CN110318196B - Buffer area air supply amplitude modulation frame applied to setting machine and setting machine applied to same - Google Patents

Abstract

The application discloses a buffer area air supply amplitude modulation frame applied to a setting machine, which comprises the following components: a frame, a ventilation opening and an air outlet which are arranged on the frame; and an air duct device is further arranged in the accommodating cavity and used for guiding hot air fed by the ventilation opening into the accommodating cavity to heat the rack. A shaping machine comprises the buffer area air supply amplitude modulation frame applied to the shaping machine. According to the application, the air duct device for guiding hot air to the accommodating cavity is arranged on the rack, after the air duct device heats the inside of the rack, the temperature of the rack is increased, and the temperature in the accommodating cavity is balanced due to heating, so that the phenomenon of cold and hot alternation does not exist, hot air with oily molecules is sent into the oven through the air outlet, and the hot air is not condensed on the rack due to cold and hot alternation, and the technical problem of oil dripping in a buffer zone of the setting machine is solved.

Description

Buffer area air supply amplitude modulation frame applied to setting machine and setting machine applied to same

Technical Field

The application relates to the field of textile dyeing and finishing equipment, in particular to a buffer area air supply amplitude modulation frame applied to a setting machine and the setting machine applied to the same.

Background

At present, the air delivery duct at the buffer area of the setting machine with heat recovery is used for obliquely blowing hot air sent by the heat recovery into the oven, so that the phenomenon of alternating cold and hot air exists at the buffer area of the setting machine, and the mode encounters the seed distribution with relatively large oil smoke.

Disclosure of Invention

The application aims to solve the technical problem that oil dripping is very easy to occur at the cold-hot junction of the buffer zone of the setting machine because oily molecules are pre-cooled and condensed when the existing buffer zone of the setting machine with heat recovery is subjected to cold-hot alternation phenomenon, and provides a buffer zone air supply amplitude modulation frame applied to the setting machine and the setting machine applied to the buffer zone air supply amplitude modulation frame.

In order to solve the technical problems, the application is realized by the following technical scheme:

The first aspect of the present invention provides a buffer area air supply amplitude modulation frame applied to a setting machine, comprising: a frame, a ventilation opening and an air outlet which are arranged on the frame;

The air conditioner is characterized in that an accommodating cavity communicated with the ventilation opening and the air outlet is further formed in the frame, and an air duct device is further arranged in the accommodating cavity and used for guiding hot air sent by the ventilation opening into the accommodating cavity to heat the frame.

The air duct device comprises a first air duct component which is arranged in the accommodating cavity and divides the accommodating cavity into a heated cavity and an air supply channel communicated with the ventilation opening.

The first air duct assembly includes:

the first isolation plate transversely extends to the other side along one side of the inner wall of the rack;

The second division board is arranged on the second division board, transversely extends to the other side along one side of the inner wall of the rack, and the first division board is obliquely arranged relative to the second division board, a plurality of first ventilation holes are formed in the first division board, and the air supply channel is communicated with the heated cavity through the first ventilation holes.

And the second isolation plate is also provided with a plurality of second ventilation holes, and the air supply channel is longitudinally communicated with the heated cavity through the second ventilation holes.

The buffer area air supply amplitude modulation frame applied to the setting machine further comprises an amplitude modulation mechanism, and the amplitude modulation mechanism comprises:

An amplitude modulation rack, wherein an amplitude modulation machine opening is formed in one side of the amplitude modulation rack, and when the amplitude modulation rack is fixed on the rack, the interior of the amplitude modulation rack is communicated with a heated cavity;

the first isolation plate is obliquely oriented to the slide amplitude modulation plate, and the air outlet direction of the vent hole is aligned with the slide amplitude modulation plate so that hot air in the air supply channel is blown to and heats the slide amplitude modulation plate through the first vent hole;

The driving device is arranged on the amplitude modulation rack at an up-down interval with the slide amplitude modulation plate and is used for driving the slide amplitude modulation plate to linearly move.

