阅读说明：本技术 反比仔组件装置、比仔组件加工设备及反比仔组件的方法 (Inverse proportion sub-assembly device, inverse proportion sub-assembly processing equipment and inverse proportion sub-assembly method ) 是由 严智勇 卢杏堂 杨忠廷 林文傑 于 2021-08-25 设计创作，主要内容包括：本发明第一方面提供一种反比仔组件装置,包括机架,机架上连接有能供比仔组件活动套设至外部的连接管,比仔组件包括多个比仔和能够将多个比仔串联的连接带,连接管上设有中空的内部通道,连接管还具有与内部通道连通并能供比仔组件端部比仔塞入的入口和与内部通道连通的出口,所述机架上还连接有能够向塞入所述入口处的比仔吹气的吹气管,当吹气管对着塞入所述入口处的比仔吹气时,套设在连接管外部的比仔和连接带被带入内部通道而完成翻面并从出口排出。本发明第二方面提供了比仔组件加工设备。本发明第三方面还提供了反比仔组件的方法。本发明提供了能够对多个比仔进行翻面的反比仔组件装置、比仔组件加工设备和反比仔组件的方法。(The invention provides an inverse ratio sub-assembly device, which comprises a rack, wherein a connecting pipe which can be used for movably sleeving a sub-assembly to the outside is connected to the rack, the sub-assembly comprises a plurality of sub-assemblies and a connecting belt which can connect the sub-assemblies in series, a hollow internal channel is arranged on the connecting pipe, the connecting pipe is also provided with an inlet which is communicated with the internal channel and can be used for plugging the end parts of the sub-assemblies into the sub-assemblies and an outlet which is communicated with the internal channel, the rack is also connected with an air blowing pipe which can blow air to the sub-assemblies plugged into the inlet, and when the air blowing pipe blows air opposite to the sub-assemblies plugged into the inlet, the sub-assemblies sleeved outside the connecting pipe and the connecting belt are brought into the internal channel to complete turn-over and are discharged from the outlet. In a second aspect, the invention provides a pet assembly processing apparatus. The third aspect of the invention also provides a method of inversely proportional sub-assemblies. The invention provides an inverse proportion sub-assembly device capable of turning over a plurality of proportion sub-assemblies, proportion sub-assembly processing equipment and an inverse proportion sub-assembly method.)

1. The utility model provides an inverse proportion sub-assembly device which characterized in that: including frame (4), frame (4) on be connected with and supply to establish connecting pipe (1) to the outside than young subassembly (2) activity cover, than young subassembly (2) including a plurality of than young (21) and can be with a plurality of connecting band (22) of establishing ties than young (21), connecting pipe (1) on be equipped with hollow inside passage (11), connecting pipe (1) still have with inside passage (11) intercommunication and can supply to be than the inlet (12) that young subassembly (2) tip was filled in and export (13) with inside passage (11) intercommunication, frame (4) on still be connected with and to filling in the gas blow pipe that the ratio young (21) of inlet (12) department was blown, when gas blow pipe (3) is facing into inlet (12) department than young (21) blow, the cover is established and is put into inside passage (11) and accomplish the turn-over and follow in the ratio of connecting pipe (1) outside and connecting band (22) be brought into inside passage (11) And (6) discharging.

2. The inverse sub-assembly device of claim 1, wherein: frame (4) on still be connected with adjusting device (6) that can adjust gas blow pipe (3) relative connecting pipe (1) height, adjusting device (6) including connecting in first actuating cylinder (61) of driving on frame (4), the output shaft of first actuating cylinder (61) on be connected with and to follow output shaft gliding connecting seat (62) from top to bottom, gas blow pipe (3) connect on connecting seat (62).

3. The inverse sub-assembly device of claim 1, wherein: the frame (4) on be connected with fixed bolster (41), fixed bolster (41) on be connected with can be with a plurality of than son (21) along connecting pipe (1) mobile device (7) of pulling downwards.

