed therein.
- an adjusting rotary plate 143 It includes an adjustment bolt 145 screwed to the adjustment bolt coupling hole 143a to surround the upper pressing shaft 161 and has a position indicator pin 145c extending horizontally outward at one end, and the adjustment bolt ( 145) may move up and down between the upper driving chamber 150 and the adjusting housing 141 inside the adjusting rotating plate 143 according to forward and reverse rotation of the adjusting rotating plate 143 .
- the control bolt 145 contacts the lower part of the control piston 160 and the control piston 160 ), and the lowering height of the adjusting piston 160 may correspond to the height at which the lower piston 131 opens the chamber connector 111 in the middle open position.
- a pin receiving groove 141-4 accommodating the position indicator pin 145c is formed at a certain depth on the outer periphery of the control housing 141, and the pin receiving groove 141-4 On the outer circumferential surface, a position display scale 141-5 displaying the position of the current position display pin 145c may be formed along the height direction.
- the vacuum valve of the present invention has the advantage of being able to adjust the descending height of the control piston using a rotating control plate and a control bolt, so that the conductance suitable for the capacity of the vacuum chamber and the size of the vacuum pump can be adjusted in various ways.
- FIG. 1 is a perspective view showing the external configuration of a vacuum valve according to the present invention
- FIG. 2 is a front view showing the front configuration of a vacuum valve according to the present invention.
- Figure 3 is a cross-sectional example showing the cross-sectional configuration of the closed position of the vacuum valve according to the present invention
- FIG. 4 is an exploded perspective view showing the disassembled structure of the conductance control unit of the vacuum valve according to the present invention.
- FIG. 5 is a cross-sectional example showing the cross-sectional configuration of the open position of the vacuum valve according to the present invention
- FIG. 6 is a cross-sectional example showing the cross-sectional configuration of the middle open position of the vacuum valve according to the present invention.
- FIG. 7 and 8 are cross-sectional views showing the operation process of a vacuum valve according to a modified example of the present invention.
- FIG. 1 is a perspective view showing the configuration of a vacuum valve 100 according to the present invention
- FIG. 2 is a front view showing the front configuration of the vacuum valve 100
- FIG. 3 is a cross-section of the vacuum valve 100 in a closed position. It is a cross-sectional view showing the configuration.
- the vacuum valve 100 is provided between a vacuum chamber in which a vacuum is to be formed and a vacuum pump that discharges gas inside the vacuum chamber to the outside to form a vacuum inside the vacuum chamber, and is provided as a controller (not shown). It is opened and closed by the control of the time), and the gas inside the vacuum chamber is discharged to the vacuum pump.
- the vacuum valve 100 of the present invention includes a valve body 110 having a chamber connector 111 connected to a vacuum chamber and a pump connector 113 connected to a vacuum pump, and provided on the upper portion of the valve body 110 to form a chamber.
- the opening/closing piston part 130 which opens and closes the connector 111, and the opening/closing piston part 130 provided on the upper part of the valve body 110 moves downward to close the chamber connector 111 and the closing position and opening/closing piston part ( 130) is moved upward to move between the open positions of opening the chamber connector 111;
- the control piston 160 is provided between the upper drive chamber 150 and the upper drive chamber 150 and the lower drive chamber 120 to pressurize the opening/closing piston unit 130 while moving up and down, and the control piston 160 ) adjusts the height at which the opening/closing piston unit 130 is pressed to adjust the opening height of the intermediate opening position between the closed position and the open position, and the upper part covering the upper part of the upper driving chamber 150 Includes cap 170.
- the control piston 160 that adjusts the rising height of the opening and closing piston part 130 ) is further included.
- the vacuum valve 100 of the present invention can be adjusted to an open position in which the chamber connector 111 is fully open and a closed position in a closed state, as well as a partially opened intermediate open position between the open position and the closed position, thereby forming vacuum pressure. It is possible to prevent a vortex phenomenon caused by an initial sudden change in conductance.
- the vacuum valve 100 of the present invention further includes a conductance adjusting unit 140 that adjusts the height of the control piston 160, so that the opening height of the middle opening position can be adjusted in various ways. Accordingly, there is an advantage in that the conductance can be appropriately adjusted according to the capacity of the vacuum chamber and the size of the vacuum pump.
- the valve body 110 connects the vacuum chamber and the vacuum pump. As shown in FIGS. 1 and 3, a chamber connector 111 connected to a vacuum chamber (not shown) is extended at the bottom of the valve body 110, and a pump connector 113 connected to a vacuum pump is formed on the side. formed by elongation The positions of the chamber connector 111 and the pump connector 113 may be opposite to each other depending on the design direction.
- a lower driving chamber 120 is disposed above the valve body 110 .
- a first sealing member 115 is provided at a boundary between the lower driving chamber 120 and the valve body 110 to prevent internal air pressure from being discharged to the outside.
- the lower drive chamber 120 drives the opening and closing piston unit 130 to open and close the chamber connector 111 while the opening and closing piston unit 130 accommodated therein moves up and down.
- a lower air inlet 121 through which air is introduced is formed on the front side of the lower driving chamber 120, and the connecting shaft 132 of the opening/closing piston part 130 is formed on the bottom surface of the valve body 110.
- a connecting shaft guide hole 123 guiding to ) is formed through, and a pressure shaft insertion hole 129 into which an upper pressure shaft 161 of the adjustment piston 160 is inserted is formed through the upper surface.
- a screw coupling hole 127 into which the screw coupling end 173a of the fixing screw 173 is screwed is provided at the bottom edge of the lower driving chamber 120 .
- a screw thread is formed on the inner wall surface of the screw coupling hole 127 and is screwed with the screw coupling end 173a.
- the connecting shaft guide hole 123 is provided with a second sealing member 123a to prevent leakage of air when the connecting shaft 132 moves up and down.
- the lower air inlet 121 is provided at a position corresponding to the upper piston 133 of the opening/closing piston unit 130, and as shown in FIG. 5, the air A injected into the inside is directed to the lower surface of the upper piston 133. Acts to cause the upper piston 133 to rise.
- the screw coupling hole 127 is a fixing screw 173 inserted through the upper cap 170, the upper driving chamber 150, and the adjusting housing 141 to the lower driving chamber 120. It is screwed and the positions of the lower driving chamber 120, the adjusting housing 141, the upper driving chamber 150 and the upper cap 170 are fixed.
- valve body 110 and the lower driving chamber 120 are fixed by a fastening member (not shown) not shown in the drawings.
- the opening/closing piston unit 130 is provided in the lower driving chamber 120 and the valve body 110 and moves between a closed position and an open position to open and close the chamber connector 111 of the valve body 110 . As shown in FIG. 3, the opening/closing piston part 130 is located at a position corresponding to the lower piston 131 formed in an area capable of blocking the chamber connector 111 and the lower air inlet 121 in the lower driving chamber 120.
- the lower piston 131 moves up and down and opens and closes the chamber connector 111 . As shown in FIG. 3, the lower piston 131 descends inside the valve body 110 to close the chamber connector 111 to block the discharge of gas inside the chamber body, and as shown in FIG. It rises and opens the chamber connector 111 to move between open positions where the gas inside the chamber body is discharged to the pump connector 113.
- the upper piston 133 moves up and down depending on whether air is injected into the lower air inlet 121 of the lower driving chamber 120 . As shown in FIG. 3, when air is not injected into the lower air inlet 121, the upper piston 133 is located on the bottom surface of the lower drive chamber 120, and as shown in FIG. 5, the lower air inlet 121 ), the upper piston 133 rises to the top of the lower driving chamber 120 when air is injected.
- the connecting shaft 132 connects the upper piston 133 and the lower piston 131 to transfer the vertical movement of the upper piston 133 to the lower piston 131 .
- the elastic member 137 applies an elastic force in a direction in which the lower piston 131 descends and blocks the chamber connector 111 . Accordingly, when air injection into the lower air inlet 121 is blocked, the lower piston 131 is lowered by the elastic force of the elastic member 137 .
- the bellows 135 covers the outside of the elastic member 137 and blocks dust or dust generated when the elastic member 137 is compressed or stretched from entering the vacuum chamber through the chamber connector 111 .
- the adjusting piston 160 moves up and down and adjusts the height at which the upper piston 133 rises to adjust the opening height of the lower piston 131 at the mid-open position.
- the upper driving chamber 150 applies a driving force so that the adjusting piston 160 moves up and down.
- the upper cap 170 covers the open top of the upper driving chamber 150 to prevent air from leaking to the outside.
- the conductance control unit 140 controls the height of the control piston 160 to adjust the conductance.
- FIG. 4 is an exploded perspective view showing the coupling relationship between the conductance adjusting unit 140, the upper driving chamber 150, the adjusting piston 160, and the upper cap 170.
- the upper driving chamber 150 drives the adjusting piston 160 to move up and down.
- the upper drive chamber 150 includes an upper drive chamber body 151 in which a space for the adjustment piston 160 to move up and down is formed, and an upper air inlet 157 provided on the upper front portion of the upper drive chamber body 151. do. As shown in FIG. 6 , air A is injected into the upper air inlet 157 to pressurize the upper portion of the adjusting piston 160 . As a result, the adjusting piston 160 presses the opening/closing piston part 130 to position it in the middle open position.
- a bolt moving hole 153 for accommodating the adjustment bolt 145 of the conductance adjusting unit 140 to move up and down is formed through the bottom surface of the upper driving chamber body 151 .
- the conductance adjusting unit 140 adjusts the lowering position of the adjusting piston 160 so that the opening/closing piston unit 130 is positioned at an intermediate open position between the open position and the closed position.
- the conductance control unit 140 is accommodated in the control housing 141 provided between the lower drive chamber 120 and the upper drive chamber 150 and inside the control housing 141.
- the adjustment rotary plate 143 is screwed into the inside of the adjustment rotary plate 143 and moves up and down according to the normal and reverse rotation of the adjustment rotary plate 143, and the adjustment piston 160 descends. It includes an adjustment bolt 145 that limits the position.
- the adjusting housing 141 supports the adjusting rotating plate 143 to be rotated and supports the adjusting bolt 145 to be moved up and down by the rotation of the adjusting rotating plate 143 .
- the control housing 141 is recessed in the control housing body 141-1 and inside the control housing body 141-1 to correspond to the shape of the control turn plate 143 so that the control turn plate 143 can be rotated.
- a rotating plate receiving groove 141-2 for accommodating, a bolt receiving groove 141-3 formed in a stepped depression in the central region of the rotating plate receiving groove 141-2 and into which an adjustment bolt 145 is inserted, and a bolt receiving groove
- a shaft insertion hole 141-6 formed through the bottom surface of the 141-3 and guiding the upper pressure shaft 161 to the lower driving chamber 120, and a corner area of the adjusting housing body 141-1 It is provided and includes a lower screw insertion hole 141-7 into which the fixing screw 173 is inserted.
- the rotary plate accommodating groove 141-2 is recessed in a form in which the control rotary plate 143 is in internal contact with the plate surface of the control housing body 141-1.
- a first thread 143b is formed on the inner wall surface of the adjustment bolt coupling hole 143a and is screwed to the adjustment bolt 145.
