CN111118673B - Multi-bin cotton mixing machine capable of reducing air pollution and used for spinning - Google Patents

Abstract

The invention discloses a multi-bin cotton mixing machine for spinning, which can reduce air pollution and comprises a cotton distribution channel, a cotton storage box, a cotton mixing box, a cotton outlet pipe, a cotton conveying fan and a torsion spring, wherein the bottom end of the cotton distribution channel is welded with the cotton storage box, the bottom end of the cotton storage box is screwed with the cotton mixing box, the right end of the cotton mixing box is screwed with the cotton outlet pipe, the left side surface of the cotton storage box is screwed with the cotton conveying fan, the top end of the cotton conveying fan is connected with the inside of the cotton distribution channel through a connecting pipeline, the bottom end of the cotton conveying fan is connected with the inside of a temporary storage device through a connecting pipeline, the left end of the temporary storage device is provided with an air exhaust pipe in a penetrating manner, and the inside of the temporary storage device is clamped and connected with a movable plate. This reducible air pollution's weaving is with many storehouses mixing cotton machine is provided with the slip disc, avoids the jam of the filter in the later stage slip disc, avoids the second blast pipe outside air impurity to enter into in the second blast pipe when not using from this to protect the second blast pipe.

Description

Multi-bin cotton mixing machine capable of reducing air pollution and used for spinning

Technical Field

The invention relates to the technical field of textile machinery, in particular to a multi-bin cotton mixer for textile, which can reduce air pollution.

Background

The weaving is processed into textile fabric with cotton yarn raw materials through various weaving processing equipment, along with the continuous development of science and technology, the kind of weaving class machinery is also diversified, traditional manual operation has been replaced through multiple machinery, staff's work load has not only been alleviateed, can also improve production efficiency, add to textile fabric man-hour and use the multi-bin cotton mixing machine, mix cotton machine through the multi-bin and carry out the homogeneous mixing with multiple cotton raw materials, so that the processing in later stage, although the kind of the multi-bin cotton mixing machine on the market is many, but still there are some weak points, for example:

1. the patent name disclosed as 'CN 205171040U' solves the problems that the traditional multi-bin cotton mixer often has empty bin phenomenon in the production and use processes, so that the supply is easy to be disconnected, and the unevenness of cotton rolls is seriously influenced, but a sliding disc is not arranged in an exhaust pipe in the technology, so that dust and impurities are discharged together with gas when the gas is discharged, the air can be polluted, and meanwhile, the exhaust pipe cannot be closed timely when not used, so that the external impurities easily enter the whole device through the exhaust pipe, and cotton raw materials in the device are polluted;

2. the air in the cotton raw material can not be removed before the cotton raw material is conveyed by the cotton conveying fan, so that the cotton raw material contains air, and the air contains impurities, so that the air can pollute the cotton raw material to a certain extent, and the use of the cotton raw material at the later stage is influenced;

therefore, a multi-bin cotton blender for spinning, which can reduce air pollution, is proposed so as to solve the above-mentioned problems.

Disclosure of Invention

The invention aims to provide a multi-bin cotton mixer for spinning, which can reduce air pollution and solve the problems that the traditional multi-bin cotton mixer in the market at present can not filter air well during air exhaust, so that the air is easy to pollute the outside air, and the cotton raw material contains dirty air and is easy to pollute the cotton raw material.

In order to achieve the purpose, the invention provides the following technical scheme: a multi-bin cotton mixing machine capable of reducing air pollution for spinning comprises a cotton distribution channel, a cotton storage box, a cotton mixing box, a cotton outlet pipe, a cotton conveying fan and a torsion spring, wherein the cotton storage box is welded and installed at the bottom end of the cotton distribution channel, the cotton mixing box is installed at the bottom end of the cotton storage box through screws, the cotton outlet pipe is fixed at the right end of the cotton mixing box through screws, the cotton conveying fan is fixed at the left side face of the cotton storage box through screws, the top end of the cotton conveying fan is connected with the inside of the cotton distribution channel through a connecting pipeline, the bottom end of the cotton conveying fan is connected with the inside of a temporary storage device through a connecting pipeline, an air exhaust pipe is installed at the left end of the temporary storage device in a penetrating mode, a movable plate is connected to the inside of the temporary storage device in a clamping mode, an extrusion plate is arranged above the movable plate, a supporting vertical rod is connected to the inside of the left end of the extrusion plate in a nesting mode, and the upper end and the lower end of the supporting vertical rod are connected with the internal screws of the temporary storage device, join in marriage the right-hand member top fix with screw that the cotton was said and have first blast pipe, and the bottom threaded connection of first blast pipe has and stores up miscellaneous room to the left surface of storing miscellaneous room with join in marriage cotton and say screw connection, the right-hand member fix with screw of first blast pipe has the second blast pipe, and the inside block of right-hand member of second blast pipe is connected with the baffle to the left end inner wall laminating of second blast pipe is connected with the slip disc, the inside threaded connection of right-hand member of stripper plate has the threaded rod, and the bottom outside key-type of threaded rod has the wire winding dish, and the top of wire winding dish is provided with torque spring, torque spring's bottom is connected with the threaded rod through the screw, and torque spring's top nested threaded rod and temporary storage device screwed connection to the upper and lower both ends of threaded rod are the bearing with temporary storage device's inside and are connected.