4. The inverse sub-assembly device of claim 3, wherein: the moving device (7) comprises a second driving cylinder (71) connected to the fixed support (41), a connecting seat (72) capable of moving transversely along an output shaft of the second driving cylinder (71) is connected to an output shaft of the second driving cylinder (71), a third driving cylinder (73) is connected to the connecting seat (72), and a clamping piece (74) capable of moving longitudinally along an output shaft of the third driving cylinder (73) to be in contact with the plurality of comparing pieces (21) on the connecting pipe (1) and moving the comparing pieces (21) downwards along the connecting pipe (1) is connected to an output shaft of the third driving cylinder (73).

5. The inverse sub-assembly device of claim 1, wherein: frame (4) on still be equipped with and drive a plurality of young (21) of ratio along connecting pipe (1) gliding drive arrangement (8), drive arrangement (8) including connecting in frame (4) and being located a plurality of first outlet duct (81) of connecting pipe (1) one side, just the gas outlet downward sloping setting of first outlet duct (81), frame (4) on and the below that is located connecting pipe (1) still be connected with second outlet duct (82), just the gas outlet downward sloping setting of second outlet duct (82).

6. The inverse sub-assembly device of claim 1, wherein: frame (4) on still be equipped with when comparing son (21) turn-over along the direction top push than son (21) removal when pushing up thrustor (9) than son (21), thrustor (9) including connecting cylinder (91) on frame (4), cylinder (91) in be equipped with movable part (92) that can move about from top to bottom relative to it, movable part (92) on be connected with the cover and establish outside connecting pipe (1) and can push top push plate (93) than son subassembly (2) when movable part (92) activity.

7. A Bie module processing apparatus comprising an inversely proportional sub-module device as claimed in any one of claims 1 to 6, wherein: the machine frame (4) is also connected with a processing device (100) which can process the stator (21) and the connecting belt (22) to be connected in series into the stator assembly (2), and the output end of the processing device (100) is connected with the input end of the connecting pipe (1).

8. The toy machining apparatus of claim 7, wherein: and a guide component (5) which can guide the sub-component (2) to be sleeved from the processing device (100) to the outer side of the connecting pipe (1) is connected between the connecting pipe (1) and the processing device (100).

9. The toy assembly processing machine of claim 8, wherein: the guide assembly (5) comprises a guide frame (51), one end of the guide frame (51) is arranged in a U shape, and the other end of the guide frame (51) is connected with a connecting part (52) which can be connected with the connecting pipe (1).

10. A method of inversely proportional sub-assemblies, comprising:

A. the doll component (2) is sleeved outside the connecting pipe (1), and the doll component (2) comprises a plurality of dollies (21) and a connecting belt (22) which can connect the dollies (21) in series

B. Inserting a hook (21) at the end of the hook component (2) into the inlet (12);

C. the air blowing pipe (3) blows air to the rubber ring (21) plugged into the inlet (12), and the rubber ring (21) slides in the inner channel (11);

D. the plurality of nuts (21) and the connecting band (22) sleeved outside the connecting tube (1) are brought into the inner channel (11) to complete turnover and are discharged from the outlet (13).

[ technical field ] A method for producing a semiconductor device

The invention relates to the technical field of processing, in particular to an inverse proportion sub-assembly, a processing device of the inverse proportion sub-assembly and an inverse proportion sub-method.

[ background of the invention ]

By a dart is meant the portion of the side wing of the brassiere that connects the cup and the back button, usually in the form of a ring. When the workman is processing than young subassembly, connect a plurality of than son to a connecting band through thermosol or the mode of sewing, for subsequent processing demand, need than young turn-over, make the connecting band overturn in to the inboard than young from the lateral surface than young, however a plurality of than young be through the connecting band series connection, consequently the comparison needs to cut the connecting band between each than young when the face is carried out to the comparison son, then the workman just can compare young turn-over, so that carry out subsequent processing, and the comparison that the workman can only one is young turns over, complex operation, and make the efficiency of workman's processing low.

The present invention has been developed in view of the above-mentioned shortcomings.

[ summary of the invention ]

The invention aims to overcome the defects of the prior art, and provides an inverse proportion sub-assembly capable of turning over a plurality of proportion sub-assemblies at one time.

The invention provides a doll assembly processing device which can process a plurality of dollies and connecting belts in series and then turn the dollies and the connecting belts.