The air duct apparatus further includes a second air duct assembly including:

the second ventilation pipe is arranged on the frame in parallel with the slide amplitude modulation plate, the slide amplitude modulation plates are sleeved and fixed on the second ventilation pipe, and a plurality of air outlet holes are also formed in the top surface or the bottom surface of the second ventilation pipe and are used for spraying hot air in the second ventilation pipe from the upper side and the lower side to heat the slide amplitude modulation plate and the driving device;

At least one first ventilation pipe, one end of which is connected to the first isolation board, and the other side extends towards the second ventilation pipe, and is inserted into and fixed in the second ventilation pipe, and is communicated with the air supply channel and the second ventilation pipe.

The second division board is last still to be equipped with at least one ventilation entry, air duct device still include with the third wind channel subassembly that ventilation entry is linked together, third wind channel subassembly includes:

the guide pipe is arranged in the heated cavity, the guide pipe is fixed on the second isolation plate, a guide pipe opening arranged at the top of the guide pipe is flush with the ventilation inlet, and the guide pipe opening longitudinally extends along the guide pipe to form a guide pipe accommodating cavity for accommodating hot air so that the guide pipe accommodating cavity is longitudinally communicated with the air supply channel;

And one side of the third air-through pipe is arranged on the guide pipe, the other side of the third air-through pipe is fixed on the frame, and a plurality of third air-through holes which are obliquely arranged towards the amplitude modulation mechanism or the frame are also formed in the peripheral surface of the third air-through pipe.

The third air duct assembly further comprises an opening and closing mechanism for opening or closing the ventilation inlets, and the number of the opening and closing mechanism is matched with the number of the ventilation inlets;

the opening and closing mechanism includes:

The sliding plate is arranged on the second isolation plate and covers the ventilation inlet;

And the sliding plate fixing device is arranged on the side wall corresponding to the first isolation plate in the first isolation plate and the rack at intervals from top to bottom, and the sliding plate is allowed to linearly move in the intervals so as to open or close the ventilation inlet.

The slide amplitude modulation board includes:

The amplitude modulation fixing frame is sleeved outside the second ventilation pipe, the sliding seat amplitude modulation plate is fixed on the second ventilation pipe, and the amplitude modulation fixing frame extends out of the amplitude modulation frame through a sliding groove arranged on the amplitude modulation frame;

the sliding device is arranged between the amplitude modulation fixing frame and the second ventilation pipe and is contacted with the top surface or the bottom surface of the second ventilation pipe;

The amplitude modulation plate body is arranged on the back side of the amplitude modulation fixing frame;

The driving device includes:

The driving motor is arranged on the frame;

The driving screw rod is arranged on the frame at an upper and lower interval with the second ventilation pipe, and one end of the driving screw rod is in transmission connection with the driving motor;

The screw rod nuts are arranged on the driving screw rod, the screw rod nuts and the amplitude modulation fixing frames are arranged front and back and are mutually fixed, and the amplitude modulation fixing frames are matched with the sliding device through the screw rod nuts, the driving screw rod, the driving motor and the sliding device to linearly move on the driving screw rod;

The buffer area air supply amplitude modulation frame applied to the setting machine further comprises an air supply frame, the ventilation opening is formed in the front side face of the air supply frame, a connecting port communicated with the accommodating cavity is formed in the bottom of the air supply frame, and hot air enters the accommodating cavity from the connecting port through the ventilation opening.

A second aspect of the present invention provides a boarding machine comprising the buffer supply air amplitude modulation frame of the first aspect of the present invention for use in a boarding machine.

Compared with the prior art, the application has the following advantages:

According to the technical scheme provided by the application, the air duct device for guiding hot air to the accommodating cavity is arranged on the rack, after the air duct device heats the inside of the rack, the temperature of the rack is increased, and the temperature in the accommodating cavity is balanced due to heating, so that the phenomenon of cold and hot alternation does not exist, hot air with oily molecules is sent into the oven through the air outlet, and the hot air is not condensed on the rack due to cold and hot alternation, and the technical problem of oil dripping in a buffer area of the setting machine is solved.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this specification, illustrate embodiments of the application and together with the description serve to explain the application and do not constitute a limitation on the application. In the drawings:

fig. 1 is a perspective view of a buffer area air supply amplitude modulation frame applied to a setting machine.

