KR100878458B1 - Vibrator driving apparatus of inverter method using three phase induction motor - Google Patents

Abstract

An inverter type vibrator driving device using a three-phase induction motor is provided to miniature a product by installing an inverter circuit directly to a vibrator driving device, and to remove the disadvantage of a vibrator driving device using the existing single-phrase induction motor. An inverter type vibrator driving device using a three-phase induction motor includes a cooling fan operating together with a rotary shaft, an air inflow hole which the outside air flows in, a three-phase induction motor including a ventilation port, an inverter circuit(170) formed at a certain distance from the upper side of the three-phase induction motor to transfer the cool air radiated from a cooling unit of the three-phase induction motor smoothly, a frame fixing the three-phase induction motor and upper, lower covers, first and second side covers(130) inducing the cool air radiated from the cooling unit of the three-phase induction motor to the inverter circuit by guiding from the side, a top cover(150) guiding from the upper part and inducing to the inverter circuit, and a bottom cover covering and supporting the lower part of the three-phase induction motor.

Description

Vibrator driving apparatus of inverter method using three phase induction motor}

The present invention relates to a concrete vibrator driving device, and more particularly, to implement a three-phase induction motor vibrator driving device applying the inverter method, the inverter circuit unit is installed in close proximity to the three-phase induction motor, the cooling of the three-phase induction motor By cooling the air emitted from the fan directly to the inverter circuit portion through the side and the top cover (guide) to increase the cooling efficiency, it is possible to install the inverter circuit portion directly to the vibrator drive device can be miniaturized products, The present invention relates to an inverter type vibrator drive device using a three-phase induction motor that eliminates the disadvantages of a vibrator drive device using a single phase induction motor.

As is well known, the concrete vibrator generates vibration by eccentrically driving the vibrating body by using an electric motor to remove bubbles in concrete during concrete pouring work, to increase density, and to distribute aggregates evenly. It is a device to obtain a concrete structure of.

Looking at the conventional vibrator, there is a type in which a small electric motor is installed on the vibrating rod, and a type for transmitting only the eccentric body and the rotational force of the large electric motor through the flexible hose.

However, the type in which the electric motor is installed in the vibrating rod has a problem that the output is weak and the vibration force is not high, and in the case of the type in which the vibrating body is included in the vibrating rod, a simple power on and off type product using a single phase induction motor is used. According to the change of the output becomes unstable, there is a problem that no safety devices such as overheating or leakage.

The present invention was devised to solve the above problems, and an object of the present invention is to implement a three-phase induction motor vibrator driving device applying an inverter method, the inverter circuit unit is installed in close proximity to the three-phase induction motor, the three-phase induction motor By allowing the cool air emitted from the cooling fan to be directly transmitted to the inverter circuit portion through the side and the top cover (guide) to increase the cooling efficiency, it is possible to install the inverter circuit portion directly to the vibrator drive device to reduce the size of the product, The present invention provides an inverter type vibrator drive device using a three-phase induction motor which eliminates the disadvantages of the existing vibrator drive device using a single phase induction motor.

The present invention for achieving the above object is a three-phase induction motor having a cooling unit formed on the rear; A frame part for fixing the three-phase induction motor and the upper and lower side covers; First and second side covers covering both sides of the three-phase induction motor and simultaneously guiding the cold air discharged through the cooling unit of the three-phase induction motor to the inverter circuit unit; An upper cover which covers the upper part of the three-phase induction motor and simultaneously guides the cool air discharged through the cooling unit of the three-phase induction motor to an inverter circuit part; A bottom cover covering and supporting a lower portion of the three-phase induction motor; The inverter circuit unit is fixedly attached to the bottom surface of the upper cover and configured to maintain a predetermined distance from the upper surface of the three-phase induction motor so that the cool air discharged through the cooling unit of the three-phase induction motor is smoothly transmitted.

In addition, the cooling unit is formed on the rear of the three-phase induction motor main body according to the present invention, the cooling fan to be driven in conjunction with the rotating shaft, the air inlet hole through which the outside air is introduced, the end portion of the cooling unit and the body is formed in the overlapping portion Characterized in that it comprises a tuyere that is.