Preferably, the clamping groove is formed in the bottom surface of the inner portion of the temporary storage device, and the right longitudinal section of the clamping groove is of an inverted T-shaped structure.

Preferably, the bottom surface fix with screw of movable plate has the fixture block, and the right flank screw mounting of fixture block has the connection rope to the right-hand member of connecting the rope runs through temporary storage device and twines with the rope winding dish and be connected, and the outside block of fixture block is connected with the draw-in groove simultaneously, and the movable plate passes through the fixture block and constitutes sliding connection with temporary storage device.

Preferably, a left sleeve is mounted on the left side surface of the extrusion plate through a screw, a right sleeve is fixed on the left side surface of the extrusion plate through a screw, and the inside of the right sleeve is in a thread structure.

Preferably, the first exhaust pipe is in an inverted U-shaped structure, and the space inside the first exhaust pipe is communicated with the space inside the second exhaust pipe.

Preferably, a first mounting groove is formed in the left end of the second exhaust pipe, a first reset spring is fixed to the inner screw of the first mounting groove, a second mounting groove is formed in the right end of the second exhaust pipe, a second reset spring is fixed to the inner screw of the second mounting groove, a groove is formed in the right end of the second exhaust pipe, a sealing gasket is connected to the inner wall of the groove in a bonding mode, and a first magnet piece is fixed to the inner screw of the groove.

Preferably, the right end screw of the sliding disc is provided with a first connecting rod, the inner screw of the sliding disc is fixed with a filter plate, the right end screw of the first connecting rod is provided with a first return spring, and the sliding disc and the second exhaust pipe form a sliding structure through the first return spring.

Preferably, the left end screw of baffle is fixed with the second connecting rod, and the left end screw of baffle is fixed with the second magnet piece to the second magnet piece is the one-to-one setting with first magnet piece, and the second magnet piece is the synonym magnetic pole with first magnet piece simultaneously.

Preferably, the right end screw of second connecting rod is fixed with second reset spring, first reset spring is installed to the right end screw of first connecting rod, the outside and the sealed laminating of filling up of baffle are connected.

Compared with the prior art, the invention has the beneficial effects that: this reducible air pollution's weaving is with many storehouses cotton mixer:

(1) the sliding disc is provided with a left-right reciprocating sliding structure which is formed by the sliding disc and the second exhaust pipe through the first connecting rod and the first reset spring, so that exhaust gas can be conveniently filtered by a filter plate with a mesh-shaped structure in the sliding disc, and simultaneously, the sliding disc is matched with the first exhaust pipe in an inverted U shape, so that impurities adhered to the filter plate on the outer side of the sliding disc can well fall into the impurity storage chamber for collection through the sliding of the sliding disc, the blocking of the filter plate in the sliding disc in the later period is avoided, the filter plate can be conveniently used well, meanwhile, the baffle is arranged, when no gas is discharged from the inside of the second exhaust pipe, the baffle closes the second exhaust pipe, when gas is discharged from the inside of the second exhaust pipe, a certain thrust force can be generated on the baffle to open the right end of the second exhaust pipe, and therefore, the outside air impurities can be prevented from entering the second exhaust pipe when the second exhaust pipe is not used, so as to protect the second exhaust pipe;

(2) install the movable plate, when the exhaust tube is connected with external air exhaust fan, at this moment external air exhaust fan will be to suction of movable plate, make the movable plate remove left, and then the movable plate of being convenient for drives the threaded rod through the connecting rope and rotates, make the threaded rod drive outside threaded connection's right sleeve pipe when rotatory and rise, the right sleeve pipe of consequently being convenient for drives inside stripper plate for the mesh form and rises and upwards extrude the inside cotton raw materials of temporary storage device, and then be convenient for fine and the air separation of cotton raw materials, be convenient for bleed the air in the cotton raw materials, avoid the air to cause the pollution to cotton raw materials, so that the fine use of cotton raw materials.