A third aspect of the invention provides a method of assembling a plurality of inversely proportional smaller components that are capable of turning over a plurality of smaller components.

The invention is realized by the following technical scheme:

the invention provides an inverse proportion sub-assembly device, which is characterized in that: including the frame, the frame on be connected with and supply to establish the connecting pipe to the outside than young subassembly movable sleeve, than young subassembly include a plurality of than young and can be with a plurality of connecting bands of establishing ties than young, the connecting pipe on be equipped with hollow inside passage, the connecting pipe still have with inside passage intercommunication and supply to compare the young entry of filling in of young subassembly tip and with the export of inside passage intercommunication, still be connected with in the frame and can fill in to the gas blow pipe of the young blowing of ratio of entrance, when the gas blow pipe is facing to filling in when the young blowing of ratio of entrance, the cover is established and is established that the outside ratio of connecting pipe is young and the connecting band is brought into inside passage and is accomplished the turn-over and follow the export discharge.

The inverse sub-assembly device as described above, characterized in that: the frame on still be connected with the adjusting device that can adjust the relative connecting pipe height of gas blow pipe, adjusting device including connecting the first actuating cylinder that drives in the frame, the output shaft of the first actuating cylinder on be connected with and to follow output shaft gliding connecting seat from top to bottom, the gas blow pipe connect on the connecting seat.

The inverse sub-assembly device as described above, characterized in that: the frame on be connected with the fixed bolster, the fixed bolster on be connected with can be with a plurality of than young mobile device that draw down along the connecting pipe.

The inverse sub-assembly device as described above, characterized in that: the moving device comprises a second driving cylinder connected to the fixed support, a connecting seat capable of moving transversely along an output shaft of the second driving cylinder is connected to an output shaft of the second driving cylinder, a third driving cylinder is connected to the connecting seat, and a clamping piece capable of moving longitudinally along an output shaft of the third driving cylinder, contacting with the plurality of stators on the connecting pipe and moving the plurality of stators downwards along the connecting pipe is connected to an output shaft of the third driving cylinder.

The inverse sub-assembly device as described above, characterized in that: the frame on still be equipped with and drive a plurality of than young along connecting pipe gliding drive arrangement downwards, drive arrangement including connect in the frame and be located a plurality of first outlet ducts of connecting pipe one side, just the gas outlet downward sloping setting of first outlet duct, the frame on and be located the below of connecting pipe still be connected with the second outlet duct, just the gas outlet downward sloping setting of second outlet duct.

The inverse sub-assembly device as described above, characterized in that: the machine frame is further provided with a pushing device which pushes the rotor along the direction of the movement of the rotor when the rotor turns over, the pushing device comprises a barrel connected to the machine frame, a moving part which can move up and down relative to the barrel is arranged in the barrel, and the moving part is connected with a pushing plate which is sleeved outside the connecting pipe and can push the rotor assembly when the moving part moves.

The second aspect of the present invention provides a rotor assembly processing apparatus, including the above-mentioned inverse rotor assembly device, characterized in that: the machine frame is also connected with a processing device which can process the stator and the connecting belt to form a stator assembly in series, and the output end of the processing device is connected with the input end of the connecting pipe.

The machining equipment for the secondary assembly is characterized in that: and a guide component capable of guiding the sub-component to be sleeved from the processing device to the outer side of the connecting pipe is connected between the connecting pipe and the processing device.

The machining equipment for the secondary assembly is characterized in that: the guide assembly comprises a guide frame, one end of the guide frame is in a U-shaped arrangement, and the other end of the guide frame is connected with a connecting part which can be connected with a connecting pipe.

A third aspect of the present invention provides a method of inversely proportional sub-assemblies, comprising:

A. will compare young subassembly to cup joint in the outside of connecting pipe, will compare young subassembly and include a plurality of than young and can compare the connecting band that young establishes ties with a plurality of

B. Inserting the pin at the end of the pin assembly into the inlet;

C. the air blowing pipe blows air to the insert inlet, and the insert inlet slides in the inner channel;

D. the connecting belts and the stators sleeved on the outer side of the connecting pipe are brought into the internal channel to complete the turnover and are discharged from the outlet.