In addition, the frame portion according to the present invention is characterized in that it consists of a rectangular side fixing part formed on both sides to surround both sides of the three-phase induction motor and a handle formed by connecting the upper center of the side fixing part to each other.

In addition, the first and second side cover according to the present invention is formed by bending the upper end of a predetermined length bent, the groove portion is inserted into the handle of the frame portion in the center of the upper bent portion, the lower end is formed by bending a certain length It is composed of one lower bent portion, characterized in that the upper bent portion and the lower bent portion is configured to be fixed to the side fixing portion of the frame portion.

In addition, the upper cover according to the present invention is configured so that the front surface is bent a predetermined length, it is configured to be fixed to each other the upper bent portion of the first side cover and the second side cover on the bottom of the handle of the frame portion.

In addition, the inverter circuit according to the present invention is a 'c'-shaped heat dissipation portion formed with a plurality of heat dissipation grooves on the bottom portion and both side surfaces, and fixed to the inner side of the heat dissipation portion, the front portion is installed vertically on one side The inverter circuit PCB is formed with an indicator light, a speed selection switch and a power switch, and the heat dissipation unit and a cover for covering the top of the PCB.

In addition, the inverter circuit constituting the PCB of the inverter circuit according to the present invention includes an error indicator, a speed selection switch, and a power switch, applying or blocking a commercial AC power supply 180 ~ 250V to the circuit and connected to the switch control unit the switch Under the control of the control unit, by using a switch unit for turning off the error indicator or turning off the power switch automatically, a rectifying unit for rectifying AC power inputted through the switch unit into a DC power source, and a DC power source inputted through the rectifying unit A drive power supply unit for generating a three-phase drive DC power source for driving a three-phase induction motor, a power module controller for generating a switching signal according to a set frequency and outputting a three-phase waveform for load driving, and inputted from the power module controller Receives three-phase waveform and connects AC power to DC power input from outside The output control unit for mixing and outputting to the load, and the voltage input to the drive power supply unit, and if the input voltage falls below a predetermined voltage, the output of the power module control unit is cut off, when the surge voltage inflow error signal for the circuit breaker Detects the voltage sensing unit and the low voltage and overcurrent signals generated by the output control unit and feeds them back to the power module control unit, and switches the error signal for circuit interruption in case of overheating or short circuit. An abnormal signal sensing unit for transmitting to the control unit, a current sensing unit for sensing an electric current flowing through the power line input through the main switch and transmitting an error signal for circuit interruption to the switch control unit when an abnormal current (leakage current) is generated; If an error signal is input from the voltage detector, the fault signal detector, and the current detector, the switch unit is Light and the like during and, by turning off the power switch, characterized in that the control unit including a switch to protect the circuit.

In addition, the present invention, the upper body of the three-phase induction motor, the main body of the rectangular shape having an insertion hole for inserting the inverter circuit portion is inserted into, and the PCB mounting portion consisting of the handle of the upper portion of the body is integrally formed, the PCB mounting portion is three-phase induction It characterized in that it is installed in a position spaced a predetermined distance from the tuyere of the three-phase induction motor so that the cool air discharged through the cooling unit of the motor is smoothly transferred.

Thus, the present invention is installed in the inverter circuit portion close to the three-phase induction motor, and the cooling air emitted from the cooling fan of the three-phase induction motor to be directly transmitted to the inverter circuit portion through the side and the upper cover (guide) to increase the cooling efficiency By zooming in, the inverter circuit part can be directly installed in the vibrator drive device, which can reduce the size of the product, and eliminates the disadvantage of the vibrator drive device using the existing single-phase induction motor.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is an overall configuration showing a coupling relationship between the vibrator drive device and the vibration bar according to an embodiment of the present invention, Figure 2 is an enlarged configuration view of the vibrator drive device, Figure 3 is an exploded perspective view of the vibrator drive device. .

As shown, the vibrator drive device 100 of the present invention is a device for generating vibration, the connecting portion 210 of the flexible hose 200 through the guide shaft 113 of the rotary shaft 114 of the three-phase induction motor 110 Connect to

When the three-phase induction motor 110 is rotated and driven, the flexible cable embedded in the flexible hose 200 is driven to rotate and the eccentric body connected to the flexible cable inside the vibrating rod 220 is rotated by the flexible cable. By doing so, the vibration rod 220 performs a vibration operation.