Fig. 2 is a top view of a frame in an embodiment of the application.

Fig. 3 is a perspective view of another view of a chassis in an embodiment of the present application.

Fig. 4 is a cross-sectional view taken along the direction A-A in fig. 2.

Fig. 5 is an exploded view of a buffer area supply air amplitude modulation frame to which the present application is applied to a boarding machine.

Fig. 6 is an exploded view of another view of the buffer air supply amplitude modulation frame of the present application applied to a boarding machine.

Fig. 7 is a top view of the air duct apparatus of the present application.

Fig. 8 is a sectional view in the direction B-B of fig. 6.

Fig. 9 is an enlarged view of area a in fig. 4.

Fig. 10 is an enlarged view of region B in fig. 4.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments. It will be apparent that the described embodiments are only some, but not all, embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to fall within the scope of the invention. In the description of the present invention, it should be understood that the terms "center," "longitudinal," "lateral," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, merely to facilitate describing the present invention and simplify the description, and do not indicate or imply that the devices or elements being referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the scope of the present invention.

Referring to fig. 1 to 10, in some embodiments, a buffer supply air amplitude modulation frame applied to a setting machine includes: a frame 10, and a ventilation opening 110 and an air outlet 120 arranged on the frame 10; the rack 10 is further provided with a containing cavity 100 communicated with the ventilation opening 110 and the air outlet 120, and an air duct device is further arranged in the containing cavity 100 and used for guiding hot air sent by the ventilation opening 110 into the containing cavity 100 to heat the rack 10.

In some embodiments, a containing cavity 100 is provided in the rack 10, the containing cavity 100 is used for containing hot air, and allowing the hot air to circulate in the containing cavity 100 and heat the rack 10, the ventilation opening 110 and the air outlet 120 are communicated with the containing cavity 100, and an air duct device for directing multiple channels of hot air is further provided in the containing cavity 100, and is used for guiding the hot air fed by the ventilation opening 110 into the containing cavity 100 and heating the rack 10. The air duct device has directional drainage to the accommodating cavity 100, so that hot air with oily molecules is prevented from flowing around and polluting the rack 10.

In one embodiment, the vent 110 and the air outlet 120 are provided on a front barrier 443.

In another embodiment, the top surface of the frame 10 is further provided with an air supply rack 50, the ventilation opening 110 is disposed on the front side 501 of the air supply rack 50, the bottom of the air supply rack 50 is provided with a connection opening 510 communicated with the accommodating cavity 100, hot air enters the accommodating cavity 100 from the connection opening 510 through the ventilation opening 110, and the air outlet 120 is disposed on the front partition 443, and the air supply rack 50 is convenient for installing a ventilated pipe and fixing the ventilated pipe.

In some embodiments, the air duct device includes a first air duct assembly 210, the first air duct assembly 210 being disposed within the receiving chamber 100 and dividing the receiving chamber 100 into a heated chamber 101 and an air supply channel 102 in communication with the vent 110. The first air duct assembly 210 is configured to separate the accommodating cavity 100, so as to avoid the problem that the hot air generated by heat recovery directly enters the oven through the ventilation opening 110, resulting in uneven local temperature and unbalanced wind pressure and poor overall energy-saving effect of heat recovery, and indirectly affects the cloth processing effect.

In one embodiment, the first duct assembly 210 includes: a first partition 2120 extending laterally along one side of the inner wall of the housing 10 to the other side; the second isolation board 2110 is disposed on the second isolation board 2110, and extends transversely to the other side along one side of the inner wall of the frame 10, and the first isolation board 2120 is disposed obliquely with respect to the second isolation board 2110, and a plurality of first ventilation holes 2121 are disposed on the first isolation board 2120, and the air supply channel 102 communicates with the heated cavity 101 through the first ventilation holes 2121.