Drawings

FIG. 1 is a schematic main sectional view of the present invention;

FIG. 2 is a schematic view of the interior of the first and second exhaust pipes according to the present invention;

FIG. 3 is an enlarged view of the structure at A in FIG. 2 according to the present invention;

FIG. 4 is a right sectional view of the second exhaust pipe connected to the sliding disk according to the present invention;

FIG. 5 is a schematic diagram of a right-view structure of the baffle of the present invention;

FIG. 6 is a schematic diagram of a main cross-sectional structure of a temporary storage device according to the present invention;

fig. 7 is a schematic view of a right cross-sectional structure of the card slot of the present invention.

In the figure: 1. cotton distributing channel; 2. a cotton storage box; 3. a cotton mixing box; 4. a cotton outlet pipe; 5. a cotton conveying fan; 6. a temporary storage device; 61. a card slot; 7. an air exhaust pipe; 8. moving the plate; 81. a clamping block; 82. connecting ropes; 9. a pressing plate; 91. a left sleeve; 92. a right sleeve; 10. supporting the vertical rod; 11. a first exhaust pipe; 12. a second exhaust pipe; 121. a first mounting groove; 122. a first return spring; 123. a second mounting groove; 124. a second return spring; 125. a groove; 126. a gasket; 127. a first magnet piece; 13. a rope winding disc; 14. a trash storage chamber; 15. a sliding disk; 151. a first connecting rod; 152. a filter plate; 16. a baffle plate; 161. a second connecting rod; 162. a second magnet piece; 17. a threaded rod; 18. a torsion spring.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-7, the present invention provides a technical solution: a multi-bin cotton mixing machine capable of reducing air pollution for spinning comprises a cotton distribution channel 1, a cotton storage box 2, a cotton mixing box 3, a cotton outlet pipe 4, a cotton conveying fan 5, a temporary storage device 6, an air exhaust pipe 7, a movable plate 8, a squeezing plate 9, a supporting vertical rod 10, a first air exhaust pipe 11, a second air exhaust pipe 12, a rope winding disc 13, a miscellaneous storage chamber 14, a sliding disc 15, a baffle 16, a threaded rod 17 and a torsion spring 18, wherein the cotton storage box 2 is welded and installed at the bottom end of the cotton distribution channel 1, the cotton mixing box 3 is installed at the bottom end of the cotton storage box 2 through a screw, the cotton outlet pipe 4 is fixed at the right end of the cotton mixing box 3 through a screw, the cotton conveying fan 5 is fixed at the left side face of the cotton storage box 2 through a screw, the top end of the cotton conveying fan 5 is connected with the inside of the cotton distribution channel 1 through a connecting pipeline, the bottom end of the cotton conveying fan 5 is connected with the inside of the temporary storage device 6 through a connecting pipeline, the air exhaust pipe 7 is installed at the left end of the temporary storage device 6, a movable plate 8 is clamped and connected inside the temporary storage device 6, an extrusion plate 9 is arranged above the movable plate 8, a supporting vertical rod 10 is nested and connected inside the left end of the extrusion plate 9, the upper end and the lower end of the supporting vertical rod 10 are connected with internal screws of the temporary storage device 6, a first exhaust pipe 11 is fixed above the right end of the cotton blending channel 1 through screws, the bottom end of the first exhaust pipe 11 is connected with an impurity storage chamber 14 through threads, the left side surface of the impurity storage chamber 14 is connected with the cotton blending channel 1 through screws, a second exhaust pipe 12 is fixed at the right end of the first exhaust pipe 11 through screws, a baffle 16 is clamped and connected inside the right end of the second exhaust pipe 12, a sliding disc 15 is attached and connected to the inner wall of the left end of the second exhaust pipe 12, a threaded rod 17 is connected to the inside threads of the right end of the extrusion plate 9, a rope winding disc 13 is connected to the outside key of the bottom end of the threaded rod 17, and a torsion spring 18 is arranged above the rope winding disc 13, the bottom end of the torsion spring 18 is connected with a threaded rod 17 through a screw, the top end of the torsion spring 18 is nested with the threaded rod 17 and is in screw connection with the temporary storage device 6, and the upper end and the lower end of the threaded rod 17 are in bearing connection with the inner part of the temporary storage device 6;