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

1. when the inverse ratio sub-assembly device is used, the sub-assemblies and the connecting band on the sub-assembly are sleeved outside the connecting pipe, then the male mold at the end part of the male mold assembly is plugged into the inlet of the connecting pipe, the air blowing pipe is connected with an external air conveying device, the air blowing pipe blows air to the male mold at the inlet of the connecting pipe and slides along the internal channel, and the plurality of stators positioned outside the connecting pipe enter the internal channel one by one and complete the turnover, until all the stators completely enter the internal channel, the blowing pipe blows to discharge all the stators from the outlet, and each than the connecting band on young from the lateral surface upset to each than young medial surface, easy operation only need with a plurality ofly than young cup joint in the connecting pipe outside and fill in the connecting pipe entry with the ratio of tip young can, once can overturn a plurality ofly than young, improved production and processing's efficiency. The invention has simple structure and convenient operation and use, and can improve the processing and production efficiency of workers.

2. When the machining equipment for the sub-assembly is used, a plurality of sub-assemblies and connecting bands are serially connected through the machining device to be machined into the sub-assembly, then the sub-assemblies and the connecting bands on the sub-assembly are sleeved outside the connecting tube, the sub-assemblies at the ends of the sub-assemblies are plugged into the inlet of the connecting tube, the air blowing tube is connected with an external air conveying device, the air blowing tube blows air to the sub-assemblies at the inlet of the connecting tube, the sub-assemblies slide along the internal channel, the sub-assemblies outside the connecting tube enter the internal channel one by one and complete face turning, the air blowing tube blows air to discharge all the sub-assemblies from the outlet until all the sub-assemblies enter the internal channel, the connecting bands on the sub-assemblies are turned over from the outer side face to the inner side face of the sub-assemblies, the operation is simple, and the machining equipment for the sub-assembly can complete the machining and face turning of the sub-assembly, compared with the sub-assembly, the sub-assembly is directly sleeved outside the connecting pipe after being processed, manual operation is not needed, the whole processing process flow improves the processing efficiency, a worker only needs to sleeve the connecting pipe inlet into the sub-assembly compared with the sub-assembly at the end part in the sub-assembly to complete a plurality of sub-assembly turning faces without interrupting the connecting belt, then the processing steps of the worker are reduced, and the processing efficiency of the worker is improved.

3. The one end of guide frame be the U type setting, this end can struts than young, the processingequipment of being convenient for establishes ties a plurality of young and connecting band of ratio, can regard as positioning die to use, connecting portion are convenient for than young outside of sliding to the connecting pipe as the changeover portion.

[ description of the drawings ]

FIG. 1 is a perspective view of an inverse sub-assembly apparatus of the present invention;

FIG. 2 is a side view of the inverse sub-assembly apparatus of the present invention;

FIG. 3 is a state diagram of the connecting tube of the inverse proportion sub-assembly device of the present invention when the sub-assembly is sleeved in the connecting tube;

FIG. 4 is one of the exploded views of a mobile device of the inverse sub-assembly device of the present invention;

FIG. 5 is a second exploded view of a mobile device of the inverse sub-assembly device of the present invention;

FIG. 6 is a perspective view of the connector strap of the hook assembly positioned outboard of the hook;

FIG. 7 is a side view of the connector band of the hook assembly positioned outboard of the hook;

FIG. 8 is a perspective view of the connector band positioned inboard of the hook in the hook assembly;

FIG. 9 is a side view of the connector band of the hook assembly positioned inboard of the hook;

FIG. 10 is a perspective view of an adjustment mechanism of the inverse sub-assembly apparatus of the present invention;

FIG. 11 is a perspective view of a pusher assembly of the inversely proportional sub-assembly apparatus of the present invention;

FIG. 12 is a perspective view of the present invention game piece assembly processing apparatus;

fig. 13 is a perspective view of a guide assembly in the present invention game assembly processing apparatus.