Specifically, in one embodiment, the second partition plate 2110 is disposed in the accommodating chamber 100 at an upper and lower interval from the partition top plate, the second partition plate 2110 extends to a right side along a left side surface of the frame 10 in the accommodating chamber 100, a front side of the second partition plate 2110 is fixed to the front side surface of the frame 10, the other side extends to a rear side of the frame 10 and is suspended, the first partition plate 2120 is obliquely disposed on the second partition plate 2110, a bottom side edge of the first partition plate 2120 is fixed to a rear side end of the second partition plate 2110, a left side edge of the first partition plate 2120 is fixed to the left side surface of the frame 10, the right side of the first partition 2120 is fixed on the left side of the rack 10, and divides the accommodating cavity 100 into a heated cavity 101 and an air supply channel 102 communicated with the air vent 1101, the hot air with oily molecules enters the heated cavity 101 through the first air vent 2121 to heat one side of the rack 10 corresponding to the hot air direction with oily molecules, the first partition 2120 can be inclined at an angle α with respect to a horizontal plane, the range of α is within 0-180 °, and as a preferred angle, the included angle α between the first partition 2120 and the horizontal plane is 60 °.

In some embodiments, the second partition 2110 is further provided with a plurality of second ventilation holes 2111, and the air supply channel 102 is longitudinally communicated with the heated cavity 101 through the second ventilation holes 2111. The plurality of second ventilation holes 2111 on the second partition 2110 are used for transversely introducing hot air, so as to heat the components aligned with the first ventilation holes 2121 on the second partition 2110, such as the slide adjusting plate 310, the second ventilation pipe 2210 and the partition and the cross beam in the rack 10, and because the components or the partition below the second partition 2110 are not heated by the second air duct assembly 220 or the first air duct assembly 210, compared with the heated area of the second air duct assembly 220 or the first air duct assembly 210, the phenomenon of alternating cold and hot exists, so that the components or the partition below the second partition 2110 need to be heated, and oily molecules are prevented from condensing on the bottom surface of the second partition 2110 or the partition below.

In some embodiments, the buffer air supply amplitude modulation frame applied to the setting machine further comprises an amplitude modulation mechanism 30, and the amplitude modulation mechanism 30 includes: an amplitude modulation frame 300, one side of which is provided with an amplitude modulation opening, wherein when the amplitude modulation frame 300 is fixed on the frame 10, the interior of the amplitude modulation frame 300 is communicated with the heated cavity 101; at least one carriage amplitude modulation plate 310 disposed on the amplitude modulation frame 300 and partially extending into the heated cavity 101, wherein the first partition plate 2120 is inclined toward the carriage amplitude modulation plate 310 so that hot air in the air supply channel 102 is blown to and heats the carriage amplitude modulation plate 310 through the first ventilation hole 2121; the driving device 320 is disposed on the amplitude modulation frame 300 at an up-down interval with the slider amplitude modulation plate 310, and is used for driving the slider amplitude modulation plate 310 to linearly move. The amplitude modulation frame 300 and the frame 10 are arranged front and back, and the inner cavity of the amplitude modulation frame 300 is communicated with the heated cavity 101, and the slide amplitude modulation plate 310 or the peripheral side partition plate or guide pillar of the amplitude modulation frame 300 is heated by hot air introduced from the air supply channel 102, so that the alternation of cold and hot of the slide amplitude modulation plate 310 in the heated cavity 101 is avoided, and when hot air with oily molecules is blown through, the oily molecules are condensed on the surface side of the slide amplitude modulation plate 310.