the clamping groove 61 is formed in the inner bottom surface of the temporary storage device 6, and the right longitudinal section of the clamping groove 61 is in an inverted T-shaped structure, so that the clamping groove 61 is connected with the clamping block 81 in a clamping manner, and the stability of the moving plate 8 is improved conveniently by the clamping groove 61;

a clamping block 81 is fixed on the bottom surface of the moving plate 8 through screws, a connecting rope 82 is installed on the right side surface of the clamping block 81 through screws, the right end of the connecting rope 82 penetrates through the temporary storage device 6 to be connected with the rope winding disc 13 in a winding mode, meanwhile, the clamping groove 61 is connected to the outer side of the clamping block 81 in a clamping mode, the moving plate 8 is connected with the temporary storage device 6 in a sliding mode through the clamping block 81, therefore, the connecting rope 82 can be pulled conveniently through the arrangement of the moving plate 8, and the rope winding disc 13 and the threaded rod 17 can be driven to rotate together through the connecting rope 82;

a left sleeve 91 is mounted on the left side surface of the extrusion plate 9 through a screw, a right sleeve 92 is fixed on the left side surface of the extrusion plate 9 through a screw, and the inside of the right sleeve 92 is of a thread-shaped structure, so that the right sleeve 92 is stably lifted on the outer side of the threaded rod 17 through the nested connection of the left sleeve 91 and the vertical support rod 10;

the first exhaust pipe 11 is in an inverted U-shaped structure, and the space inside the first exhaust pipe 11 is communicated with the space inside the second exhaust pipe 12, so that impurities on the outer side of the sliding disc 15 are dropped into the impurity storage chamber 14 through the first exhaust pipe 11 in the inverted U-shaped structure for collection;

a first mounting groove 121 is formed in the left end of the second exhaust pipe 12, a first return spring 122 is fixed to the inside of the first mounting groove 121 through a screw, a second mounting groove 123 is formed in the right end of the second exhaust pipe 12, a second return spring 124 is fixed to the inside of the second mounting groove 123 through a screw, a groove 125 is formed in the right end of the second exhaust pipe 12, a sealing gasket 126 is connected to the inner wall of the groove 125 in an adhering manner, a first magnet 127 is fixed to the inside of the groove 125 through a screw, so that the sliding disc 15 is driven to slide through the first return spring 122, and the baffle 16 is driven to slide through the second return spring 124;

a first connecting rod 151 is mounted on a right end screw of the sliding disc 15, a filter plate 152 is fixed on the sliding disc 15 through a screw, a first return spring 122 is mounted on the right end screw of the first connecting rod 151, and meanwhile, the sliding disc 15 and the second exhaust pipe 12 form a sliding structure through the first return spring 122, so that impurities adhered to the outer side of the filter plate 152 in the sliding disc 15 can be automatically shaken off through sliding of the sliding disc 15, and blocking of the filter plate 152 is avoided;

a second connecting rod 161 is fixed to the left end screw of the baffle 16, a second magnet piece 162 is fixed to the left end screw of the baffle 16, the second magnet pieces 162 and the first magnet pieces 127 are arranged in a one-to-one correspondence, and the second magnet pieces 162 and the first magnet pieces 127 are of different magnetic poles, so that the baffle 16 is fixed conveniently through the different magnetic poles of the second magnet pieces 162 and the first magnet pieces 127;

second reset spring 124 is fixed to the right end screw of second connecting rod 161, and first reset spring 122 is installed to the right end screw of first connecting rod 151, and the outside and the sealed pad 126 laminating of baffle 16 are connected, and then make first reset spring 122 drive first connecting rod 151 and slide, and second reset spring 124 drives second connecting rod 161 and slides.