- the bolt accommodating groove 141-3 is recessed to correspond to the shape of the adjusting bolt 145 in the center region of the bottom of the rotating plate accommodating groove 141-2.
- a pin receiving groove 141-4 is recessed toward the front of the control housing 141 in the bolt receiving groove 141-3.
- the position indicator pin 145c of the adjustment bolt 145 is inserted into the pin receiving groove 141-4.
- the adjusting bolt 145 is provided with a non-circular cross section so that it can only move up and down without being rotated while being accommodated in the bolt receiving groove 141-3.
- the adjusting bolt 145 has a cross section of both sides formed in a curved surface and the front and back sides are provided with a horizontal shape so that it can be screwed with the first screw thread 143b of the adjusting rotation plate 143.
- the position indicator pin 145c extends toward the front of the adjustment bolt 145 and is inserted into the pin receiving groove 141-4.
- the adjusting bolt 145 moves up and down between the bolt receiving groove 141-3 and the bolt moving hole 153, and limits the height at which the adjusting piston 160 is lowered in the middle open position. That is, as shown in FIG. 6, when air is injected through the upper air inlet 157 and the control piston 160 is lowered by the air pressure, the control bolt 145 comes into contact with the lower part of the control piston 160 for adjustment. The descending height of the piston 160 is limited.
- the height of the upper pressure shaft 161 extending downward from the adjusting piston 160 and inserted into the lower driving chamber 120 is also limited, and when the upper piston 133 is raised, the upper pressure shaft 161 and reach, and the height of the lift is limited.
- the protruding height (d) of the control bolt 145 from the bottom surface of the upper driving chamber 150 controls the separation height between the lower piston 131 and the chamber connector 111, that is, the opening height h2 of the middle opening position do.
- the opening height h2 of the middle opening position increases, and thus the flow rate of gas moving from the vacuum chamber to the vacuum pump per hour, that is, the conductance increases.
- the current height of the adjusting bolt 145 can be confirmed by the operator from the outside through the current height of the position indicator pin 145c as shown in FIG. 2 .
- An intaglio reference line (a) is displayed on the position indicator pin 145c, and a position indicator scale 141-5 along the height direction is displayed on the outer wall of the pin receiving groove 141-4 of the control housing body 141-1. is formed
- the user can check and adjust the conductance at the middle open position based on the reference line (a) of the position indicator pin 145c located on the position indicator scale 141-5. That is, as the height of the position indicator pin 145c of the position indicator scale 141-5 increases, the height of the opening increases and the conductance can be adjusted to increase.
- a pair of sensor insertion grooves 125, 147, and 158 are coaxially arranged on both sides of the lower drive chamber 120, the control housing 141, and the upper drive chamber 150 along the height direction. It is provided with a recess.
- a sensor (not shown) is coupled to the pair of sensor insertion grooves 125 , 147 , and 158 to detect opening and closing of the vacuum valve 100 through the current height of the opening/closing piston unit 130 .
- the vacuum valve 100 is installed so that the chamber connector 111 of the valve body 110 is connected to a vacuum chamber (not shown) and the pump connector 113 is connected to a vacuum pump (not shown).
- the upper piston 133 is raised to a height h1 in contact with the upper surface of the lower driving chamber 120 by air pressure, and the lower piston 131 is raised to the same height h1 as the upper piston 133 and opened. hold the position
- the adjusting rotation plate 143 is rotated to raise the adjusting bolt 145.
- the operator supplies air (A) to the lower air inlet 121 and the upper air inlet 157 at the same time.
- the upper piston 133 rises by the air pressure injected through the lower air inlet 121. Then, the control piston 160 is lowered by the air pressure injected into the upper air inlet 157. The control piston 160 descends to a position where it comes into contact with the control bolt 145, and the upper pressure shaft 161 comes into contact with the upper part of the upper piston 133 that rises.
- the height of the upper piston 133 is limited by the upper compression shaft 161 and is raised only by the second height h2. Accordingly, the lower piston 131 is also opened to the middle open position by the second height h2.
- the middle open position of FIG. 6 has a lower open height (h2 ⁇ h1), so the flow rate of the gas A1 discharged from the vacuum chamber to the vacuum pump, that is, the conductance, is reduced. Accordingly, it is possible to solve a conventional problem in which vortexes are generated inside the vacuum chamber due to a sudden change in conductance.
- the operator examines whether vortex is generated inside the vacuum chamber at the middle open position, and if the vortex is continuously generated, the conductance can be further reduced by further lowering the height of the adjusting bolt 145.
- FIGS. 7 and 8 are exemplary diagrams showing a cross-sectional configuration of a vacuum valve 100a according to a modified example of the present invention.
- the operator could adjust the conductance through the adjusting bolt 145 and the adjusting rotary plate 143.
- the vacuum valve 100a adjusts the middle opening position by inserting the conductance adjusting block 180 having a fixed height.
- the height h3 of the conductance control block 180 is set to the height of the optimum middle open position at which no vortex is generated through experiments.
- the vacuum valve according to the present invention may be moved to an intermediate open position between a closed position and an open position by further including an adjustment piston for adjusting the position of the opening/closing piston unit when it is opened.
- the vacuum valve of the present invention has the advantage of being able to adjust the descending height of the control piston using a rotating control plate and a control bolt, so that the conductance suitable for the capacity of the vacuum chamber and the size of the vacuum pump can be adjusted in various ways.
- first sealing member 120 lower driving chamber
- adjusting housing body 141-2 rotating plate receiving groove
- Position indication scale 141-6 Shaft insertion hole
- 143a adjusting bolt coupling hole 143b: first thread
- adjustment bolt 145a pressurized shaft guide hole
- middle sensor insertion groove 150 upper drive chamber
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- Details Of Valves (AREA)
Abstract
The present invention relates to a conductance-adjustable vacuum valve comprising: a valve body (110) having a chamber connector (111) formed on the lower portion thereof and connected to a vacuum chamber, and having a pump connector (113) formed on a side surface thereof and connected to the vacuum pump; a lower driving chamber (120) coupled to the upper portion of the valve body (110), a lower air injection opening (121) being formed in the front lower portion of the lower driving chamber (120); an opening/closing piston portion (130) including an upper piston (133) formed horizontally in the lower driving chamber (120), a lower piston (131) formed in the valve body (110) and sized to be able to block the chamber connector (111), and a connecting shaft (132) for connecting the upper piston (133) and the lower piston (131) and transferring an upward movement of the upper piston (133) to the lower piston (131) according to whether or not air is supplied through the lower air injection opening (121) such that the lower piston (131) moves between a closed position in which the chamber connector (111) is closed and an open position in which the chamber connector (111) is opened; an upper driving chamber (150) provided above the lower driving chamber (120), an upper air injection opening (157) being formed in the upper front surface of the upper driving chamber (150); an adjustment piston (160) contained in the upper driving chamber (150) such that an upper pressurizing shaft (161) is formed to extend toward the lower driving chamber (120), the adjustment piston (160) moving upwards/downwards inside the upper driving chamber (150) according to whether or not air is injected through the upper air injection opening (157); a conductance adjustment portion (140) provided between the upper driving chamber (150) and the lower driving chamber (120) so as to guide the upper pressurizing shaft (161) to the lower driving chamber (120) such that, when air is injected simultaneously through the lower air injection opening (121) and the upper air injection opening (157), the upper pressurizing shaft (161) moves downwards together with the adjustment piston (160) and pressurizes the ascending upper piston (133), thereby opening the chamber connector (111) to an intermediate open position; and an upper cap (170) coupled to the upper portion of the upper driving chamber (150).
Description
본 발명은 진공밸브에 관한 것으로서, 보다 자세히는 진공압 형성을 위한 개방위치에서 개도를 조절하여 컨덕턴스를 조절할 수 있는 진공밸브에 관한 것이다.The present invention relates to a vacuum valve, and more particularly, to a vacuum valve whose conductance can be adjusted by adjusting an opening degree in an open position for forming a vacuum pressure.
반도체 소자의 제조 공정을 진행하기 위해서는 많은 진공 시스템이 사용된다. 예를 들어, 화학 기상 증착의 경우, 반도체 웨이퍼가 배치된 진공 챔버에 가스를 주입하고 일정한 에너지를 전달하여 플라즈마를 발생시키면 웨이퍼에 반응이 일어나면서 박막을 형성한다. Many vacuum systems are used to perform a manufacturing process of a semiconductor device. For example, in the case of chemical vapor deposition, when plasma is generated by injecting gas into a vacuum chamber in which a semiconductor wafer is disposed and transmitting certain energy, a reaction occurs on the wafer to form a thin film.
박막의 형성과정에서 발생된 불필요한 반응물들은 펌프 및 배관을 통해 배출된다. 이러한 진공 시스템에는 진공도를 제어할 수 있는 진공밸브가 설치된다.Unnecessary reactants generated in the process of forming the thin film are discharged through pumps and pipes. A vacuum valve capable of controlling the degree of vacuum is installed in such a vacuum system.
종래 진공밸브는 진공펌프를 이용해 진공챔버 내부의 기체를 배출하여 진공을 형성한다. 진공밸브가 개방되면 진공챔버 내부의 기체가 배출되며 진공압이 형성되고, 진공밸브가 닫혀지면 내부의 기체 배출이 차단된다. In a conventional vacuum valve, a vacuum is formed by discharging gas inside a vacuum chamber using a vacuum pump. When the vacuum valve is opened, gas inside the vacuum chamber is discharged and vacuum pressure is formed, and when the vacuum valve is closed, gas discharge inside the vacuum chamber is blocked.
그런데, 종래 진공밸브는 닫힌 상태에서 개방 상태로 열려질 때 단위시간당 기체의 흐름, 즉 컨덕턴스가 너무 커서 진공형성 초기에 많은 량의 기체가 갑자기 흐르게 된다. 이런 갑작스러운 기체의 흐름은 진공챔버 내부에 와류 현상을 유발하게 된다. However, when the conventional vacuum valve is opened from the closed state to the open state, the flow of gas per unit time, that is, the conductance is too large, so that a large amount of gas suddenly flows in the initial stage of vacuum formation. This sudden flow of gas causes a vortex phenomenon inside the vacuum chamber.
와류 현상이 발생되면 진공챔버 내부에 미세 입자들이 비산하며 챔버 내부를 오염시켜 공정품질 저하를 야기한다. When the vortex phenomenon occurs, fine particles scatter inside the vacuum chamber and contaminate the inside of the chamber, causing a decrease in process quality.
또한, 세라믹이나 유리 등 민감한 부품들은 갑작스러운 기체 흐름에 의한 충격으로 파손이 발생되기도 한다. In addition, sensitive parts such as ceramics or glass may be damaged due to shock caused by a sudden gas flow.
본 발명의 목적은 상술한 문제를 해결하기 위한 것으로, 진공형성시 챔버용량과 펌프 크기에 따라 컨덕턴스를 다양하게 조절할 수 있는 진공밸브를 제공하는 것이다. An object of the present invention is to solve the above problems, and to provide a vacuum valve capable of adjusting conductance in various ways according to the chamber capacity and pump size during vacuum formation.