In some embodiments, the air duct apparatus further comprises a second air duct assembly 220, the second air duct assembly 220 comprising: the second ventilation pipe 2210 is arranged on the frame 10 in a level with the slide seat amplitude-adjusting plate 310, the slide seat amplitude-adjusting plate 310 is sleeved and fixed on the second ventilation pipe 2210, and a plurality of air outlet holes 2211 are also arranged on the top surface or the bottom surface of the second ventilation pipe 2210 and are used for spraying hot air in the second ventilation pipe 2210 from the upper part and the lower part to heat the slide seat amplitude-adjusting plate 310 and the driving device 320; at least one first ventilation tube 2220, one end of the first ventilation tube 2220 is connected to the first partition 2120, and the other end extends towards the second ventilation tube 2210, and is inserted into and fixed to the second ventilation tube 2210, so as to communicate the air supply channel 102 with the second ventilation tube 2210. The opening of the first ventilation pipe 2220 is on the first partition 2120, the hot air in the air supply channel 102 is introduced into the second ventilation pipe 2210 through the first ventilation pipe 2220, two first ventilation pipes 2220 are provided in this embodiment, so that the efficiency of introducing the hot air is improved, and a plurality of air outlet holes 2211 are further provided on the top surface or the bottom surface of the second ventilation pipe 2210, and are used for heating the slide amplitude adjusting plate 310, so that the temperature of the outer surface of the slide amplitude adjusting plate 310 is prevented from being lower, and the heat and the cold of the slide amplitude adjusting plate 310 are alternated, so that when the hot air with oily molecules is blown through, the oily molecules are condensed on the surface side of the slide amplitude adjusting plate 310.

In some embodiments, the second partition 2110 is further provided with at least one ventilation inlet 2112, and the air duct device further includes a third air duct assembly 230 in communication with the ventilation inlet 2112, and the third air duct assembly 230 includes: the guide pipe 2310 is at least one and is arranged in the heated cavity 101, the guide pipe 2310 is fixed on the second partition plate 2110, a guide pipe opening arranged at the top of the guide pipe 2310 is flush with the ventilation inlet 2112, and the guide pipe opening longitudinally extends along the guide pipe 2310 to form a guide pipe accommodating cavity for accommodating hot air, so that the guide pipe accommodating cavity is longitudinally communicated with the air supply channel 102; the third ventilation pipe 2320 is provided with one side arranged on the guide pipe 2310, the other side is fixed on the frame 10, a plurality of third ventilation holes 2321 which are inclined towards the amplitude modulation mechanism 30 or the frame 10 are further formed in the peripheral surface of the third ventilation pipe 2320, the angle between the third ventilation holes 2321 and the horizontal or vertical plane is beta, the specific value of the angle beta is between 0 and 90 degrees, 45 degrees is the most preferred, and at least 4 third ventilation holes 2321 which are inclined at an angle of 35 degrees with the horizontal plane are formed in the same longitudinal section of the third ventilation pipe 2320.

In this embodiment, two ventilation inlets 2112 are symmetrically disposed at two ends of the second partition plate 2110, the plurality of second ventilation holes 2111 are disposed between the ventilation inlets 2112, a guide pipe opening and a longitudinally disposed guide pipe accommodating cavity are disposed in the guide pipe 2310, so that hot air is guided by the guide pipe 2310 and flows downward, in this embodiment, two guide pipes 2310 are disposed, the third ventilation pipe 2320 is disposed between the two guide pipes 2310, and a plurality of third ventilation holes 2321 disposed obliquely towards the amplitude modulation mechanism 30 or the rack 10 are further disposed on the third ventilation pipe 2320, and the third ventilation holes 2321 are disposed laterally and uniformly arranged along the circumferential surface of the third ventilation pipe 2320 according to a horizontal inclination angle of 45 °, and the general position of the third ventilation pipe assembly 230 is disposed at the lower portion of the rack 10, so that the amplitude modulation mechanism 30 or the lower portion of the rack 10 is heated, and the lower portion of the rack 10 is used for heating the lower portion of the rack 10, thereby avoiding the existence of temperature difference between the heated oil molecules in the heated cavity 101.