In this case, when connecting or releasing the connecting portion 210 of the flexible hose 200 to the rotary shaft 114, the locking unit 115 formed on the guide portion 113 of the three-phase induction motor 110 is performed by one touch. The locking unit 115 is a conventional technology and does not describe a specific internal configuration.

It looks at a more detailed configuration of the vibrator drive device 100 according to the present invention.

The vibrator driving device 100 includes a three-phase induction motor 110 having a cooling unit 112 formed on a rear surface thereof, a frame unit 120 for fixing the three-phase induction motor 110 and an upper and lower side covers, and the three phase. The first and second side covers which cover both sides of the induction motor 110 and guide the cool air discharged through the cooling unit 112 of the three-phase induction motor 110 from the side to guide the inverter circuit unit 170. (130) 140 and the upper portion of the three-phase induction motor 110 and at the same time guide the cold air discharged through the cooling unit 112 of the three-phase induction motor 110 from the inverter circuit unit 170 The upper cover 150 to guide to, the bottom cover 160 to cover and support the lower portion of the three-phase induction motor 110, and fixedly attached to the bottom of the upper cover 150 and the three-phase induction motor 110 Cool air discharged through the cooling unit 112 of the The inverter circuit unit 170 is configured to maintain a predetermined distance from the upper surface of the three-phase induction motor 110.

The three-phase induction motor 110 is a cylindrical main body 111, a guide portion 113 formed on the front surface of the main body 111, and is installed on the upper end of the guide portion 113 is connected to the flexible hose 200 Locking section 115 for connecting or releasing 210 and the rotating shaft 114, and the cooling unit 112 is formed on the rear of the main body 111.

Here, the configuration of the cooling unit 112, the cooling fan 116 to drive in conjunction with the rotary shaft 114, as shown in Figure 5, the air inlet hole 117 through which the outside air flows, and the cooling unit ( And an air vent 118 formed at a portion where the end of the 112 and the main body 111 overlap.

When the three-phase induction motor 110 configured as described above is rotated when the rotating shaft 114 is driven, the cooling fan 116 rotates in conjunction with this. When the cooling fan 116 rotates, the outside air introduced into the air inlet hole 117 flows into the main body 111 to cool the inside of the main body 111 and diverge to the air outlet 118, thereby providing a main body 111. ) Will prevent overheating.

The frame part 120 has rectangular side fixing parts 122 and 123 formed on both sides of the three-phase induction motor 110 to surround both sides, and a center of an upper end of the side fixing parts 122 and 123. It consists of a handle 121 formed by connecting to each other.

The first side cover 130 has a top bent portion 131 formed by bending a top of a predetermined length and a groove portion into which the handle 121 of the frame portion 120 is inserted in the center of the top bent portion 131. 132 and a lower bent portion 133 formed by bending a lower end at a predetermined length, wherein the upper bent portion 131 and the lower bent portion 133 have a side fixing portion 122 of the frame portion 120. It is fixed to).

The upper bending portion 141 formed by bending the upper end of the second side cover 140 by a predetermined length and the handle 121 of the frame portion 120 are inserted into the center of the upper bending portion 141. It is composed of a groove portion 142 and the lower bent portion 143 formed by bending a lower end of a predetermined length, the upper bent portion 141 and the lower bent portion 143 is the other side of the frame portion 120 It is configured to be fixed to the government (123).

The upper cover 150 is configured so that the front surface is bent a predetermined length, the upper bent portion 131 of the first side cover 130 and the second side cover 140 on the bottom surface of the handle 121 of the frame portion 120 141 is configured to be fixed to each other.

The inverter circuit unit 170 is fixedly attached to the bottom surface of the upper cover 150, as shown in Figure 5, the cold air discharged through the air outlet 118 of the cooling unit 112 of the three-phase induction motor 110 smoothly transferred. It is configured to maintain a predetermined interval with the upper surface of the three-phase induction motor 110 as possible.