본 발명의 상기 목적과 여러 가지 장점은 이 기술분야에 숙련된 사람들에 의해 본 발명의 바람직한 실시예로부터 더욱 명확하게 될 것이다.The above objects and various advantages of the present invention will become more apparent from preferred embodiments of the present invention by those skilled in the art.
상술한 본 발명의 목적은 컨덕턴스 조절이 가능한 진공밸브에 의해 달성될 수 있다. 본 발명의 진공밸브는, 하부에 진공챔버와 연결된 챔버연결구(111)가 형성되고, 측면에 진공펌프와 연결된 펌프연결구(113)가 형성된 밸브본체(110)와; 상기 밸브본체(110)의 상부에 결합되며, 정면 하부에 하부공기주입구(121)가 형성된 하부구동챔버(120)와; 상기 하부구동챔버(120) 내부에 수평하게 형성된 상부피스톤(133)과, 상기 밸브본체(110) 내부에 상기 챔버연결구(111)를 막을 수 있는 크기로 형성된 하부피스톤(131)과, 상기 상부피스톤(133)과 상기 하부피스톤(131)을 연결하며 상기 하부공기주입구(121)로의 공기 공급여부에 따른 상기 상부피스톤(133)의 상승을 상기 하부피스톤(131)으로 전달하며 상기 하부피스톤(131)이 상기 챔버연결구(111)를 닫는 폐쇄위치와 상기 하부피스톤(131)이 상기 챔버연결구(111)를 개방하는 개방위치 사이를 이동하게 하는 연결축(132)을 갖는 개폐피스톤부(130)와; 상기 하부구동챔버(120)의 상부에 구비되며 상부 정면에 상부공기주입구(157)가 형성된 상부구동챔버(150)와; 상기 상부구동챔버(150) 내부에 수용되며 상기 하부구동챔버(120)를 향해 상부가압축(161)이 연장형성되며, 상기 상부공기주입구(157)를 통한 공기주입여부에 따라 상기 상부구동챔버(150) 내부를 상하로 이동하는 조절피스톤(160)과; 상기 상부구동챔버(150)와 상기 하부구동챔버(120) 사이에 구비되어 상기 상부가압축(161)을 상기 하부구동챔버(120)로 안내하며, 상기 하부공기주입구(121)와 상기 상부공기주입구(157)에 동시에 공기가 주입될 때 상기 조절피스톤(160)와 함께 상기 상부가압축(161)이 하강되며 상승되는 상기 상부피스톤(133)를 가압하여 상기 챔버연결구(111)가 중간개방위치로 열리게 하는 컨덕턴스조절부(140)와; 상기 상부구동챔버(150)의 상부에 결합되는 상부캡(170)을 포함하는 것을 특징으로 한다. The above object of the present invention can be achieved by a vacuum valve capable of controlling conductance. The vacuum valve of the present invention includes a valve body 110 having a chamber connector 111 connected to a vacuum chamber at the bottom and a pump connector 113 connected to a vacuum pump on the side thereof; a lower driving chamber 120 coupled to an upper portion of the valve body 110 and having a lower air inlet 121 formed at a lower front portion; An upper piston 133 formed horizontally inside the lower driving chamber 120, a lower piston 131 formed inside the valve body 110 to a size capable of blocking the chamber connector 111, and the upper piston 133 and the lower piston 131 are connected, and the rise of the upper piston 133 according to whether air is supplied to the lower air inlet 121 is transferred to the lower piston 131, and the lower piston 131 an opening/closing piston part 130 having a connecting shaft 132 to move between a closed position in which the chamber connecting hole 111 is closed and an open position in which the lower piston 131 opens the chamber connecting hole 111; an upper driving chamber 150 provided on an upper part of the lower driving chamber 120 and having an upper air inlet 157 formed on the upper front side; Accommodated inside the upper drive chamber 150, the upper pressure shaft 161 extends toward the lower drive chamber 120, and depending on whether air is injected through the upper air inlet 157, the upper drive chamber ( 150) an adjustment piston 160 that moves up and down inside; It is provided between the upper driving chamber 150 and the lower driving chamber 120 to guide the upper pressure shaft 161 to the lower driving chamber 120, and the lower air inlet 121 and the upper air inlet When air is injected into 157 at the same time, the upper pressure shaft 161 lowers together with the adjusting piston 160 and presses the upper piston 133, which rises, so that the chamber connector 111 moves to the middle open position. a conductance adjusting unit 140 to be opened; It is characterized in that it includes an upper cap 170 coupled to the upper portion of the upper drive chamber 150.
일 실시예에 따르면, 상기 컨덕턴스조절부(140)는, 상기 하부구동챔버(120)와 상기 상부구동챔버(150) 사이에 위치되며 판면에 회전판수용홈(141-2)이 모서리영역을 제외하고 함몰형성되고, 상기 상부가압축(161)을 하부로 안내하는 축삽입공(141-6)이 상기 회전판수용홈(141-2)의 가운데 영역에 관통형성된 조절하우징(141)과; 상기 조절하우징(141)의 회전판수용홈(141-2)에 수용되며 상기 조절하우징(141)의 외부로 외주연이 노출되어 외력에 의해 회전조작되고, 내부에 조절볼트결합공(143a)이 형성된 조절회전판(143)과; 상기 상부가압축(161)을 감싸게 상기 조절볼트결합공(143a)에 나사결합되며 일단에 외측을 향해 수평하게 위치표시핀(145c)이 연장형성된 조절볼트(145)를 포함하며, 상기 조절볼트(145)는 상기 조절회전판(143)의 정역회전에 따라 상기 조절회전판(143)의 내부에서 상기 상부구동챔버(150)와 상기 조절하우징(141) 사이를 상하로 이동될 수 있다. According to one embodiment, the conductance adjusting unit 140 is located between the lower drive chamber 120 and the upper drive chamber 150, and has a rotating plate accommodating groove 141-2 on the plate surface except for the corner region. an adjustment housing 141 formed in a recess and having a shaft insertion hole 141-6 for guiding the upper pressure shaft 161 downward through a central region of the rotation plate accommodating groove 141-2; It is accommodated in the rotation plate receiving groove 141-2 of the control housing 141, the outer periphery is exposed to the outside of the control housing 141, and is rotated by an external force, and an adjustment bolt coupling hole 143a is formed therein. an adjusting rotary plate 143; It includes an adjustment bolt 145 screwed to the adjustment bolt coupling hole 143a to surround the upper pressing shaft 161 and has a position indicator pin 145c extending horizontally outward at one end, and the adjustment bolt ( 145) may move up and down between the upper driving chamber 150 and the adjusting housing 141 inside the adjusting rotating plate 143 according to forward and reverse rotation of the adjusting rotating plate 143 .
일 실시예에 따르면, 상기 상부공기주입구(157)으로 공기가 주입되고 상기 조절피스톤(160)이 하강될 때 상기 조절볼트(145)가 조절피스톤(160)의 하부와 접촉되며 상기 조절피스톤(160)의 하강높이를 제한하며, 상기 조절피스톤(160)의 하강높이는 상기 중간개방위치에서 상기 하부피스톤(131)이 상기 챔버연결구(111)를 개방하는 높이에 대응될 수 있다. According to one embodiment, when air is injected into the upper air inlet 157 and the control piston 160 is lowered, the control bolt 145 contacts the lower part of the control piston 160 and the control piston 160 ), and the lowering height of the adjusting piston 160 may correspond to the height at which the lower piston 131 opens the chamber connector 111 in the middle open position.
일 실시예에 따르면, 상기 조절하우징(141)의 외주연에는 상기 위치표시핀(145c)이 수용되는 핀수용홈(141-4)이 일정깊이 형성되고, 상기 핀수용홈(141-4)의 외주면에는 현재 위치표시핀(145c)의 위치를 표시하는 위치표시눈금(141-5)이 높이방향을 따라 형성될 수 있다. According to one embodiment, a pin receiving groove 141-4 accommodating the position indicator pin 145c is formed at a certain depth on the outer periphery of the control housing 141, and the pin receiving groove 141-4 On the outer circumferential surface, a position display scale 141-5 displaying the position of the current position display pin 145c may be formed along the height direction.
본 발명에 따른 진공밸브는 개폐피스톤부의 개방시 위치를 조절하는 조절피스톤을 추가로 포함하여 폐쇄위치와 개방위치 사이의 중간개방위치로 이동될 수 있다. The vacuum valve according to the present invention further includes a control piston for adjusting the position of the opening/closing piston unit when it is opened, and can be moved to an intermediate open position between a closed position and an open position.
이에 따라 초기 진공압 인가시 급격한 컨덕턴스 변화에 따른 와류 발생을 방지할 수 있는 효과가 있다. Accordingly, there is an effect of preventing vortex generation due to rapid conductance change when the initial vacuum pressure is applied.
또한, 본 발명의 진공밸브는 회전조절판과 조절볼트를 이용해 조절피스톤의 하강높이를 조절할 수 있어 진공챔버의 용량과 진공펌프 크기에 적합한 컨덕턴스로 다양하게 조절할 수 있는 장점이 있다. In addition, the vacuum valve of the present invention has the advantage of being able to adjust the descending height of the control piston using a rotating control plate and a control bolt, so that the conductance suitable for the capacity of the vacuum chamber and the size of the vacuum pump can be adjusted in various ways.
도 1은 본 발명에 따른 진공밸브의 외부 구성을 도시한 사시도, 1 is a perspective view showing the external configuration of a vacuum valve according to the present invention;
도 2는 본 발명에 따른 진공밸브의 정면 구성을 도시한 정면도, 2 is a front view showing the front configuration of a vacuum valve according to the present invention;
도 3은 본 발명에 따른 진공밸브의 폐쇄위치의 단면구성을 도시한 단면예시도, Figure 3 is a cross-sectional example showing the cross-sectional configuration of the closed position of the vacuum valve according to the present invention;
도 4는 본 발명에 따른 진공밸브의 컨덕턴스조절부의 구성을 분해하여 도시한 분해사시도, 4 is an exploded perspective view showing the disassembled structure of the conductance control unit of the vacuum valve according to the present invention;
도 5는 본 발명에 따른 진공밸브의 개방위치의 단면구성을 도시한 단면예시도, 5 is a cross-sectional example showing the cross-sectional configuration of the open position of the vacuum valve according to the present invention;
도 6은 본 발명에 따른 진공밸브의 중간개방위치의 단면구성을 도시한 단면예시도, 6 is a cross-sectional example showing the cross-sectional configuration of the middle open position of the vacuum valve according to the present invention;
도 7과 도 8은 본 발명의 변형예에 따른 진공밸브의 동작과정을 도시한 단면예시도들이다. 7 and 8 are cross-sectional views showing the operation process of a vacuum valve according to a modified example of the present invention.