In some embodiments, the third air duct assembly 230 further includes an opening/closing mechanism 2330 for opening or closing the ventilation inlets 2112, and the number of opening/closing mechanisms 2330 is adapted to the number of ventilation inlets 2112; the opening and closing mechanism 2330 includes: a sliding plate 2331 provided on the second partition plate 2110 and covering the ventilation inlet 2112; and a sliding plate fixing means 2332 provided on the first partition plate 2120 and the side wall of the frame 10 at a vertical interval from the second partition plate 2110, the sliding plate 2331 being allowed to linearly move within the interval to open or close the ventilation inlet 2112. In this embodiment, the sliding plate 2331 is used for closing the ventilation inlet 2112, the sliding plate fixing device 2332 is provided with two sliding plate fixing devices respectively fixed on the first partition plate 2120 and the inner wall of the rack 10, the sliding plate fixing device 2332 is provided with a plurality of screw holes, the sliding plate fixing device 2332 can be fixed by installing fixing screws, a space is reserved between the sliding plate fixing device 2332 and the second partition plate 2110, and the sliding plate 2331 can slide in the space.

The slider amplitude adjustment plate 310 includes: the amplitude modulation fixed frame 3110 is sleeved outside the second ventilation pipe 2210, the slide seat amplitude modulation plate 310 is fixed on the second ventilation pipe 2210, and the amplitude modulation fixed frame 3110 extends out of the amplitude modulation frame 300 through a sliding groove 301 arranged on the amplitude modulation frame 300; a sliding device 3120 disposed between the amplitude modulation fixed frame 3110 and the second ventilation tube 2210 and contacting with the top surface or the bottom surface of the second ventilation tube 2210; a amplitude modulation plate 3130 disposed on the back side of the amplitude modulation fixed frame 3110; the driving device 320 includes: a driving motor 3210 provided on the frame 10; the driving screw rod 3220 is arranged on the frame 10 at an upper and lower interval with the second ventilation pipe 2210, and one end of the driving screw rod 3220 is in transmission connection with the driving motor 3210; a screw nut 3230, at least one of which is disposed on the driving screw 3220, wherein the screw nut 3230 is disposed in front of and behind the amplitude modulation fixed frame 3110 and is fixed to each other, and the amplitude modulation fixed frame 3110 is coupled to the driving screw 3220 by the screw nut 3230, the driving screw 3220, the driving motor 3210 and the sliding device 3120, so as to linearly move on the driving screw 3220. The amplitude modulation fixed frame 3110 is disposed on the second ventilation duct 2210 and partially extends out of the amplitude modulation frame 300, and because an exhaust fan is disposed at the top of the oven, under the condition that the exhaust fan operates, a small amount of cold air is drawn into the oven, so that the temperature value of the portion of the amplitude modulation fixed frame 3110 extending out of the amplitude modulation frame 300 is lower than the temperature value of the portion of the amplitude modulation fixed frame 3110 fixed in the amplitude modulation frame 300, the air duct 210 sends hot air to the position of the amplitude modulation fixed frame 3110 through the second air duct assembly 220 and the first air duct assembly 210, and indirectly heats the amplitude modulation fixed frame 3110, so that the cold air outside is heated and indirectly becomes hot air. The said

The sliding device 3120 is a roller or a pulley, which facilitates the movement of the amplitude modulation fixing frame 3110 on the second ventilation pipe 2210, the amplitude modulation plate 3130 is disposed on the back side of the amplitude modulation fixing frame 3110 for fixing the cloth conveying tracks 60, and the cloth is disposed by sliding horizontally on the cloth conveying tracks 60 respectively disposed on the two amplitude modulation fixing frames 3110

Is unwound and then enters the interior of the oven following the longitudinal transmission of the chain on the cloth transfer track 60. The X direction identified in fig. 2 is the direction of web movement and web is transported from within the amplitude modulation frame 300 through the amplitude modulation mount 3110 and the web transport track 60 to the outside of the amplitude modulation frame 300. The driving motor 3210 is a servo motor with a forward and reverse rotation function, in this embodiment, two slide amplitude adjusting plates 310 are provided, two screw nuts 3230 are provided, the screw nuts 3230 are provided on the upper portion of the amplitude adjusting fixed frame 3110, and the screw nuts cooperate with the sliding device 3120 to drive the slide amplitude adjusting plates 310 to move.

