CN115074874A

CN115074874A - Weaving is with weaving quick-witted weaving dirt collection device

Info

Publication number: CN115074874A
Application number: CN202211002524.5A
Authority: CN
Inventors: 陈云峰
Original assignee: Rugao Junbo Weaving Co ltd
Current assignee: Rugao Junbo Weaving Co ltd
Priority date: 2022-08-19
Filing date: 2022-08-19
Publication date: 2022-09-20

Abstract

The invention discloses a textile dust collecting device of a textile machine for textile, which comprises a machine body, wherein the machine body is provided with a pressing mechanism capable of pressing and driving a low-temperature water source through a water pressing chamber, the machine body is provided with a heating mechanism capable of heating the water source and a feeding mechanism matched with the heating mechanism through a reaction chamber, and the machine body is provided with a dust removing mechanism capable of cleaning and tidying wool produced by the textile machine through a dust removing chamber. The vertical rod is extruded to move downwards in the first sliding groove through the pressurized water cam, water in the pressurized water chamber is pressed into the radiating pipe, and the radiating pipe is wound on the frame of the textile machine to take away heat generated by work. The second piston is driven to move downwards by the second cam, and the pushing plate which moves upwards pushes the steam into the second through hole to enter the water conveying pipe. The dust collection fan is driven to rotate by the dust collection shaft, the lint generated by the work of the textile machine is sucked into the dust collection chamber through the dust collection filter opening, and the filtered water flows back to the water pressing chamber from the return pipe and is secondarily utilized after passing through the filter screen.

Description

Weaving is with weaving quick-witted weaving dirt collection device

Technical Field

The invention relates to the technical field of textile machines, in particular to a textile dust collecting device of a textile machine for textile.

Background

The textile machines are also called spinning machines, weaving machines, cotton spinning machines and the like, the ancient textile machines are weaving machines driven by manpower, the textile machines are tools for processing raw materials such as threads, silk, hemp and the like into silk threads and then weaving the silk threads into cloth, and the textile machines are like spinning pendants, spinning wheels, spindles, pedal weaving machines, modern mechanical weaving machines, modern numerical control automatic weaving machines and the like.

The heat generated by the existing textile machine during working is discharged outside through the rack, but the heat dissipation effect is limited, the normal work of the textile machine is seriously influenced, and although the means for assisting the heat dissipation of the textile machine by adding a heat dissipation mechanism is also available in the prior art, the heat dissipation mechanism still catches the witness for the textile machine which continuously generates heat; in addition, the woollen batting produced by the textile machine during working is scattered in the working environment, the sight of workers is seriously interfered, the workers cannot concentrate, the normal production progress of the textile machine is delayed, and even respiratory diseases can be caused.

Disclosure of Invention

The invention aims to solve the problem that the existing textile machine in the prior art has limited heat dissipation, and provides a textile dust collecting device of a textile machine for textile.

In order to achieve the purpose, the invention adopts the following technical scheme:

a spinning machine weaving dust collecting device for spinning comprises a machine body, wherein a spinning machine frame used for placing and installing a spinning machine is fixedly installed on the machine body, a motor is fixedly installed on the machine body, a driving shaft fixedly connected with the output end of the motor is installed in the machine body in a rotating mode, a feeding shaft connected with the driving shaft in a transmission mode is installed in the machine body in a horizontal rotating mode, a first rotating shaft and a second rotating shaft connected with the feeding shaft in a transmission mode are installed in the machine body in a horizontal rotating mode, a rotating shaft and a dedusting shaft driven by the feeding shaft in a transmission mode are installed in the machine body in a horizontal rotating mode, a pressurized water chamber, a reaction chamber and a dust removal chamber provided with an opening and closing cleaning opening are respectively and fixedly connected onto the machine body, a pressurizing mechanism capable of pressurizing and driving a low-temperature water source is arranged on the machine body through the pressurized water chamber, and a heating mechanism capable of heating the water source and a feeding mechanism matched with the heating mechanism are arranged on the machine body through the reaction chamber, the machine body is provided with a dust removal mechanism which can clean and tidy the wool produced by the textile machine through a dust removal chamber.

Preferably, the pumping chamber and the reaction chamber are respectively arranged at two side positions of a frame of the textile machine, the first rotating shaft and the second rotating shaft are horizontally and symmetrically arranged at two side positions below the feeding shaft, a first belt pulley is connected between the driving shaft and the feeding shaft, a driving gear is in key connection with the driving shaft, a first driven gear and a second driven gear which are in meshed connection with the driving gear are in key connection with the first rotating shaft and the second rotating shaft respectively, a second belt pulley is connected between the rotating shaft and the feeding shaft, and a third belt pulley is connected between the dedusting shaft and the feeding shaft.

Preferably, the pressing mechanism includes that the clamp plate in the pressurized-water chamber is located to the slip cap, set up first spout in the pressurized-water chamber, be provided with the first spring that is connected and the montant with clamp plate fixed connection in the first spout respectively, the fixed cover of driving shaft is equipped with the pressurized-water cam that corresponds with the montant, the fixed inlet tube that is equipped with the check valve that is provided with respectively in the pressurized-water chamber with twine the cooling tube that communicates the reacting chamber in the weaving machine frame.

Preferably, the first spring is vertically welded in the first chute, the vertical rod is slidably sleeved in the first chute, the water pressing cam is movably abutted against the vertical rod, and one end of the water inlet pipe and one end of the radiating pipe communicated with the water pressing chamber are always located below the pressing plate.