본 발명을 충분히 이해하기 위해서 본 발명의 바람직한 실시예를 첨부 도면을 참조하여 설명한다. 본 발명의 실시예는 여러 가지 형태로 변형될 수 있으며, 본 발명의 범위가 아래에서 상세히 설명하는 실시예로 한정되는 것으로 해석되어서는 안 된다. 본 실시예는 당업계에서 평균적인 지식을 가진 자에게 본 발명을 보다 완전하게 설명하기 위해서 제공되어 지는 것이다. 따라서 도면에서의 요소의 형상 등은 보다 명확한 설명을 강조하기 위해서 과장되어 표현될 수 있다. 각 도면에서 동일한 부재는 동일한 참조부호로 도시한 경우가 있음을 유의하여야 한다. 본 발명의 요지를 불필요하게 흐릴 수 있다고 판단되는 공지 기능 및 구성에 대한 상세한 기술은 생략된다.In order to fully understand the present invention, preferred embodiments of the present invention will be described with reference to the accompanying drawings. Embodiments of the present invention may be modified in various forms, and the scope of the present invention should not be construed as being limited to the examples described in detail below. This embodiment is provided to more completely explain the present invention to those skilled in the art. Therefore, the shapes of elements in the drawings may be exaggerated to emphasize a clearer description. It should be noted that in each drawing, the same members are sometimes indicated by the same reference numerals. Detailed descriptions of well-known functions and configurations that may unnecessarily obscure the subject matter of the present invention are omitted.
도 1은 본 발명에 따른 진공밸브(100)의 구성을 도시한 사시도이고, 도 2는 진공밸브(100)의 정면구성을 도시한 정면도이고, 도 3은 진공밸브(100)의 폐쇄위치의 단면구성을 도시한 단면도이다. 1 is a perspective view showing the configuration of a vacuum valve 100 according to the present invention, FIG. 2 is a front view showing the front configuration of the vacuum valve 100, and FIG. 3 is a cross-section of the vacuum valve 100 in a closed position. It is a cross-sectional view showing the configuration.
도시된 바와 같이 본 발명에 따른 진공밸브(100)는 진공이 형성될 진공챔버와, 진공챔버 내부의 기체를 외부로 배출하여 진공챔버 내부가 진공이 형성되게 하는 진공펌프 사이에 구비되어 제어부(미도시)의 제어에 의해 개폐되며 진공챔버 내부의 기체가 진공펌프로 배출되게 한다. As shown, the vacuum valve 100 according to the present invention is provided between a vacuum chamber in which a vacuum is to be formed and a vacuum pump that discharges gas inside the vacuum chamber to the outside to form a vacuum inside the vacuum chamber, and is provided as a controller (not shown). It is opened and closed by the control of the time), and the gas inside the vacuum chamber is discharged to the vacuum pump.
본 발명의 진공밸브(100)는 진공챔버와 연결되는 챔버연결구(111)와 진공펌프에 연결되는 펌프연결구(113)를 갖는 밸브본체(110)와, 밸브본체(110)의 상부에 구비되어 챔버연결구(111)를 개폐하는 개폐피스톤부(130)와, 밸브본체(110)의 상부에 구비되어 개폐피스톤부(130)가 하부로 이동되어 챔버연결구(111)를 닫는 폐쇄위치와 개폐피스톤부(130)가 상부로 이동되어 챔버연결구(111)를 여는 개방위치 사이를 이동되게하는 하부구동챔버(120)와, 하부구동챔버(120)의 상부에 상하로 이동되게 구비되는 조절피스톤(160)과, 조절피스톤(160)이 상하로 이동하며 개폐피스톤부(130)를 가압하게 하는 상부구동챔버(150)와, 상부구동챔버(150)와 하부구동챔버(120) 사이에 구비되어 조절피스톤(160)이 개폐피스톤부(130)를 가압하는 높이를 조절하여 폐쇄위치와 개방위치 사이의 중간개방위치의 개방높이를 조절하는 컨덕턴스조절부(140)와, 상부구동챔버(150) 상부를 커버하는 상부캡(170)을 포함한다. The vacuum valve 100 of the present invention includes a valve body 110 having a chamber connector 111 connected to a vacuum chamber and a pump connector 113 connected to a vacuum pump, and provided on the upper portion of the valve body 110 to form a chamber. The opening/closing piston part 130 which opens and closes the connector 111, and the opening/closing piston part 130 provided on the upper part of the valve body 110 moves downward to close the chamber connector 111 and the closing position and opening/closing piston part ( 130) is moved upward to move between the open positions of opening the chamber connector 111; The control piston 160 is provided between the upper drive chamber 150 and the upper drive chamber 150 and the lower drive chamber 120 to pressurize the opening/closing piston unit 130 while moving up and down, and the control piston 160 ) adjusts the height at which the opening/closing piston unit 130 is pressed to adjust the opening height of the intermediate opening position between the closed position and the open position, and the upper part covering the upper part of the upper driving chamber 150 Includes cap 170.
본 발명의 진공밸브(100)는 밸브본체(110)의 챔버연결구(111)를 상하로 이동하며 개폐하는 개폐피스톤부(130) 외에 개폐피스톤부(130)의 상승높이를 조절하는 조절피스톤(160)을 더 포함한다. 이에 의해 본 발명의 진공밸브(100)는 챔버연결구(111)가 완전히 열린 개방위치와, 닫힌 상태인 폐쇄위치 외에 개방위치와 폐쇄위치 사이에 부분적으로 열린 중간개방위치로 조절될 수 있어 진공압 형성 초기 갑작스런 컨덕턴스 변화에 의한 와류현상을 방지할 수 있다. In the vacuum valve 100 of the present invention, in addition to the opening and closing piston part 130 that opens and closes by moving the chamber connector 111 of the valve body 110 up and down, the control piston 160 that adjusts the rising height of the opening and closing piston part 130 ) is further included. As a result, the vacuum valve 100 of the present invention can be adjusted to an open position in which the chamber connector 111 is fully open and a closed position in a closed state, as well as a partially opened intermediate open position between the open position and the closed position, thereby forming vacuum pressure. It is possible to prevent a vortex phenomenon caused by an initial sudden change in conductance.
또한, 본 발명의 진공밸브(100)는 조절피스톤(160)의 승강높이를 조절하는 컨덕턴스조절부(140)를 더 포함하여 중간개방위치의 열림높이를 다양하게 조절할 수 있다. 이에 따라 진공챔버의 용량과 진공펌프의 크기에 따라 컨덕턴스를 적합하게 조절할 수 있는 장점이 있다. In addition, the vacuum valve 100 of the present invention further includes a conductance adjusting unit 140 that adjusts the height of the control piston 160, so that the opening height of the middle opening position can be adjusted in various ways. Accordingly, there is an advantage in that the conductance can be appropriately adjusted according to the capacity of the vacuum chamber and the size of the vacuum pump.
밸브본체(110)는 진공챔버와 진공펌프를 연결한다. 도 1과 도 3에 도시된 바와 같이 밸브본체(110)의 하부에는 진공챔버(미도시)와 연결되는 챔버연결구(111)가 연장형성되고, 측면에는 진공펌프와 연결되는 펌프연결구(113)가 연장형성된다. 챔버연결구(111)와 펌프연결구(113)의 위치는 설계방향에 따라 서로 반대가 될 수도 있다. The valve body 110 connects the vacuum chamber and the vacuum pump. As shown in FIGS. 1 and 3, a chamber connector 111 connected to a vacuum chamber (not shown) is extended at the bottom of the valve body 110, and a pump connector 113 connected to a vacuum pump is formed on the side. formed by elongation The positions of the chamber connector 111 and the pump connector 113 may be opposite to each other depending on the design direction.
밸브본체(110)의 상부에는 하부구동챔버(120)가 배치된다. 하부구동챔버(120)와 밸브본체(110)의 경계영역에는 제1실링부재(115)가 구비되어 내부의 공압이 외부로 배출되는 것을 방지한다. A lower driving chamber 120 is disposed above the valve body 110 . A first sealing member 115 is provided at a boundary between the lower driving chamber 120 and the valve body 110 to prevent internal air pressure from being discharged to the outside.
하부구동챔버(120)는 내부에 수용된 개폐피스톤부(130)가 상하로 이동되며 챔버연결구(111)를 개폐하도록 개폐피스톤부(130)를 구동한다. 도 3에 도시된 바와 같이 하부구동챔버(120)의 정면에는 공기가 유입되는 하부공기주입구(121)가 형성되고, 바닥면에는 개폐피스톤부(130)의 연결축(132)을 밸브본체(110)로 안내하는 연결축안내공(123)이 관통형성되고, 상면에는 조절피스톤(160)의 상부가압축(161)이 삽입되는 가압축삽입공(129)이 관통형성된다. The lower drive chamber 120 drives the opening and closing piston unit 130 to open and close the chamber connector 111 while the opening and closing piston unit 130 accommodated therein moves up and down. As shown in FIG. 3, a lower air inlet 121 through which air is introduced is formed on the front side of the lower driving chamber 120, and the connecting shaft 132 of the opening/closing piston part 130 is formed on the bottom surface of the valve body 110. A connecting shaft guide hole 123 guiding to ) is formed through, and a pressure shaft insertion hole 129 into which an upper pressure shaft 161 of the adjustment piston 160 is inserted is formed through the upper surface.
또한, 하부구동챔버(120)의 바닥 모서리에는 고정스크류(173)의 나사결합단(173a)이 나사결합되는 스크류결합공(127)이 구비된다. 스크류결합공(127)의 내벽면에는 나사산이 형성되어 나사결합단(173a)과 나사결합된다. In addition, a screw coupling hole 127 into which the screw coupling end 173a of the fixing screw 173 is screwed is provided at the bottom edge of the lower driving chamber 120 . A screw thread is formed on the inner wall surface of the screw coupling hole 127 and is screwed with the screw coupling end 173a.
연결축안내공(123)에는 연결축(132)이 상하로 이동될 때 공기의 누설을 방지하기 위핸 제2실링부재(123a)가 구비된다. The connecting shaft guide hole 123 is provided with a second sealing member 123a to prevent leakage of air when the connecting shaft 132 moves up and down.
하부공기주입구(121)는 개폐피스톤부(130)의 상부피스톤(133)과 대응되는 위치에 구비되어 도 5에 도시된 바와 같이 내부로 주입된 공기(A)가 상부피스톤(133)의 하면으로 작용하여 상부피스톤(133)이 상승하게 한다. The lower air inlet 121 is provided at a position corresponding to the upper piston 133 of the opening/closing piston unit 130, and as shown in FIG. 5, the air A injected into the inside is directed to the lower surface of the upper piston 133. Acts to cause the upper piston 133 to rise.
가압축삽입공(129)은 조절피스톤(160)의 상부가압축(161)이 하부구동챔버(120) 내부로 삽입되게 하여 상부가압축(161)이 조절피스톤(160)의 상하이동에 연동하여 도 6에 도시된 바와 같이 상부피스톤(133)을 가압하게 한다. The pressure shaft insertion hole 129 allows the upper pressure shaft 161 of the control piston 160 to be inserted into the lower driving chamber 120 so that the upper pressure shaft 161 interlocks with the vertical movement of the control piston 160. As shown in FIG. 6, the upper piston 133 is pressed.