The working principle of the embodiment is as follows: when the multi-bin cotton mixer capable of reducing air pollution is used for spinning, firstly, as shown in fig. 1, the whole device is moved into a working area, after the cotton material reaches the working area, the cotton material is firstly poured into the temporary storage device 6 through a feed inlet at the top end of the temporary storage device 6, then the cotton material firstly falls on a squeezing plate 9 in the temporary storage device 6, then an air exhaust pipe 7 is connected with an external air exhaust fan, the external air exhaust fan sucks air in the temporary storage device 6 through the air exhaust pipe 7, meanwhile, a moving plate 8 is driven to move leftwards by the air exhaust fan, a clamping block 81 fixed by screws at the bottom end of the moving plate 8 slides in a clamping groove 61, as shown in fig. 6-7, therefore, the stable leftward movement of the moving plate 8 is ensured through the clamping sliding connection of the clamping block 81 and the clamping groove 61, and meanwhile, the clamping block 81 pulls a connecting rope 82 fixed by screws at the right end when moving leftwards, as shown in fig. 6, thereby causing the connecting rope 82 to rotate around the rope reel 13 when pulled, so that the rope winding disc 13 drives the threaded rod 17 with the internal key connection to rotate with the bearing inside the temporary storage device 6, the threaded rod 17 drives the right sleeve 92 with the upper external thread connection to move upwards as shown in figure 7 and figure 1 when rotating, thereby, the right sleeve 92 drives the extrusion plate 9 to move upwards, and the left sleeve 91 on the left side of the extrusion plate 9 is nested and connected on the outer side of the vertical supporting rod 10, thereby ensuring that the extrusion plate 9 stably ascends, thereby facilitating the extrusion of the extrusion plate 9 to the cotton raw material above when the extrusion plate is lifted, leading the gas in the cotton raw material to be well pumped out through the matching of the mesh-shaped structure in the extrusion plate 9 and the exhaust tube 7, therefore, the cotton raw material is well separated from the air, and impurities in the air are prevented from polluting the cotton raw material;

then, after the air is discharged, the cotton conveying fan 5 is connected with an external power supply, the cotton conveying fan 5 conveys the cotton raw materials in the temporary storage device 6 to the cotton distribution channel 1, the cotton raw materials sequentially fall into a plurality of cotton storage boxes 2 below through the cotton distribution channel 1, then the cotton mixing operation is performed through a cotton mixing mechanism in the cotton mixing box 3, the cotton raw materials are discharged through a cotton discharge pipe 4 after the cotton mixing operation is finished, the cotton mixing gas in the cotton distribution channel 1 needs to be discharged after the cotton mixing operation is finished, at this time, the gas is discharged into a first exhaust pipe 11 through an exhaust mechanism in the cotton distribution channel 1, and then enters into a second exhaust pipe 12 through the first exhaust pipe 11, as shown in the attached figures 2-3, the gas firstly pushes the sliding disc 15 and the baffle plate 16 to the right, so that the sliding disc 15 stably moves to the right under the action of the first connecting rod 151, the first mounting groove 121 and the first return spring 122, meanwhile, as shown in fig. 4, the filtering operation is performed by the filtering plate 152 inside the sliding disc 15, impurities remain on the left side surface of the filtering plate 152, the filtered gas continues to move rightwards, the baffle 16 moves rightwards under the action of the second connecting rod 161, the second mounting groove 123 and the second return spring 124, so that the first magnet piece 127 is separated from the second magnet piece 162, and the baffle 16 is separated from the second exhaust pipe 12, thereby facilitating the gas to be well discharged through the gap between the baffle 16 and the second exhaust pipe 12;

after the gas is exhausted, the baffle 16 moves leftwards under the action of the stored force of the second return spring 124, so that the second magnet piece 162 on the left side surface of the baffle 16 attracts the first magnet piece 127 with different magnetic poles, and the baffle 16 seals and closes the inside of the right end of the second exhaust pipe 12 under the action of the sealing gasket 126, as shown in fig. 5, so as to prevent external impurities from entering the second exhaust pipe 12 when the exhaust operation is not performed, and simultaneously, the sliding disc 15 moves leftwards under the action of the stored force of the first return spring 122, so that the sliding disc 15 drives the internal filter plate 152 to rock, and simultaneously, in cooperation with the arrangement of the first exhaust pipe 11 in the inverted U-shaped structure, the impurities adhered to the left side surface of the sliding disc 15 fall into the impurity storage chamber 14 well, so that the impurities can be collected well in the impurity storage chamber 14, meanwhile, the sliding disc 15 is prevented from being blocked due to long-time use, and the sliding disc 15 is convenient to use well, so that a series of work is completed.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.