A setting machine comprising a buffer supply air amplitude modulation frame of the first aspect of the application for use in a setting machine. According to the application, the air duct device for guiding the hot air to the accommodating cavity is arranged on the rack 10, after the air duct device heats the interior of the rack 10, the temperature of the rack 10 is increased, and the temperature in the accommodating cavity 100 is balanced due to heating, so that the phenomenon of cold and hot alternation does not exist, the hot air with oily molecules is sent into the oven through the air outlet 120, and is not condensed on the rack due to cold and hot alternation, the technical problem of dripping oil of the setting machine is solved, the cleaning times are reduced, and the setting materials are not polluted.

The embodiments of the present application have been described in detail above, but the present application is not limited to the above embodiments. Even if it makes various changes to the present application, it still falls within the scope of the present application.

Claims (5)

1. A buffer area supply air amplitude modulation frame applied to a setting machine, comprising: a frame (10), and a ventilation opening (110) and an air outlet (120) which are arranged on the frame (10);

The method is characterized in that: the machine frame (10) is also provided with a containing cavity (100) communicated with the ventilation opening (110) and the air outlet (120), and an air duct device is arranged in the containing cavity (100) and used for guiding hot air sent by the ventilation opening (110) into the containing cavity (100) to heat the machine frame (10);

the air duct device comprises a first air duct component (210), wherein the first air duct component (210) is arranged in the accommodating cavity (100) and divides the accommodating cavity (100) into a heated cavity (101) and an air supply channel (102) communicated with the ventilation opening (110);

The first duct assembly (210) includes:

a second partition plate (2110) extending laterally along one side of the inner wall of the housing (10) to the other side;

The first isolation plate (2120) is arranged on the second isolation plate (2110), transversely extends to the other side along one side of the inner wall of the rack (10), the first isolation plate (2120) is obliquely arranged relative to the second isolation plate (2110), a plurality of first ventilation holes (2121) are formed in the first isolation plate (2120), and the air supply channel (102) is communicated with the heated cavity (101) through the first ventilation holes (2121);

The buffer area air supply amplitude modulation frame applied to the setting machine further comprises an amplitude modulation mechanism (30), and the amplitude modulation mechanism (30) comprises:

An amplitude modulation rack (300), one side of which is provided with an amplitude modulation machine opening, wherein when the amplitude modulation rack (300) is fixed on the rack (10), the interior of the amplitude modulation rack (300) is communicated with the heated cavity (101);

At least one slide amplitude-adjusting plate (310) arranged on the amplitude-adjusting frame (300) and partially extending into the heated cavity (101), wherein the first isolation plate (2120) is inclined towards the slide amplitude-adjusting plate (310), and the air outlet direction of the first ventilation hole (2121) is aligned with the slide amplitude-adjusting plate (310) so that hot air in the air supply channel (102) is blown to and heats the slide amplitude-adjusting plate (310) through the first ventilation hole (2121);

The driving device (320) is arranged on the amplitude modulation rack (300) at an up-down interval with the slide seat amplitude modulation plate (310) and is used for driving the slide seat amplitude modulation plate (310) to linearly move;

the air duct apparatus further includes a second air duct assembly (220), the second air duct assembly (220) including:

The second vent pipe (2210) is arranged on the frame (10) in parallel with the slide seat amplitude-adjusting plate (310), the slide seat amplitude-adjusting plates (310) are sleeved and fixed on the second vent pipe (2210), and a plurality of air outlet holes (2211) are also formed in the top surface or the bottom surface of the second vent pipe (2210) and are used for spraying hot air in the second vent pipe (2210) from the upper part and the lower part to heat the slide seat amplitude-adjusting plate (310) and the driving device (320);

at least one first ventilation pipe (2220), one end of the first ventilation pipe (2220) is connected to the first isolation plate (2120), the other side extends towards the second ventilation pipe (2210), and the first ventilation pipe is inserted into and fixed in the second ventilation pipe (2210) to communicate the air supply channel (102) with the second ventilation pipe (2210);