스크류결합공(127)은 도 3에 도시된 바와 같이 상부캡(170)과 상부구동챔버(150) 및 조절하우징(141)을 관통하여 삽입된 고정스크류(173)가 하부구동챔버(120)에 나사결합되며 하부구동챔버(120)와 조절하우징(141), 상부구동챔버(150) 및 상부캡(170)의 위치가 고정되게 한다. As shown in FIG. 3, the screw coupling hole 127 is a fixing screw 173 inserted through the upper cap 170, the upper driving chamber 150, and the adjusting housing 141 to the lower driving chamber 120. It is screwed and the positions of the lower driving chamber 120, the adjusting housing 141, the upper driving chamber 150 and the upper cap 170 are fixed.
밸브본체(110)와 하부구동챔버(120)는 도면에 도시되지 않은 체결부재(미도시)에 의해 고정된다. The valve body 110 and the lower driving chamber 120 are fixed by a fastening member (not shown) not shown in the drawings.
개폐피스톤부(130)는 하부구동챔버(120)와 밸브본체(110)에 구비되어 밸브본체(110)의 챔버연결구(111)를 개폐하도록 폐쇄위치와 개방위치 간을 이동한다. 개폐피스톤부(130)는 도 3에 도시된 바와 같이 챔버연결구(111)를 막을 수 있는 면적으로 형성된 하부피스톤(131)과, 하부구동챔버(120) 내에 하부공기주입구(121)에 대응되는 위치에 수평하게 위치된 상부피스톤(133)과, 하부피스톤(131)과 상부피스톤(133)을 연결하는 연결축(132)과, 하부피스톤(131)과 하부구동챔버(120) 사이를 덮는 벨로우즈(135)와, 하부구동챔버(120)의 하부와 하부피스톤(131) 사이에 구비되어 하부피스톤(131)이 챔버연결구(111)를 폐쇄하는 방향으로 탄성력을 인가하는 탄성부재(137)를 포함한다. The opening/closing piston unit 130 is provided in the lower driving chamber 120 and the valve body 110 and moves between a closed position and an open position to open and close the chamber connector 111 of the valve body 110 . As shown in FIG. 3, the opening/closing piston part 130 is located at a position corresponding to the lower piston 131 formed in an area capable of blocking the chamber connector 111 and the lower air inlet 121 in the lower driving chamber 120. Bellows covering between the upper piston 133 positioned horizontally, the connecting shaft 132 connecting the lower piston 131 and the upper piston 133, and the lower piston 131 and the lower driving chamber 120 ( 135) and an elastic member 137 provided between the lower part of the lower drive chamber 120 and the lower piston 131 to apply elastic force in a direction in which the lower piston 131 closes the chamber connector 111. .
하부피스톤(131)는 상하로 이동되며 챔버연결구(111)를 개폐한다. 도 3에 도시된 바와 같이 하부피스톤(131)는 밸브본체(110) 내부에서 하강하여 챔버연결구(111)를 닫아 챔버본체 내부의 기체의 배출을 차단하는 폐쇄위치와, 도 5에 도시된 바와 같이 상승하여 챔버연결구(111)를 개방하여 챔버본체 내부의 기체가 펌프연결구(113)로 배출되는 개방위치 간을 이동한다. The lower piston 131 moves up and down and opens and closes the chamber connector 111 . As shown in FIG. 3, the lower piston 131 descends inside the valve body 110 to close the chamber connector 111 to block the discharge of gas inside the chamber body, and as shown in FIG. It rises and opens the chamber connector 111 to move between open positions where the gas inside the chamber body is discharged to the pump connector 113.
상부피스톤(133)는 하부구동챔버(120)의 하부공기주입구(121)로의 공기주입여부에 따라 상하로 이동된다. 도 3에 도시된 바와 같이 하부공기주입구(121)로 공기가 주입되지 않으면 상부피스톤(133)는 하부구동챔버(120)의 바닥면에 위치되고, 도 5에 도시된 바와 같이 하부공기주입구(121)로 공기가 주입되면 상부피스톤(133)는 하부구동챔버(120)의 상부로 상승된다. The upper piston 133 moves up and down depending on whether air is injected into the lower air inlet 121 of the lower driving chamber 120 . As shown in FIG. 3, when air is not injected into the lower air inlet 121, the upper piston 133 is located on the bottom surface of the lower drive chamber 120, and as shown in FIG. 5, the lower air inlet 121 ), the upper piston 133 rises to the top of the lower driving chamber 120 when air is injected.
연결축(132)은 상부피스톤(133)과 하부피스톤(131)을 연결하여 상부피스톤(133)의 상하 이동을 하부피스톤(131)으로 전달한다. The connecting shaft 132 connects the upper piston 133 and the lower piston 131 to transfer the vertical movement of the upper piston 133 to the lower piston 131 .
탄성부재(137)는 도 3에 도시된 바와 같이 하부피스톤(131)이 하강되어 챔버연결구(111)를 막는 방향으로 탄성력을 인가한다. 이에 의해 하부공기주입구(121)로의 공기주입이 차단되면 탄성부재(137)의 탄성력에 의해 하부피스톤(131)은 하강된다. As shown in FIG. 3 , the elastic member 137 applies an elastic force in a direction in which the lower piston 131 descends and blocks the chamber connector 111 . Accordingly, when air injection into the lower air inlet 121 is blocked, the lower piston 131 is lowered by the elastic force of the elastic member 137 .
상부피스톤(133)이 상승하기 위해서는 하부공기주입구(121)로 탄성부재(137)의 탄성력을 초과하는 압력의 공기가 공급된다. In order for the upper piston 133 to rise, air with a pressure exceeding the elastic force of the elastic member 137 is supplied to the lower air inlet 121 .
벨로우즈(135)는 탄성부재(137)의 외부를 덮어 탄성부재(137)의 압축 및 신장시 발생된 분진 또는 먼지가 챔버연결구(111)를 통해 진공챔버로 유입되는 것을 차단한다. The bellows 135 covers the outside of the elastic member 137 and blocks dust or dust generated when the elastic member 137 is compressed or stretched from entering the vacuum chamber through the chamber connector 111 .
조절피스톤(160)은 상하로 이동되며 상부피스톤(133)이 상승되는 높이를 조절하여 중간개방위치에서 하부피스톤(131)의 열림높이를 조절한다. 상부구동챔버(150)는 조절피스톤(160)이 상하로 이동되게 구동력을 인가한다. 상부캡(170)은 상부구동챔버(150)의 개방된 상부를 덮어 공기의 외부 누설을 방지한다. The adjusting piston 160 moves up and down and adjusts the height at which the upper piston 133 rises to adjust the opening height of the lower piston 131 at the mid-open position. The upper driving chamber 150 applies a driving force so that the adjusting piston 160 moves up and down. The upper cap 170 covers the open top of the upper driving chamber 150 to prevent air from leaking to the outside.
컨덕턴스조절부(140)는 상부구동챔버(150)에 의해 조절피스톤(160)이 상하로 이동될 때, 하강하는 높이를 조절하여 컨덕턴스가 조절되게 한다. When the control piston 160 is moved up and down by the upper driving chamber 150, the conductance control unit 140 controls the height of the control piston 160 to adjust the conductance.
도 4는 컨덕턴스조절부(140)와 상부구동챔버(150), 조절피스톤(160) 및 상부캡(170)의 결합관계를 도시한 분해사시도이다. FIG. 4 is an exploded perspective view showing the coupling relationship between the conductance adjusting unit 140, the upper driving chamber 150, the adjusting piston 160, and the upper cap 170. Referring to FIG.
도시된 바와 같이 조절피스톤(160)는 원판형태로 구비되며 하부로 수직하게 상부가압축(161)이 연장형성된다. 상부캡(170)은 상부구동챔버(150)의 상부에 결합되며 개방된 상부구동챔버(150)를 커버한다. 상부캡(170)의 하면에는 조절피스톤(160)이 수용되는 조절피스톤수용홈(171)이 형성된다.As shown, the control piston 160 is provided in a disc shape, and the upper pressure shaft 161 extends vertically downward. The upper cap 170 is coupled to the top of the upper driving chamber 150 and covers the open upper driving chamber 150 . An adjustment piston accommodating groove 171 in which the adjustment piston 160 is accommodated is formed on the lower surface of the upper cap 170 .
상부캡(170)의 모서리영역에는 복수개의 고정스크류(173)가 삽입된다. 고정스크류(173)는 도 3에 도시된 바와 같이 하부구동챔버(120)의 바닥면까지 연장형성되고, 상부구동챔버(150)의 스크류삽입공(155), 조절하우징(141)의 하부스크류삽입공(141-7)에 순차적으로 삽입된 후 하부구동챔버(120)의 스크류결합공(127)에 나사결합단(173a)이 나사결합된다. A plurality of fixing screws 173 are inserted into the corner area of the upper cap 170 . As shown in FIG. 3, the fixing screw 173 extends to the bottom surface of the lower driving chamber 120, and the screw insertion hole 155 of the upper driving chamber 150 and the lower screw of the adjusting housing 141 are inserted. After being sequentially inserted into the balls 141-7, the screw end 173a is screwed into the screw connection hole 127 of the lower drive chamber 120.
상부구동챔버(150)는 조절피스톤(160)이 상하로 이동되게 구동한다. 상부구동챔버(150)는 조절피스톤(160)이 상하로 이동되는 공간이 형성된 상부구동챔버본체(151)와, 상부구동챔버본체(151)의 정면 상부에 구비된 상부공기주입구(157)를 포함한다. 상부공기주입구(157)는 도 6에 도시된 바와 같이 공기(A)가 주입되어 조절피스톤(160)의 상부를 가압하게 한다. 이에 의해 조절피스톤(160)이 개폐피스톤부(130)를 가압하여 중간개방위치에 위치하게 한다. The upper driving chamber 150 drives the adjusting piston 160 to move up and down. The upper drive chamber 150 includes an upper drive chamber body 151 in which a space for the adjustment piston 160 to move up and down is formed, and an upper air inlet 157 provided on the upper front portion of the upper drive chamber body 151. do. As shown in FIG. 6 , air A is injected into the upper air inlet 157 to pressurize the upper portion of the adjusting piston 160 . As a result, the adjusting piston 160 presses the opening/closing piston part 130 to position it in the middle open position.
상부구동챔버본체(151)의 바닥면에는 컨덕턴스조절부(140)의 조절볼트(145)가 상하로 이동되게 수용하는 볼트이동공(153)이 관통형성된다. A bolt moving hole 153 for accommodating the adjustment bolt 145 of the conductance adjusting unit 140 to move up and down is formed through the bottom surface of the upper driving chamber body 151 .
컨덕턴스조절부(140)는 개방위치와 폐쇄위치 사이의 중간개방위치에 개폐피스톤부(130)가 위치되도록 조절피스톤(160)의 하강위치를 조절한다. 컨덕턴스조절부(140)는 도 3과 도 4에 도시된 바와 같이 하부구동챔버(120)와 상부구동챔버(150) 사이에 구비되는 조절하우징(141)과, 조절하우징(141)의 내부에 수용되며 작업자에 의해 외부에서 회전조작 가능하게 구비되는 조절회전판(143)과, 조절회전판(143)의 내부에 나사결합되어 조절회전판(143)의 정역회전에 따라 상하이동되며 조절피스톤(160)의 하강위치를 제한하는 조절볼트(145)를 포함한다. The conductance adjusting unit 140 adjusts the lowering position of the adjusting piston 160 so that the opening/closing piston unit 130 is positioned at an intermediate open position between the open position and the closed position. As shown in FIGS. 3 and 4 , the conductance control unit 140 is accommodated in the control housing 141 provided between the lower drive chamber 120 and the upper drive chamber 150 and inside the control housing 141. The adjustment rotary plate 143 is screwed into the inside of the adjustment rotary plate 143 and moves up and down according to the normal and reverse rotation of the adjustment rotary plate 143, and the adjustment piston 160 descends. It includes an adjustment bolt 145 that limits the position.