In addition, as shown in FIG. 4, the inverter circuit unit 170 includes a 'c' shaped heat dissipation unit 171 having a plurality of heat dissipation grooves 171a formed on the bottom and both side surfaces thereof, and the heat dissipation unit 171. An inverter circuit PCB 172 having an error indicator 172b, a speed selection switch 172c, and a power switch 172d formed on a front portion 172a fixed to the inner side of the front panel 172a and mounted vertically on one side thereof, and the heat radiating unit 171 and a cover 173 covering the top of the PCB 172.

The inverter circuit unit 170 as described above has a primary cooling structure to allow heat generated from the PCB 172 to be dissipated to the outside through the heat dissipation unit 171 during driving (operation).

The present invention vibrator drive device 110 configured as described above,

When the three-phase induction motor 110 is driven to rotate the rotary shaft 113, the cooling fan 116 of the cooling unit 112 is rotated in conjunction with the rotary shaft 113.

In addition, the cooling fan 116 rotates and the cold air emanated to the front (360 ㅀ) through the air vent 118, as shown in Figs. 5 and 6, the first side cover 130, the second side cover 140 and Guided by the upper cover 150, and directly transmitted to the inverter circuit unit 170, the inverter circuit unit 170 can fully enjoy the cooling effect.

As a result, the inverter circuit unit 170 performs a primary heat dissipation function by its own heat dissipation unit 171, and then a second cooling function is performed from external cold air, resulting in overheating that is easily generated due to characteristics of the inverter circuit. It provides a great effect of blocking the malfunction due to the source.

7 is a block diagram of an inverter circuit forming the PCB 172 of the inverter circuit unit 170.

As shown, the inverter circuit of the present invention is the switch unit 10, rectifier 20, drive power supply unit 30, power module control unit 40, output control unit 50, voltage detection unit 60, abnormal signal detection unit 70, a current sensing unit 80, and a switch control unit 90.

The switch unit 10 includes an error indicator 172b, a speed selection switch 172c, and a power switch 172d, and applies or cuts the commercial AC power source 180 to 250V to the circuit, and switches the control unit 90 ), The error indicator 172b is turned off or the power switch 172d is automatically turned off under the control of the switch control unit 90.

The rectifying unit 20 rectifies AC power inputted through the switch unit 10 into DC power.

The drive power supply unit 30 generates a three-phase drive DC power source for driving the three-phase induction motor 110 by using the DC power input through the rectifier 20.

The power module controller 40 generates a switching signal according to a set frequency and outputs a three-phase waveform for driving a load.

The output control unit 50 receives the three-phase waveform input from the power module control unit 40, and mixes the AC power to the DC power input from the outside to output to the load (three-phase induction motor) (110).

The voltage detection unit 60 detects the voltage input to the drive power supply unit 30, and when the input voltage falls below a predetermined voltage, shuts off the output of the power module control unit 40, and blocks the circuit when a surge voltage is introduced. Send an error signal for the switch control unit 90.

The abnormal signal detection unit 70 detects a low voltage and an overcurrent signal generated by the output control unit 50 and feeds it back to the power module control unit 50, and at the same time, an error for shutting down a circuit when overheating or shorting occurs. The signal is transmitted to the switch control unit 90.

The current sensing unit 80 senses a current flowing through the power line input through the main switch 10 and transmits an error signal for circuit interruption to the switch controller 90 when an abnormal current (leakage current) occurs.

The switch controller 90 turns on the error indicator 172b of the switch unit 10 when an error signal is input from the voltage detector 60, the abnormal signal detector 70, and the current detector 80. The power switch 172d is turned off to protect the circuit.

The present invention of the inverter system configured as described above can greatly reduce the size of the PCB 172 due to the miniaturization of component elements, thereby providing an effect of installing the inverter circuit unit 170 on the vibrator drive device 100 itself. At the same time as the installation of the inverter circuit unit 170 by preventing the overheating through the cooling function as described above, it is to provide an effect that can block the malfunction.

8 is a configuration diagram of a vibrator driving apparatus according to another embodiment of the present invention.

As shown, the vibrator drive device 100A according to another embodiment of the present invention, the PCB mounting portion 180 that can be inserted into the inverter circuit unit 170 is inserted into the upper end of the main body 111 of the three-phase induction motor 110. ) Is formed integrally.