[ detailed description ] embodiments

The invention is further described below with reference to the accompanying drawings:

example 1:

as shown in fig. 1 to 11, a first aspect of the present invention provides an inverse sub-assembly, comprising a frame 4, the frame 4 is connected with a connecting pipe 1 which can be used for movably sleeving the sub-assembly 2 to the outside, the sub-assembly 2 comprises a plurality of sub-assemblies 21 and a connecting belt 22 which can connect the sub-assemblies 21 in series, the connecting pipe 1 is provided with a hollow internal channel 11, the connecting pipe 1 is also provided with an inlet 12 which is communicated with the internal channel 11 and can be plugged with the end part of the stator component 2, the stator 21 is plugged in the inlet 12, and the outlet 13 is communicated with the internal channel 11, the frame 4 is also connected with an air blowing pipe which can blow air to the rubber ring 21 plugged in the inlet 12, when the blowing pipe 3 blows air against the collar 21 inserted into the inlet 12, the collar 21 and the connecting band 22 sleeved outside the connecting pipe 1 are brought into the inner passage 11 to complete the turn-over and discharged from the outlet 13.

When the inverse ratio sub-assembly is used, the ratio sub-assemblies 21 and the connecting band 22 on the ratio sub-assembly 2 are sleeved on the outer side of the connecting pipe 1, then the ratio sub-assemblies 21 at the ends of the ratio sub-assembly 2 are plugged into the inlet 12 of the connecting pipe 1, the air blowing pipe 3 is connected with an external air conveying device, the air blowing pipe 3 blows air to the ratio sub-assemblies 21 at the inlet 12 of the connecting pipe 1, the ratio sub-assemblies 21 slide along the internal channel 11, and the ratio sub-assemblies 21 positioned outside the connecting pipe 1 enter the internal channel 11 one by one and complete turning, until all the ratio sub-assemblies 21 enter the internal channel 11, the air blowing pipe 3 blows air to discharge all the ratio sub-assemblies 21 from the outlet 13, and the connecting band 22 on each ratio sub-assembly 21 is turned over from the outer side to the inner side of each ratio sub-assembly 21, the operation is simple, only the ratio sub-assemblies 21 are sleeved on the outer side of the connecting pipe 1 and the ratio sub-assemblies at the ends are plugged into the inlet 12 of the connecting pipe 1, and a plurality of comparing son can overturn once, have improved the efficiency of production and processing. The invention has simple structure and convenient operation and use, and can improve the processing and production efficiency of workers.

As shown in fig. 1 and 10, the frame 4 is further connected with an adjusting device 6 capable of adjusting the height of the blowing pipe 3 relative to the connecting pipe 1, the adjusting device 6 includes a first driving cylinder 61 connected to the frame 4, an output shaft of the first driving cylinder 61 is connected with a connecting base 62 capable of sliding up and down along with the output shaft, and the blowing pipe 3 is connected to the connecting base 62. The first driving cylinder 61 is connected to an external cylinder, and the position of the connecting base 62 with respect to the connecting pipe 1 is adjusted by pneumatically driving the output shaft of the first driving cylinder 61 to slide up and down, and the position of the gas blowing pipe 3 with respect to the connecting pipe 1 is adjusted by following the movement of the connecting base 62 when the connecting base 62 moves.

As shown in fig. 3, 4 and 5, a fixed bracket 41 is connected to the frame 4, and a moving device 7 capable of pulling the plurality of pins 21 downward along the connection pipe 1 is connected to the fixed bracket 41. The doll 21 is made of cloth. When the invention is used, at least more than 40 of the ratio clips 21 can be sleeved outside the connecting pipe 1, so that most of the ratio clips 21 are accumulated in the middle part, the number of the accumulated ratio clips 21 of the connecting pipe 1 is reduced, the plurality of ratio clips accumulated in the middle part of the connecting pipe 1 can be moved to the middle lower part of the connecting pipe 1 to be uniformly distributed through the moving device 7, and the connecting pipe 1 can be sleeved with more ratio clips 21.