조절하우징(141)은 조절회전판(143)이 회전될 수 있게 지지하고, 조절볼트(145)가 조절회전판(143)의 회전에 의해 상하로 이동될 수 있게 지지한다. 조절하우징(141)은 조절하우징본체(141-1)와, 조절하우징본체(141-1)의 내부에 조절회전판(143)의 형상에 대응되게 함몰형성되어 조절회전판(143)이 회전될 수 있게 수용하는 회전판수용홈(141-2)과, 회전판수용홈(141-2)의 중심영역에 단차지게 함몰형성되어 조절볼트(145)가 삽입되는 볼트수용홈(141-3)과, 볼트수용홈(141-3)의 바닥면에 관통형성되어 상부가압축(161)을 하부구동챔버(120)로 안내하는 축삽입공(141-6)과, 조절하우징본체(141-1)의 모서리영역에 구비되어 고정스크류(173)가 삽입되는 하부스크류삽입공(141-7)을 포함한다. The adjusting housing 141 supports the adjusting rotating plate 143 to be rotated and supports the adjusting bolt 145 to be moved up and down by the rotation of the adjusting rotating plate 143 . The control housing 141 is recessed in the control housing body 141-1 and inside the control housing body 141-1 to correspond to the shape of the control turn plate 143 so that the control turn plate 143 can be rotated. A rotating plate receiving groove 141-2 for accommodating, a bolt receiving groove 141-3 formed in a stepped depression in the central region of the rotating plate receiving groove 141-2 and into which an adjustment bolt 145 is inserted, and a bolt receiving groove A shaft insertion hole 141-6 formed through the bottom surface of the 141-3 and guiding the upper pressure shaft 161 to the lower driving chamber 120, and a corner area of the adjusting housing body 141-1 It is provided and includes a lower screw insertion hole 141-7 into which the fixing screw 173 is inserted.
회전판수용홈(141-2)은 조절하우징본체(141-1)의 판면에 대해 조절회전판(143)이 내접하는 형태로 함몰형성된다. 이에 의해 조절회전판(143)이 회전판수용홈(141-2)에 수용되었을 때, 도 1에 도시된 바와 같이 조절하우징본체(141-1)의 네 면으로 조절회전판(143)이 외부로 노출된다. The rotary plate accommodating groove 141-2 is recessed in a form in which the control rotary plate 143 is in internal contact with the plate surface of the control housing body 141-1. As a result, when the adjusting rotating plate 143 is accommodated in the rotating plate receiving groove 141-2, as shown in FIG. 1, the adjusting rotating plate 143 is exposed to the outside through the four sides of the adjusting housing body 141-1. .
사용자는 외부로 노출된 조절회전판(143)을 손가락으로 가압하여 조절회전판(143)을 정역회전하여 조절피스톤(160)의 하강높이를 조절하고, 중간개방위치의 개도를 조절할 수 있다. The user presses the control rotary plate 143 exposed to the outside with a finger and rotates the control rotary plate 143 forward and backward to adjust the descending height of the control piston 160 and adjust the opening degree of the mid-open position.
조절회전판(143)에는 조절볼트(145)가 결합되는 조절볼트결합공(143a)이 관통형성된다. 조절볼트결합공(143a)의 내벽면에는 제1나사산(143b)이 형성되어 조절볼트(145)와 나사결합된다. An adjustment bolt coupling hole 143a, to which an adjustment bolt 145 is coupled, is formed through the adjustment rotation plate 143. A first thread 143b is formed on the inner wall surface of the adjustment bolt coupling hole 143a and is screwed to the adjustment bolt 145.
볼트수용홈(141-3)은 회전판수용홈(141-2)의 바닥의 중심영역에 조절볼트(145)의 형상에 대응되게 함몰형성된다. 볼트수용홈(141-3)에는 조절하우징(141)의 정면을 향해 핀수용홈(141-4)이 함몰형성된다. 핀수용홈(141-4)에는 조절볼트(145)의 위치표시핀(145c)이 삽입된다. The bolt accommodating groove 141-3 is recessed to correspond to the shape of the adjusting bolt 145 in the center region of the bottom of the rotating plate accommodating groove 141-2. A pin receiving groove 141-4 is recessed toward the front of the control housing 141 in the bolt receiving groove 141-3. The position indicator pin 145c of the adjustment bolt 145 is inserted into the pin receiving groove 141-4.
조절볼트(145)는 볼트수용홈(141-3)에 수용된 상태로 회전되지 않고 상하 이동만 가능하도록 단면이 비원형 형태로 구비된다. 조절볼트(145)는 조절회전판(143)의 제1나사산(143b)과 나사결합될 수 있게 단면이 양측은 곡면으로 형성되고 전후는 수평한 형상으로 구비된다. The adjusting bolt 145 is provided with a non-circular cross section so that it can only move up and down without being rotated while being accommodated in the bolt receiving groove 141-3. The adjusting bolt 145 has a cross section of both sides formed in a curved surface and the front and back sides are provided with a horizontal shape so that it can be screwed with the first screw thread 143b of the adjusting rotation plate 143.
조절볼트(145)에는 위치표시핀(145c)이 정면을 향해 연장되어 핀수용홈(141-4)에 삽입된다. The position indicator pin 145c extends toward the front of the adjustment bolt 145 and is inserted into the pin receiving groove 141-4.
조절볼트(145)의 외주면에는 양측 곡면영역에는 제1나사산(143b)에 대응되는 제2나사산(145b)이 형성된다. 작업자가 외부에서 조절볼트(145)를 정역회전하면 제1나사산(143b)에 제2나사산(145b)이 나사결합된 조절볼트(145)는 볼트수용홈(141-3)에 끼워져 회전되지 못하므로 제자리에서 상하로만 이동된다. A second screw thread 145b corresponding to the first screw thread 143b is formed on both sides of the outer circumferential surface of the adjusting bolt 145. When the operator rotates the adjusting bolt 145 forward and backward from the outside, the adjusting bolt 145 in which the second screw thread 145b is screwed into the first screw thread 143b is inserted into the bolt receiving groove 141-3 and cannot be rotated. It only moves up and down in place.
조절볼트(145)의 내부에는 상부가압축(161)을 하부로 안내하는 가압축안내공(145a)이 관통형성된다. Inside the adjustment bolt 145, a pressure shaft guide hole 145a for guiding the upper pressure shaft 161 to the lower side is formed through.
조절볼트(145)는 볼트수용홈(141-3)과 볼트이동공(153) 사이를 상하로 이동하며 중간개방위치에서 조절피스톤(160)이 하강될 높이를 제한한다. 즉, 도 6에 도시된 바와 같이 상부공기주입구(157)를 통해 공기가 주입되고 조절피스톤(160)이 공기압에 의해 하강될 때 조절볼트(145)가 조절피스톤(160)의 하부와 맞닿으며 조절피스톤(160)의 하강높이를 제한한다. The adjusting bolt 145 moves up and down between the bolt receiving groove 141-3 and the bolt moving hole 153, and limits the height at which the adjusting piston 160 is lowered in the middle open position. That is, as shown in FIG. 6, when air is injected through the upper air inlet 157 and the control piston 160 is lowered by the air pressure, the control bolt 145 comes into contact with the lower part of the control piston 160 for adjustment. The descending height of the piston 160 is limited.
이에 따라 조절피스톤(160)로부터 하부로 연장되어 하부구동챔버(120) 내부로 삽입되는 상부가압축(161)의 높이도 제한되고, 상부피스톤(133)이 상승될 때 상부가압축(161)과 닿으며 상승높이가 제한된다. Accordingly, the height of the upper pressure shaft 161 extending downward from the adjusting piston 160 and inserted into the lower driving chamber 120 is also limited, and when the upper piston 133 is raised, the upper pressure shaft 161 and reach, and the height of the lift is limited.
상부구동챔버(150)의 바닥면으로부터 조절볼트(145)의 돌출높이(d)가 하부피스톤(131)과 챔버연결구(111) 사이의 이격높이, 즉 중간개방위치의 열림높이(h2)를 조절한다. 조절볼트(145)의 돌출높이(d)가 높을 수록 중간개방위치의 열림높이(h2)가 높아져 시간당 진공챔버로부터 진공펌프 측으로 이동되는 기체의 유량, 즉 컨덕턴스가 증가하게 된다. The protruding height (d) of the control bolt 145 from the bottom surface of the upper driving chamber 150 controls the separation height between the lower piston 131 and the chamber connector 111, that is, the opening height h2 of the middle opening position do. As the protruding height d of the control bolt 145 increases, the opening height h2 of the middle opening position increases, and thus the flow rate of gas moving from the vacuum chamber to the vacuum pump per hour, that is, the conductance increases.
여기서, 조절볼트(145)의 현재 높이는 도 2에 도시된 바와 같이 위치표시핀(145c)의 현재 높이를 통해 작업자가 외부에서 확인이 가능한다. 위치표시핀(145c)에는 음각된 기준선(a)이 표시되고, 조절하우징본체(141-1)의 핀수용홈(141-4)의 외벽면에는 높이방향을 따라 위치표시눈금(141-5)이 형성된다. Here, the current height of the adjusting bolt 145 can be confirmed by the operator from the outside through the current height of the position indicator pin 145c as shown in FIG. 2 . An intaglio reference line (a) is displayed on the position indicator pin 145c, and a position indicator scale 141-5 along the height direction is displayed on the outer wall of the pin receiving groove 141-4 of the control housing body 141-1. is formed
사용자는 위치표시눈금(141-5)에 위치된 위치표시핀(145c)의 기준선(a)을 기준으로 중간개방위치의 컨덕턴스를 확인하고 조절할 수 있다. 즉, 위치표시눈금(141-5)의 위치표시핀(145c)의 높이가 높을수록 열림높이가 높이지고, 컨덕턴스가 커지게 조절할 수 있다. The user can check and adjust the conductance at the middle open position based on the reference line (a) of the position indicator pin 145c located on the position indicator scale 141-5. That is, as the height of the position indicator pin 145c of the position indicator scale 141-5 increases, the height of the opening increases and the conductance can be adjusted to increase.
한편, 도 2에 도시된 바와 같이 하부구동챔버(120)와 조절하우징(141) 및 상부구동챔버(150)의 정면에는 높이방향을 따라 양쪽으로 한 쌍의 센서삽입홈(125,147,158)이 동축상으로 함몰되게 구비된다. On the other hand, as shown in FIG. 2, a pair of sensor insertion grooves 125, 147, and 158 are coaxially arranged on both sides of the lower drive chamber 120, the control housing 141, and the upper drive chamber 150 along the height direction. It is provided with a recess.