Claims (1)

1. The utility model provides a reducible air pollution's weaving is with many storehouses cotton mixing machine, is including joining in marriage cotton way (1), storage hopper (2), mix hopper (3), play cotton pipe (4), defeated cotton fan (5) and torsion spring (18), its characterized in that: the cotton distributing device is characterized in that a cotton storing box (2) is welded and installed at the bottom end of the cotton distributing channel (1), a cotton mixing box (3) is installed at the bottom end of the cotton storing box (2) through screws, a cotton outlet pipe (4) is fixed at the right end of the cotton mixing box (3), a cotton conveying fan (5) is fixed at the left side face of the cotton storing box (2) through screws, the top end of the cotton conveying fan (5) is connected with the inside of the cotton distributing channel (1) through a connecting pipeline, the bottom end of the cotton conveying fan (5) is connected with the inside of the temporary storage device (6) through a connecting pipeline, an exhaust pipe (7) is installed at the left end of the temporary storage device (6) in a penetrating mode, a movable plate (8) is connected to the inside of the temporary storage device (6) in a clamping mode, an extrusion plate (9) is arranged above the movable plate (8), a supporting vertical rod (10) is connected to the inside of the left end of the extrusion plate (9) in a nesting mode, and the upper end and the lower end of the supporting vertical rod (10) is connected with the internal screws of the temporary storage device (6), a first exhaust pipe (11) is fixed above the right end of the cotton distribution channel (1) through screws, the bottom end of the first exhaust pipe (11) is in threaded connection with a sundry storage chamber (14), the left side surface of the sundry storage chamber (14) is in threaded connection with the cotton distribution channel (1), a second exhaust pipe (12) is fixed on the right end of the first exhaust pipe (11) through screws, a baffle plate (16) is connected to the inside of the right end of the second exhaust pipe (12) in a clamping manner, a sliding disc (15) is connected to the inner wall of the left end of the second exhaust pipe (12) in a fitting manner, a threaded rod (17) is connected to the inside of the right end of the extrusion plate (9) through screws, a rope winding disc (13) is connected to the outside key at the bottom end of the threaded rod (17), a torsion spring (18) is arranged above the rope winding disc (13), the bottom end of the torsion spring (18) is connected with the threaded rod (17) through screws, and a nesting sleeve (17) at the top end of the torsion spring (18) is in threaded connection with the temporary storage device (6) through screws, the upper end and the lower end of the threaded rod (17) are connected with the inner part of the temporary storage device (6) through bearings;

a clamping groove (61) is formed in the inner bottom surface of the temporary storage device (6), and the right longitudinal section of the clamping groove (61) is of an inverted T-shaped structure;

a clamping block (81) is fixed on the bottom surface of the moving plate (8) through screws, a connecting rope (82) is installed on the right side surface of the clamping block (81) through screws, the right end of the connecting rope (82) penetrates through the temporary storage device (6) to be connected with the rope winding disc (13) in a winding mode, meanwhile, the clamping groove (61) is connected to the outer side of the clamping block (81) in a clamping mode, and the moving plate (8) is in sliding connection with the temporary storage device (6) through the clamping block (81);

a left sleeve (91) is mounted on the left side surface of the extrusion plate (9) through a screw, a right sleeve (92) is fixed on the right side surface of the extrusion plate (9) through a screw, and the interior of the right sleeve (92) is of a thread-shaped structure;

the first exhaust pipe (11) is in an inverted U-shaped structure, and the space inside the first exhaust pipe (11) is communicated with the space inside the second exhaust pipe (12);

a first mounting groove (121) is formed in the left end of the second exhaust pipe (12), a first return spring (122) is fixed to the inside of the first mounting groove (121) through a screw, a second mounting groove (123) is formed in the right end of the second exhaust pipe (12), a second return spring (124) is fixed to the inside of the second mounting groove (123) through a screw, a groove (125) is formed in the right end of the second exhaust pipe (12), a sealing gasket (126) is connected to the inner wall of the groove (125) in an adhesive mode, and a first magnet piece (127) is fixed to the inside of the groove (125) through a screw;

a first connecting rod (151) is installed on a right end screw of the sliding disc (15), a filter plate (152) is fixed on the sliding disc (15) through an internal screw, a first return spring (122) is installed on the right end screw of the first connecting rod (151), and meanwhile the sliding disc (15) and the second exhaust pipe (12) form a sliding structure through the first return spring (122);