As shown in fig. 4 and 5, the moving device 7 includes a second driving cylinder 71 connected to the fixed bracket 41, a connecting base 72 capable of moving transversely along an output shaft of the second driving cylinder 71 is connected to an output shaft of the second driving cylinder 71, a third driving cylinder 73 is connected to the connecting base 72, and a clamping member 74 capable of moving longitudinally along an output shaft of the third driving cylinder 73 to contact with the plurality of stators 21 on the connection pipe 1 and move the plurality of stators 21 downward along the connection pipe 1 is connected to an output shaft of the third driving cylinder 73. The second 71 and third 73 drive cylinders are in use in communication with external cylinders. When the connecting pipe is used, the second driving air cylinder 71 is driven, the output shaft of the second driving air cylinder 71 drives the connecting seat 72, the third driving air cylinder 73 and the clamping piece 74 to slide transversely until the clamping piece 74 is in contact with the plurality of stators 21 on the connecting pipe 1, then the third driving air cylinder 73 is driven, the output shaft of the third driving air cylinder 73 drives the clamping piece 74 to slide downwards along the connecting pipe 1 to pull the plurality of stators 21 stacked in the middle of the connecting pipe 1 to the middle lower part, and therefore the stacking of the stators 21 is avoided.

As shown in fig. 8, the rack 4 is further provided with a driving device 8 capable of driving the plurality of pins 21 to slide downwards along the connecting pipe 1, the driving device 8 includes a plurality of first air outlet pipes 81 connected to the rack 4 and located on one side of the connecting pipe 1, an air outlet of each first air outlet pipe 81 is arranged in a downward inclined manner, a second air outlet pipe 82 is further connected to the rack 4 and located below the connecting pipe 1, and an air outlet of each second air outlet pipe 82 is arranged in a downward inclined manner. The first air outlet pipe 81 and the second air outlet pipe 82 are arranged in a Y shape, and the first air outlet pipe 81 and the second air outlet pipe 82 are provided with two air outlets.

First outlet duct 81 and second outlet duct 82 are when using with outside air pump intercommunication, and what outside air pump lasted is to first outlet duct 81 and second outlet duct 82 gas transmission moreover, and the gas outlet slope of first outlet duct 81 and second outlet duct 82 is bloied downwards, and makes to cup joint than young 21 outside connecting pipe 1 and slide downwards gradually along connecting pipe 1, does not need the manual work to adjust, and it is very convenient to use.

As shown in fig. 11, the frame 4 is further provided with a pushing device 9 for pushing the pet 21 along the moving direction of the pet 21 when the pet 21 turns over, the pushing device 9 includes a cylinder 91 connected to the frame 4, the cylinder 91 is provided with a movable member 92 capable of moving up and down relative to the cylinder 91, and the movable member 92 is connected with a pushing plate 93 which is sleeved outside the connecting pipe 1 and can push the pet assembly 2 when the movable member 92 moves. The fixing bracket 41 is provided with a stopping portion 411 which can fix the connecting pipe 1 and prevent the sub-assembly 2 sleeved outside the connecting pipe 1 from separating from the connecting pipe 1, and the pushing plate 93 is located above the stopping portion 411. The stopper 411 prevents the clip 21 from slipping out of the connection pipe 1.

The number of the smaller parts 21 stacked at the middle and lower portion of the connection pipe 1 after being pulled by the moving means 7 is large, and the smaller parts are not moved easily, and there is a situation that the smaller parts 21 at the middle and lower portion of the connection pipe 1 cannot be moved after the smaller parts 21 at the upper end of the connection pipe 1 are blown into the inner passage 11. When the cylinder 91 is used, the cylinder 91 is connected with an external air pump, when the cylinder 91 is used, air is pumped and pressurized, the air in the cylinder 91 pushes the movable piece 92 to slide upwards along the cylinder 91 and pushes the small ring 21 along the sliding direction of the small ring 21, so that the small ring 21 accumulated at the middle lower part of the connecting pipe 1 can move upwards to enter the internal channel 11, and the situation that the small ring 21 is excessively accumulated and cannot move is avoided.