한 쌍의 센서삽입홈(125,147,158)에는 개폐피스톤부(130)의 현재 높이를 통해 진공밸브(100)의 개폐를 감지하는 센서(미도시)가 결합된다. A sensor (not shown) is coupled to the pair of sensor insertion grooves 125 , 147 , and 158 to detect opening and closing of the vacuum valve 100 through the current height of the opening/closing piston unit 130 .
이러한 구성을 갖는 본 발명에 따른 진공밸브(100)의 사용과정을 도 1 내지 도 6을 참조하여 설명한다. A process of using the vacuum valve 100 according to the present invention having such a configuration will be described with reference to FIGS. 1 to 6 .
진공밸브(100)는 밸브본체(110)의 챔버연결구(111)는 진공챔버(미도시)와 연결되고 펌프연결구(113)는 진공펌프(미도시)와 연결되게 설치된다. The vacuum valve 100 is installed so that the chamber connector 111 of the valve body 110 is connected to a vacuum chamber (not shown) and the pump connector 113 is connected to a vacuum pump (not shown).
진공챔버(미도시) 내부의 기체의 외부 누설을 방지하는 차단위치일 때, 도 3에 도시된 바와 같이 탄성부재(137)의 탄성력에 의해 하부피스톤(131)이 하강되어 챔버연결구(111)를 막는다. When the vacuum chamber (not shown) is in a blocking position to prevent external leakage of gas, as shown in FIG. 3, the lower piston 131 is lowered by the elastic force of the elastic member 137 to close the chamber connector 111. block
이 상태에서 진공챔버(미도시) 내부에 진공압을 형성하고자 할 경우, 도 5에 도시된 바와 같이 하부공기주입구(121)로 공기(A)를 주입한다. In this state, when it is desired to form a vacuum pressure inside the vacuum chamber (not shown), air (A) is injected into the lower air inlet 121 as shown in FIG. 5 .
하부공기주입구(121)로 공기(A)가 주입되고 탄성부재(137)의 탄성력을 능가하는 압력이 상부피스톤(133)으로 인가되면 상부피스톤(133)은 상부로 상승한다. 상부피스톤(133)의 상승은 연결축(132)을 통해 하부피스톤(131)으로 전달되고 하부피스톤(131)은 상승하며 챔버연결구(111)를 개방한다. 챔버연결구(111)가 개방되며 진공챔버(미도시) 내부의 기체(A1)가 펌프연결구(113)를 통해 배출되며 진공챔버(미도시)로 진공압이 인가된다. When air (A) is injected into the lower air inlet 121 and a pressure exceeding the elastic force of the elastic member 137 is applied to the upper piston 133, the upper piston 133 rises upward. The rise of the upper piston 133 is transmitted to the lower piston 131 through the connection shaft 132, and the lower piston 131 rises to open the chamber connector 111. The chamber connector 111 is opened, gas A1 inside the vacuum chamber (not shown) is discharged through the pump connector 113, and vacuum pressure is applied to the vacuum chamber (not shown).
이 때, 상부피스톤(133)은 공기압에 의해 하부구동챔버(120)의 상면과 닿는 높이(h1)까지 상승되고 하부피스톤(131)은 상부피스톤(133)과 동일한 높이(h1)로 상승되며 개방위치를 유지한다. At this time, the upper piston 133 is raised to a height h1 in contact with the upper surface of the lower driving chamber 120 by air pressure, and the lower piston 131 is raised to the same height h1 as the upper piston 133 and opened. hold the position
한편, 작업자가 개방위치에서 진공압이 형성될 때 와류가 발생되는 것을 방지하고자 하면, 도 6에 도시된 바와 같이 조절회전판(143)을 회전시켜 조절볼트(145)를 상승시킨다. On the other hand, if the operator wants to prevent the vortex from being generated when vacuum pressure is formed in the open position, as shown in FIG. 6, the adjusting rotation plate 143 is rotated to raise the adjusting bolt 145.
조절볼트(145)가 희망하는 높이(d)만큼 상승된 후, 작업자는 하부공기주입구(121)와 상부공기주입구(157)로 동시에 공기(A)를 공급한다. After the control bolt 145 is raised by the desired height (d), the operator supplies air (A) to the lower air inlet 121 and the upper air inlet 157 at the same time.
하부공기주입구(121)로 주입된 공기압에 의해 상부피스톤(133)이 상승한다. 그리고, 상부공기주입구(157)로 주입된 공기압에 의해 조절피스톤(160)이 하강한다. 조절피스톤(160)은 조절볼트(145)와 접촉되는 위치까지 하강하고, 상부가압축(161)은 상승하는 상부피스톤(133)의 상부와 접촉된다. The upper piston 133 rises by the air pressure injected through the lower air inlet 121. Then, the control piston 160 is lowered by the air pressure injected into the upper air inlet 157. The control piston 160 descends to a position where it comes into contact with the control bolt 145, and the upper pressure shaft 161 comes into contact with the upper part of the upper piston 133 that rises.
상부피스톤(133)은 상부가압축(161)에 의해 상승되는 높이가 제한되고 제2높이(h2)만큼만 상승된다. 이에 따라 하부피스톤(131)도 동일하게 제2높이(h2)만큼의 중간개방위치로 개방된다. The height of the upper piston 133 is limited by the upper compression shaft 161 and is raised only by the second height h2. Accordingly, the lower piston 131 is also opened to the middle open position by the second height h2.
도 5의 완전 개방위치와 비교할 때 도 6의 중간개방위치는 열린 높이(h2<h1)가 낮으므로 진공챔버로부터 진공펌프로 배출되는 기체(A1)의 유량, 즉 컨덕턴스가 줄어든다. 이에 따라 종래 급작스런 컨덕턴스 변화에 따라 진공챔버 내부에 와류가 발생되던 문제를 해결할 수 있다. Compared to the fully open position of FIG. 5, the middle open position of FIG. 6 has a lower open height (h2 < h1), so the flow rate of the gas A1 discharged from the vacuum chamber to the vacuum pump, that is, the conductance, is reduced. Accordingly, it is possible to solve a conventional problem in which vortexes are generated inside the vacuum chamber due to a sudden change in conductance.
작업자는 중간개방위치에서 진공챔버 내부의 와류 발생여부를 검토하고 와류가 계속하여 발생되면 조절볼트(145)의 높이를 더 낮춰 컨덕턴스를 더 줄일 수 있다. The operator examines whether vortex is generated inside the vacuum chamber at the middle open position, and if the vortex is continuously generated, the conductance can be further reduced by further lowering the height of the adjusting bolt 145.
한편, 도 7과 도 8은 본 발명의 변형예에 따른 진공밸브(100a)의 단면구성을 도시한 예시도이다. Meanwhile, FIGS. 7 and 8 are exemplary diagrams showing a cross-sectional configuration of a vacuum valve 100a according to a modified example of the present invention.
앞서 설명한 바람직한 실시예의 진공밸브(100)는 조절볼트(145)와 조절회전판(143)을 통해 작업자가 컨덕턴스를 조절할 수 있었다. In the vacuum valve 100 of the preferred embodiment described above, the operator could adjust the conductance through the adjusting bolt 145 and the adjusting rotary plate 143.
반면, 변형예에 따른 진공밸브(100a)는 높이가 고정된 컨덕턴스조절블럭(180)을 삽입하여 중간개방위치를 조절한다. On the other hand, the vacuum valve 100a according to the modified example adjusts the middle opening position by inserting the conductance adjusting block 180 having a fixed height.
이 때, 컨덕턴스조절블럭(180)의 높이(h3)는 실험을 토해 와류가 발생되지 않는 최적의 중간개방위치 높이로 설정된다. At this time, the height h3 of the conductance control block 180 is set to the height of the optimum middle open position at which no vortex is generated through experiments.
이에 의해 도 7의 (a)에 도시된 폐쇄위치와, 도 7의 (b)에 도시된 개방위치 및 도 8에 도시된 중간개방위치 간을 조절할 수 있다. Accordingly, it is possible to adjust between the closed position shown in FIG. 7(a), the open position shown in FIG. 7(b), and the intermediate open position shown in FIG. 8.
이상에서 살펴본 바와 같이 본 발명에 따른 진공밸브는 개폐피스톤부의 개방시 위치를 조절하는 조절피스톤을 추가로 포함하여 폐쇄위치와 개방위치 사이의 중간개방위치로 이동될 수 있다. As described above, the vacuum valve according to the present invention may be moved to an intermediate open position between a closed position and an open position by further including an adjustment piston for adjusting the position of the opening/closing piston unit when it is opened.
이에 따라 초기 진공압 인가시 급격한 컨덕턴스 변화에 따른 와류 발생을 방지할 수 있는 효과가 있다. Accordingly, there is an effect of preventing vortex generation due to rapid conductance change when the initial vacuum pressure is applied.
또한, 본 발명의 진공밸브는 회전조절판과 조절볼트를 이용해 조절피스톤의 하강높이를 조절할 수 있어 진공챔버의 용량과 진공펌프 크기에 적합한 컨덕턴스로 다양하게 조절할 수 있는 장점이 있다. In addition, the vacuum valve of the present invention has the advantage of being able to adjust the descending height of the control piston using a rotating control plate and a control bolt, so that the conductance suitable for the capacity of the vacuum chamber and the size of the vacuum pump can be adjusted in various ways.
이상에서 설명된 본 발명의 진공밸브의 실시예는 예시적인 것에 불과하며, 본 발명이 속한 기술분야의 통상의 지식을 가진 자라면 이로부터 다양한 변형 및 균등한 타 실시예가 가능하다는 점을 잘 알 수 있을 것이다. 그러므로 본 발명은 상기의 상세한 설명에서 언급되는 형태로만 한정되는 것은 아님을 잘 이해할 수 있을 것이다. 따라서 본 발명의 진정한 기술적 보호 범위는 첨부된 특허청구범위의 기술적 사상에 의해 정해져야 할 것이다. 또한, 본 발명은 첨부된 청구범위에 의해 정의되는 본 발명의 정신과 그 범위 내에 있는 모든 변형물과 균등물 및 대체물을 포함하는 것으로 이해되어야 한다.The embodiment of the vacuum valve of the present invention described above is only exemplary, and those skilled in the art to which the present invention belongs can well understand that various modifications and other equivalent embodiments are possible therefrom. There will be. Therefore, it will be well understood that the present invention is not limited to the forms mentioned in the detailed description above. Therefore, the true technical protection scope of the present invention should be determined by the technical spirit of the appended claims. It is also to be understood that the present invention includes all modifications, equivalents and alternatives within the spirit and scope of the present invention as defined by the appended claims.