a second connecting rod (161) is fixed to the left end screw of the baffle plate (16), a second magnet piece (162) is fixed to the left end screw of the baffle plate (16), the second magnet pieces (162) and the first magnet pieces (127) are arranged in a one-to-one correspondence mode, and the second magnet pieces (162) and the first magnet pieces (127) are of different magnetic poles;

a second return spring (124) is fixed to the right end of the second connecting rod (161) through a screw, a first return spring (122) is installed to the right end of the first connecting rod (151) through a screw, and the outer side of the baffle (16) is attached to and connected with a sealing gasket (126);

when in use, firstly, the whole device is moved into a working area, after the device reaches the working area, cotton raw materials are firstly poured into the temporary storage device through a feed inlet at the top end of the temporary storage device, then the cotton raw materials fall on a squeezing plate in the temporary storage device, then an exhaust pipe is connected with an external exhaust fan, the external exhaust fan sucks air in the temporary storage device through the exhaust pipe, meanwhile, the exhaust fan drives a moving plate to move leftwards, a clamping block fixed by a screw at the bottom end of the moving plate slides in a clamping groove, therefore, the moving plate is ensured to move leftwards stably through the clamping sliding connection of the clamping block and the clamping groove, meanwhile, the clamping block pulls a connecting rope fixed by a screw at the right end when moving leftwards, so that the connecting rope drives a rope winding disc to rotate when being pulled, and the rope winding disc drives a key connection inside a threaded rod to rotate with the inside of the temporary storage device to carry out bearing rotation, when the threaded rod rotates, the right sleeve in threaded connection with the outer side of the upper portion is driven to move upwards, so that the right sleeve drives the extrusion plate to move upwards, and meanwhile, the left sleeve on the left side of the extrusion plate is in nested connection with the outer side of the supporting vertical rod, so that the extrusion plate is ensured to stably ascend, the extrusion plate is convenient to extrude the cotton raw material above when ascending, gas in the cotton raw material is well sucked out through the matching of the mesh-shaped structure inside the extrusion plate and the exhaust pipe, the cotton raw material is well separated from air, and the cotton raw material is prevented from being polluted by impurities in the air;

then, after the air is discharged, the cotton conveying fan is connected with an external power supply, the cotton conveying fan conveys the cotton raw materials in the temporary storage device to the cotton distribution channel, the cotton raw materials sequentially fall into a plurality of cotton storage boxes below through the cotton distribution channel, then the cotton mixing work is carried out through a cotton mixing mechanism in the cotton mixing box, the cotton raw materials are discharged through a cotton discharge pipe after the cotton mixing is finished, the cotton mixing gas in the cotton distribution channel needs to be discharged, at the moment, the gas is discharged into a first exhaust pipe through an exhaust mechanism in the cotton distribution channel and then enters a second exhaust pipe through a first exhaust pipe, the gas enters the second exhaust pipe and pushes the sliding disc and the baffle plate rightwards, so that the sliding disc stably moves rightwards under the action of the first connecting rod, the first mounting groove and the first reset spring, meanwhile, the filtering work is carried out through a filter plate in the sliding disc, and impurities are left on the left side surface of the filter plate, the filtered gas continuously moves rightwards, the baffle plate moves rightwards under the action of the second connecting rod, the second mounting groove and the second return spring, so that the first magnet piece is separated from the second magnet piece, and the baffle plate is separated from the second exhaust pipe, so that the gas can be well discharged through a gap between the baffle plate and the second exhaust pipe;

after the gas is exhausted, the baffle plate moves leftwards under the action of the second reset spring storage force, so that the second magnet piece on the left side surface of the baffle plate and the first magnet piece attract each other in a different magnetic pole manner, the baffle plate seals and closes the inside of the right end of the second exhaust pipe under the action of the sealing gasket, external impurities are prevented from entering the second exhaust pipe when the exhaust work is not carried out, meanwhile, the sliding disc moves leftwards under the action of the first reset spring storage force in a similar manner, so that the sliding disc drives the internal filter plate to shake, and meanwhile, the arrangement of the first exhaust pipe in an inverted U-shaped structure is matched, so that the impurities adhered to the left side surface of the sliding disc when the sliding disc shakes well fall into the impurity storage chamber, the impurities in the impurity storage chamber are collected well, meanwhile, the sliding disc is prevented from being blocked due to long-time use, and the sliding disc is convenient to use well, thereby completing a series of works.

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