the second isolation plate (2110) is further provided with at least one ventilation inlet (2112), the air duct device further comprises a third air duct assembly (230) communicated with the ventilation inlet (2112), and the third air duct assembly (230) comprises:

the guide pipe (2310) is at least one and is arranged in the heated cavity (101), the guide pipe (2310) is fixed on the second partition plate (2110), a guide pipe opening formed in the top of the guide pipe (2310) is flush with the ventilation inlet (2112), and the guide pipe opening longitudinally extends along the guide pipe (2310) to form a guide pipe accommodating cavity for accommodating hot air, so that the guide pipe accommodating cavity is longitudinally communicated with the air supply channel (102);

And one side of the third ventilation pipe (2320) is arranged on the guide pipe (2310), the other side of the third ventilation pipe is fixed on the frame (10), and a plurality of air flow through holes (2321) which face the amplitude modulation mechanism (30) or are obliquely arranged on the frame (10) are further formed in the peripheral surface of the third ventilation pipe (2320).

2. The buffer area supply air amplitude modulation frame applied to a setting machine according to claim 1, wherein: the first isolation plate (2120) is further provided with a plurality of second ventilation holes (2111), and the air supply channel (102) and the heated cavity (101) are longitudinally communicated through the second ventilation holes (2111).

3. The buffer area supply air amplitude modulation frame applied to a setting machine according to claim 1, wherein: the third air duct assembly (230) further comprises an opening and closing mechanism (2330) for opening or closing the ventilation inlets (2112), and the number of the opening and closing mechanisms (2330) is matched with the number of the ventilation inlets (2112);

the opening and closing mechanism (2330) includes:

a sliding plate (2331) provided on the second partition plate (2110) and covering the ventilation inlet (2112);

And a sliding plate fixing means (2332) provided on the first partition plate (2120) and a side wall of the chassis (10) corresponding to the first partition plate (2120) at an up-down interval from the second partition plate (2110), the sliding plate (2331) being allowed to linearly move within the interval to open or close the ventilation inlet (2112).

4. The buffer area supply air amplitude modulation frame applied to a setting machine according to claim 1, wherein:

The slider amplitude-adjusting plate (310) includes:

The amplitude modulation fixed frame (3110) is sleeved outside the second ventilation pipe (2210), the slide seat amplitude modulation plate (310) is fixed on the second ventilation pipe (2210), and the amplitude modulation fixed frame (3110) extends out of the amplitude modulation frame (300) through a sliding groove (301) arranged on the amplitude modulation frame (300);

A sliding device (3120) disposed between the amplitude modulation fixed frame (3110) and the second ventilation pipe (2210) and contacting with the top surface or the bottom surface of the second ventilation pipe (2210);

a amplitude modulation plate body (3130) arranged on the back side of the amplitude modulation fixed frame (3110); the driving device (320) includes:

A drive motor (3210) provided on the frame (10);

The driving screw rod (3220) is arranged on the frame (10) at an upper and lower interval with the second ventilation pipe (2210), and one end of the driving screw rod (3220) is in transmission connection with the driving motor (3210);

-a screw nut (3230) at least one and arranged on the driving screw (3220), the screw nut (3230) being arranged back and forth and fixed to each other with the amplitude modulation fixed mount (3110), the amplitude modulation fixed mount (3110) being adapted to move linearly on the driving screw (3220) by means of the screw nut (3230), the driving screw (3220), a driving motor (3210) and the sliding means (3120);

The buffer area air supply amplitude modulation frame applied to the setting machine further comprises an air supply frame (50), the ventilation opening (110) is arranged on the front side surface (501) of the air supply frame (50), a connecting port (510) communicated with the accommodating cavity (100) is arranged at the bottom of the air supply frame (50), and hot air enters the accommodating cavity (100) from the connecting port (510) through the ventilation opening (110).

5. A setting machine comprising a buffer supply air amplitude modulation frame as claimed in any one of claims 1 to 4.