[부호의 설명][Description of code]
100 : 진공밸브 110 : 밸브본체100: vacuum valve 110: valve body
111 : 챔버연결구 113 : 펌프연결구111: chamber connector 113: pump connector
115 : 제1실링부재 120 : 하부구동챔버115: first sealing member 120: lower driving chamber
121 : 하부공기주입구 123 : 연결축안내공121: lower air inlet 123: connecting shaft guide hole
123a : 제2실링부재 125 : 하부센서삽입홈123a: second sealing member 125: lower sensor insertion groove
127 : 스크류결합공 129 : 가압축삽입공127: screw coupling hole 129: pressurized shaft insertion hole
130 : 개폐피스톤부 131 : 하부피스톤130: opening and closing piston part 131: lower piston
131a : 제3실링부재 132 : 연결축131a: third sealing member 132: connecting shaft
133 : 상부피스톤 133a : 제4실링부재133: upper piston 133a: fourth sealing member
135 : 벨로우즈 137 : 탄성부재135: bellows 137: elastic member
140 : 컨덕턴스조절부 141 : 조절하우징140: conductance adjusting unit 141: adjusting housing
141-1 : 조절하우징본체 141-2 : 회전판수용홈141-1: adjusting housing body 141-2: rotating plate receiving groove
141-3 : 볼트수용홈 141-4 : 핀수용홈141-3: bolt receiving groove 141-4: pin receiving groove
141-5 : 위치표시눈금 141-6 : 축삽입공141-5: Position indication scale 141-6: Shaft insertion hole
141-7 : 하부스크류삽입공 143 : 조절회전판141-7: lower screw insertion hole 143: adjusting rotary plate
143a : 조절볼트결합공 143b : 제1나사산143a: adjusting bolt coupling hole 143b: first thread
145 : 조절볼트 145a : 가압축안내공145: adjustment bolt 145a: pressurized shaft guide hole
145b : 제2나사산 145c : 위치표시핀145b: second thread 145c: position indicator pin
147 : 중간센서삽입홈 150 : 상부구동챔버147: middle sensor insertion groove 150: upper drive chamber
151 : 상부구동챔버본체 153 : 볼트이동공151: upper drive chamber body 153: bolt moving hole
155 : 스크류삽입공 157 : 상부공기주입구155: screw insertion hole 157: upper air inlet
158 : 상부센서삽입홈 160 : 조절피스톤158: upper sensor insertion groove 160: control piston
161 : 상부가압축 170 : 상부캡161: upper compression shaft 170: upper cap
171 : 상부피스톤수용홈 173 : 고정스크류171: upper piston receiving groove 173: fixing screw
173a : 나사결합단 180 : 컨덕턴스조절블럭173a: screw coupling end 180: conductance control block
a : 기준선a : baseline
A : 공기A: air
A1 : 기체A1: gas
Claims (4)
- 하부에 진공챔버와 연결된 챔버연결구(111)가 형성되고, 측면에 진공펌프와 연결된 펌프연결구(113)가 형성된 밸브본체(110)와; A valve body 110 having a chamber connector 111 connected to the vacuum chamber at the bottom and a pump connector 113 connected to the vacuum pump on the side thereof;상기 밸브본체(110)의 상부에 결합되며, 정면 하부에 하부공기주입구(121)가 형성된 하부구동챔버(120)와; a lower driving chamber 120 coupled to an upper portion of the valve body 110 and having a lower air inlet 121 formed at a lower front portion;상기 하부구동챔버(120) 내부에 수평하게 형성된 상부피스톤(133)과, 상기 밸브본체(110) 내부에 상기 챔버연결구(111)를 막을 수 있는 크기로 형성된 하부피스톤(131)과, 상기 상부피스톤(133)과 상기 하부피스톤(131)을 연결하며 상기 하부공기주입구(121)로의 공기 공급여부에 따른 상기 상부피스톤(133)의 상승을 상기 하부피스톤(131)으로 전달하며 상기 하부피스톤(131)이 상기 챔버연결구(111)를 닫는 폐쇄위치와 상기 하부피스톤(131)이 상기 챔버연결구(111)를 개방하는 개방위치 사이를 이동하게 하는 연결축(132)을 갖는 개폐피스톤부(130)와; An upper piston 133 formed horizontally inside the lower driving chamber 120, a lower piston 131 formed inside the valve body 110 to a size capable of blocking the chamber connector 111, and the upper piston 133 and the lower piston 131 are connected, and the rise of the upper piston 133 according to whether air is supplied to the lower air inlet 121 is transferred to the lower piston 131, and the lower piston 131 an opening/closing piston part 130 having a connecting shaft 132 to move between a closed position in which the chamber connecting hole 111 is closed and an open position in which the lower piston 131 opens the chamber connecting hole 111;상기 하부구동챔버(120)의 상부에 구비되며 상부 정면에 상부공기주입구(157)가 형성된 상부구동챔버(150)와; 상기 상부구동챔버(150) 내부에 수용되며 상기 하부구동챔버(120)를 향해 상부가압축(161)이 연장형성되며, 상기 상부공기주입구(157)를 통한 공기주입여부에 따라 상기 상부구동챔버(150) 내부를 상하로 이동하는 조절피스톤(160)과; an upper driving chamber 150 provided on an upper part of the lower driving chamber 120 and having an upper air inlet 157 formed on the upper front side; Accommodated inside the upper drive chamber 150, the upper pressure shaft 161 extends toward the lower drive chamber 120, and depending on whether air is injected through the upper air inlet 157, the upper drive chamber ( 150) an adjustment piston 160 that moves up and down inside;상기 상부구동챔버(150)와 상기 하부구동챔버(120) 사이에 구비되어 상기 상부가압축(161)을 상기 하부구동챔버(120)로 안내하며, 상기 하부공기주입구(121)와 상기 상부공기주입구(157)에 동시에 공기가 주입될 때 상기 조절피스톤(160)와 함께 상기 상부가압축(161)이 하강되며 상승되는 상기 상부피스톤(133)를 가압하여 상기 챔버연결구(111)가 중간개방위치로 열리게 하는 컨덕턴스조절부(140)와; It is provided between the upper driving chamber 150 and the lower driving chamber 120 to guide the upper pressure shaft 161 to the lower driving chamber 120, and the lower air inlet 121 and the upper air inlet When air is injected into 157 at the same time, the upper pressure shaft 161 lowers together with the adjusting piston 160 and presses the upper piston 133, which rises, so that the chamber connector 111 moves to the middle open position. a conductance adjusting unit 140 to be opened;상기 상부구동챔버(150)의 상부에 결합되는 상부캡(170)을 포함하는 것을 특징으로 하는 컨덕턴스 조절이 가능한 진공밸브. Conductance controllable vacuum valve, characterized in that it comprises an upper cap (170) coupled to the upper portion of the upper drive chamber (150).
- 제1항에 있어서, According to claim 1,상기 컨덕턴스조절부(140)는, The conductance control unit 140,상기 하부구동챔버(120)와 상기 상부구동챔버(150) 사이에 위치되며 판면에 회전판수용홈(141-2)이 모서리영역을 제외하고 함몰형성되고, 상기 상부가압축(161)을 하부로 안내하는 축삽입공(141-6)이 상기 회전판수용홈(141-2)의 가운데 영역에 관통형성된 조절하우징(141)과; It is located between the lower driving chamber 120 and the upper driving chamber 150, and the rotating plate receiving groove 141-2 is recessed on the plate surface except for the corner area, and guides the upper pressure shaft 161 downward. an adjustment housing 141 through which a shaft insertion hole 141-6 is formed through a center region of the rotation plate receiving groove 141-2;상기 조절하우징(141)의 회전판수용홈(141-2)에 수용되며 상기 조절하우징(141)의 외부로 외주연이 노출되어 외력에 의해 회전조작되고, 내부에 조절볼트결합공(143a)이 형성된 조절회전판(143)과; It is accommodated in the rotation plate receiving groove 141-2 of the control housing 141, the outer periphery is exposed to the outside of the control housing 141, and is rotated by an external force, and an adjustment bolt coupling hole 143a is formed therein. an adjusting rotary plate 143;상기 상부가압축(161)을 감싸게 상기 조절볼트결합공(143a)에 나사결합되며 일단에 외측을 향해 수평하게 위치표시핀(145c)이 연장형성된 조절볼트(145)를 포함하며, It includes an adjustment bolt 145 screwed into the adjustment bolt coupling hole 143a to surround the upper pressing shaft 161 and having a position indicator pin 145c extending horizontally outward at one end,상기 조절볼트(145)는 상기 조절회전판(143)의 정역회전에 따라 상기 조절회전판(143)의 내부에서 상기 상부구동챔버(150)와 상기 조절하우징(141) 사이를 상하로 이동되는 것을 특징으로 하는 컨덕턴스 조절이 가능한 진공밸브. The adjusting bolt 145 moves up and down between the upper drive chamber 150 and the adjusting housing 141 inside the adjusting rotating plate 143 according to the normal and reverse rotation of the adjusting rotating plate 143. A vacuum valve with adjustable conductance.
- 제2항에 있어서, According to claim 2,상기 상부공기주입구(157)으로 공기가 주입되고 상기 조절피스톤(160)이 하강될 때 상기 조절볼트(145)가 조절피스톤(160)의 하부와 접촉되며 상기 조절피스톤(160)의 하강높이를 제한하며, When air is injected into the upper air inlet 157 and the control piston 160 is lowered, the control bolt 145 contacts the lower part of the control piston 160 and limits the lowering height of the control piston 160. and상기 조절피스톤(160)의 하강높이는 상기 중간개방위치에서 상기 하부피스톤(131)이 상기 챔버연결구(111)를 개방하는 높이에 대응되는 것을 특징으로 하는 컨덕턴스 조절이 가능한 진공밸브. The lowering height of the control piston (160) corresponds to the height at which the lower piston (131) opens the chamber connector (111) in the middle open position.
- 제3항에 있어서, According to claim 3,상기 조절하우징(141)의 외주연에는 상기 위치표시핀(145c)이 수용되는 핀수용홈(141-4)이 일정깊이 형성되고, 상기 핀수용홈(141-4)의 외주면에는 현재 위치표시핀(145c)의 위치를 표시하는 위치표시눈금(141-5)이 높이방향을 따라 형성되는 것을 특징으로 하는 컨덕턴스 조절이 가능한 진공밸브. A pin accommodating groove 141-4 accommodating the position display pin 145c is formed on the outer periphery of the control housing 141 with a predetermined depth, and a current position display pin is formed on the outer circumferential surface of the pin accommodating groove 141-4. A vacuum valve with conductance control, characterized in that the position indicator scale (141-5) indicating the position of (145c) is formed along the height direction.
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KR20050121704A (en) * | 2003-04-03 | 2005-12-27 | 아사히 유키자이 고교 가부시키가이샤 | Fluid operating valve |
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KR20170085407A (en) * | 2016-01-14 | 2017-07-24 | (주)두쿰 | Check valve capable of supplying fluid in a reverse direction |
KR20200032192A (en) * | 2017-07-31 | 2020-03-25 | 가부시끼가이샤후지킨 | Gas supply system |
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KR20050121704A (en) * | 2003-04-03 | 2005-12-27 | 아사히 유키자이 고교 가부시키가이샤 | Fluid operating valve |
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JP2015034621A (en) * | 2013-08-09 | 2015-02-19 | Ckd株式会社 | On-off valve with detector |
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KR20200032192A (en) * | 2017-07-31 | 2020-03-25 | 가부시끼가이샤후지킨 | Gas supply system |
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