A method of inverse compounding, comprising:

A. the doll component 2 is sleeved outside the connecting pipe 1, and the doll component 2 comprises a plurality of dollies 21 and a connecting belt 22 which can connect the dollies 21 in series

B. Inserting the collar 21 at the end of the collar assembly 2 into the inlet 12;

C. the air blowing pipe 3 blows air to the rubber ring 21 plugged into the inlet 12, and the rubber ring 21 slides in the inner channel 11;

D. the plurality of hooks 21 and the connecting band 22 sleeved outside the connecting tube 1 are brought into the inner channel 11 to complete the turnover and discharged from the outlet 13

Example 2:

as shown in fig. 12 to 13, a stator assembly processing device comprises the above-mentioned inverse ratio stator assembly device, the stator assembly device comprises a frame 4, the frame 4 is connected with a processing device 100 capable of processing a stator 21 and a connecting band 22 to be connected in series to form a stator assembly 2, the frame 4 is connected with a connecting tube 1 capable of movably sleeving the stator assembly 2 to the outside, the output end of the processing device 100 is connected with the connecting tube 1, the connecting tube 1 is provided with a hollow internal channel 11, the connecting tube 1 is further provided with an inlet 12 communicated with the internal channel 11 and capable of allowing the end of the stator assembly 2 to be plugged in than the stator 21 and an outlet 13 communicated with the internal channel 11, the frame 4 is further connected with an air blowing tube capable of blowing air to the stator 21 plugged in the inlet 12, when the air blowing tube 3 blows air against the stator 21 plugged in the inlet 12, the collar 21 and the connecting band 22, which are sleeved outside the connecting tube 1, are brought into the internal channel 11 to complete the turning and are discharged from the outlet 13.

When the machining equipment for the minor-comparing component is used, a plurality of minor-comparing components 21 and a connecting band 22 are serially connected through a machining device 100 to be machined into a minor-comparing component 2, then the minor-comparing components 21 and the connecting band 22 on the minor-comparing component 2 are sleeved outside a connecting pipe 1, the minor-comparing components 21 at the end parts of the minor-comparing component 2 are plugged into an inlet 12 of the connecting pipe 1, an air blowing pipe 3 is connected with an external air conveying device, the air blowing pipe 3 blows air to the minor-comparing components 21 at the inlet 12 of the connecting pipe 1, the minor-comparing components 21 slide along an internal channel 11, the minor-comparing components 21 outside the connecting pipe 1 enter the internal channel 11 one by one and complete turn-over, when all the minor-comparing components 21 enter the internal channel 11, the air blowing pipe 3 blows air to discharge all the minor-comparing components 21 from an outlet 13, and the connecting band 22 on each minor-comparing 21 is turned over from the outer side to the inner side of each minor-comparing component 21, the operation is simple, the machining equipment for the small comparison component can complete machining and turning over of the small comparison component 2, the small comparison component 2 is directly sleeved on the outer side of the connecting pipe 1 after machining is completed, manual operation is not needed, the whole machining process flow improves machining efficiency, workers only need to sleeve the small comparison 21 at the middle end part of the small comparison component 2 into the inlet 12 of the connecting pipe 1 to complete turning over of the plurality of small comparison 21, connecting belts 22 do not need to be interrupted first, then turning over is conducted on the small comparison 21, machining steps of the workers are reduced, and machining efficiency of the workers is improved.

As shown in fig. 12 to 13, a guide assembly 5 capable of guiding the sub-assembly 2 to be inserted from the processing device 100 to the outside of the connection pipe 1 is connected between the connection pipe 1 and the processing device 100. The guide assembly 5 is nested with the guide collar 21.

As shown in fig. 13, the guide assembly 5 includes a guide frame 51, one end of the guide frame 51 is U-shaped, and the other end of the guide frame 51 is connected to a connection portion 52 capable of being connected to the connection pipe 1. The plurality of clips 21 and the connecting band 22 can be connected in series by sewing or can be connected by hot melt adhesive, so the processing device 100 in the invention can be a sewing machine or a device capable of heating and fixing the adhesive between the clips 21 and the connecting band 22. One end of the guide frame 51 is provided in a U shape, and the end can open the hoop 21, so that the processing device 100 can connect the hoop 21 and the connecting belt 22 in series, and can be used as a positioning die, and the connecting part 52 is used as a transition section to facilitate sliding of the hoop 21 to the outer side of the connecting pipe 1.

As shown in fig. 12, the frame 4 is further provided with a fixing bracket 101, and after the connecting portion 52 is taken off from the connecting pipe 1, the connecting portion 52 can be inserted into the fixing bracket 101, so that the guide assembly 5 can be prevented from being lost.