The PCB mounting unit 180 includes a main body 181 having a rectangular shape having an insertion hole 182 into which the inverter circuit unit 170 is inserted, and a handle 181 formed on an upper portion of the main body 181.

In addition, the PCB mounting unit 180 is installed at a position spaced a predetermined distance from the blower 118 of the three-phase induction motor 110 so that the cold air discharged through the cooling unit 112 of the three-phase induction motor 110 is smoothly transferred.

1 is an overall configuration showing a coupling relationship between the vibrator drive device and the vibration rod according to an embodiment of the present invention,

2 is an enlarged configuration diagram of a vibrator driving apparatus according to an embodiment of the present invention;

3 is an exploded perspective view of a vibrator drive device according to an embodiment of the present invention;

4 is an exploded perspective view of an inverter circuit unit according to the present invention;

5 is a configuration of the main part of the side for explaining the relationship between the three-phase induction motor and the inverter circuit according to the present invention,

6 is a schematic view of the main parts of the rear surface for explaining the relationship between the three-phase induction motor and the inverter circuit according to the present invention;

7 is a block diagram of an inverter circuit applied to the present invention;

8 is a configuration diagram of a vibrator driving apparatus according to another embodiment of the present invention.

<Description of the symbols for the main parts of the drawings>

100: vibrator drive device 110: three-phase induction motor

111: main body 112: cooling unit

113: guide portion 114: rotation axis

115: locking portion 116: cooling fan

117: air inlet hole 118: air outlet

120: frame portion 121: handle

122,123: side fixing 130: first side cover

131, 141: upper bend 132, 142: groove

133,143: lower bend 140: second side cover

150: upper cover 160: bottom cover

170: inverter circuit portion 171: heat dissipation portion

171a: heat dissipation groove 172: PCB

172a: front panel 172b: error indicator

172c: speed selection switch 172d: power switch

180: PCB mounting portion 181: main body

182: insertion hole 183: handle

Claims (8)

A three-phase induction motor having a cooling fan including a cooling fan driven in conjunction with a rotating shaft, an air inlet hole through which outside air is introduced, and a cooling unit including a blower; And 'C' shaped heat dissipation unit having a plurality of heat dissipation grooves formed at the bottom and both sides, and an error indicator, a speed selection switch and a power switch are mounted on the front side vertically fixed to the inner side of the heat dissipation unit. The inverter circuit PCB is formed, and the heat dissipation unit and a cover covering the upper end of the PCB, and configured to maintain a predetermined distance distance from the upper surface of the three-phase induction motor so that the cool air discharged through the cooling unit of the three-phase induction motor is smoothly transferred. In the inverter type vibrator drive device using a three-phase induction motor comprising an inverter circuit portion, Frame for fixing the three-phase induction motor and the upper and lower side cover by consisting of a rectangular side fixing part formed to surround both sides of the three-phase induction motor on both sides and a handle formed by connecting the upper center of the side fixing part to each other part; First and second side covers which cover both sides of the three-phase induction motor and simultaneously guide the cool air discharged through the cooling unit of the three-phase induction motor to the inverter circuit unit; An upper cover which covers the upper portion of the three-phase induction motor and simultaneously guides the cold air discharged through the cooling unit of the three-phase induction motor to an inverter circuit part; And Inverter type vibrator drive device using a three-phase induction motor characterized in that it further comprises a bottom cover for supporting and supporting the lower portion of the three-phase induction motor. delete delete The method of claim 1, The first and second side cover includes an upper bent part formed by bending the upper end of a predetermined length, a groove part into which the handle of the frame part is inserted in the center of the upper bent part, and a lower bent part formed by bending a lower end of the predetermined length. Inverter type vibrator drive device using a three-phase induction motor, characterized in that the upper bent portion and the lower bent portion is fixed to the side fixing portion of the frame portion. The method of claim 1, The upper cover is configured so that the front surface is bent a predetermined length, the inverter type vibrator drive device using a three-phase induction motor, characterized in that configured to be fixed to each other at the upper bent portion of the first side cover and the second side cover at the bottom of the handle of the frame portion . delete delete delete

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