Preferably, the heating mechanism comprises a water pipe for communicating the reaction chamber and the dust removal chamber, a first through hole is formed in one end of the radiating pipe extending into the reaction chamber, a second spring and a first piston which are connected are respectively arranged in the first through hole, and a first cam which is eccentrically arranged and movably abutted against the outer end of the first piston is fixedly sleeved on the first rotating shaft;

a second through hole is formed in the water pipe, a third spring and a second piston which are connected are arranged in the second through hole respectively, a second cam which is eccentrically arranged and movably abutted to the outer end of the second piston is fixedly arranged on a second rotating shaft, a pressing cam located in the reaction chamber is fixedly arranged on the rotating shaft, a second sliding groove is formed in the reaction chamber, a pushing plate is sleeved in the second sliding groove in a sliding mode, and a traction rod connected with the pushing plate is connected to the pressing cam in a rotating mode.

Preferably, the first through hole and the second through hole are always located above the pushing plate, the second spring and the third spring are fixedly sleeved on the outer end positions of the first piston and the second piston, which extend out of the first through hole and the second through hole, respectively, and the first cam and the second cam are arranged in a reverse direction.

Preferably, throw material mechanism including fixed the setting in the reacting chamber throw the material standpipe, throw the material of throwing of the integrative intercommunication of material standpipe and violently manage, and throw the material standpipe upper end fixedly connected with and be used for placing the material room of quick lime, throw the rotatory piece that the ring channel was seted up on the epaxial fixedly connected with surface of material, the outer fixed mounting of reacting chamber has support and sleeve, the rotatory piece slides the cover through the ring channel and is equipped with the stock gear of movable mounting on the support, slide the cover in the sleeve and be equipped with the driven rack of being connected with stock gear engagement, throw the material violently outside of tubes slide the cover be equipped with driven rack fixed connection's annular magnet, and throw the material and violently manage and be provided with the fourth spring that is connected and remove the piston respectively, fixed mounting has the rectangular magnet that corresponds with annular magnet on the removal piston.

Preferably, throw the material standpipe and extend to the one end in the reacting chamber and be located slurcam top position, ring channel on the rotating member sets up to end's ring channel, stock gear middle-end position is connected with the support rotation, ring magnet and rectangular magnet set up with homopolar repulsion state, fourth spring horizontal welding is in throwing the material violently managing one end, it locates to throw the material and violently manages in the cover to move piston horizontal slip.

Preferably, dust removal mechanism is including seting up the dust absorption filtration mouth in the clean room respectively and giving vent to anger the filtration mouth, the epaxial fixed cover of dust removal is equipped with the dust absorption fan that dust absorption filtration mouth cooperation was used in the clean room, fixed filter screen and the corresponding cooler of raceway output that is provided with respectively in the clean room, clean room lower extreme fixed mounting has the back flow that communicates with each other and be equipped with the check valve with the pressurized-water chamber.

Preferably, the water pipe extends to one end of the dust removal chamber and is located above the cooler, the return pipe extends to one end of the dust removal chamber and is located below the filter screen, and the return pipe is communicated with the water pumping chamber and is located below the pressing plate.

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

1. the water pressing cam is driven to rotate by the driving shaft, the water pressing cam extrudes the vertical rod to move downwards in the first sliding groove, the vertical rod pulls the first spring open, the vertical rod drives the pressing plate to move together, water in the water pressing chamber is pressed into the radiating pipe, and the radiating pipe is wound on the frame of the textile machine to take away heat generated during work.

2. According to the invention, through the homopolar repulsion of the annular magnet and the strip magnet, the movable piston moves inwards, quicklime in the material chamber falls into the reaction chamber from the feeding vertical pipe, the first cam drives the first piston to move downwards, water in the radiating pipe flows out from the first through hole and reacts with the quicklime to generate heat to heat redundant water into steam, the second cam drives the second piston to move downwards, the rotating shaft drives the pressing cam to rotate, the pressing cam drives the traction rod to deflect and move up and down, the traction rod drives the pushing plate to move up and down in the second sliding groove, and the pushing plate which moves up pushes the steam into the second through hole to enter the water conveying pipe.

3. According to the invention, steam is condensed into water drops through the cooler to fall into the dust chamber, the feeding shaft drives the dust removing shaft to rotate through the third belt pulley, the dust removing shaft drives the dust suction fan to rotate, fluff produced by the work of the textile machine is sucked into the dust chamber through the dust suction filter opening, the fallen water drops wet the fluff and fall onto the filter screen, impurities in water are blocked on the filter screen through the filter screen, the filtered water enters the return pipe and then flows back to the water pressing chamber from the return pipe, and the cyclic and efficient utilization of water resources is realized.

In conclusion, the water in the water pressurizing chamber is pressurized into the radiating pipe, the radiating pipe is wound on the frame of the textile machine to take away heat generated by work, the radiating efficiency of the textile machine is enhanced through the radiating pipe, and the textile machine is prevented from being influenced by high temperature. Drive first piston downstream through first cam, let the water in the cooling tube flow out from first through-hole department, second cam drives second piston downstream, and upward movement's catch plate pushes steam second through-hole department and gets into in the raceway, and then carries steam in the clean room to treat further dust removal processing to the batting. The dust collection fan is driven to rotate by the dust collection shaft, the flocks generated by the work of the textile machine are sucked into the dust collection chamber through the dust collection filter opening, impurities in water are blocked on the filter screen through the filter screen, the filtered water flows back to the pressurized-water chamber from the return pipe, and the water is secondarily utilized after passing through the filter screen.

Drawings

FIG. 1 is a schematic view of a dust collector of a textile machine for textile use according to the present invention;

FIG. 2 is a schematic side view of a dust collector of a textile machine for textile use according to the present invention;

FIG. 3 is a schematic structural view of a main sectional view of a dust collecting device of a textile machine for textile use according to the present invention;

FIG. 4 is a schematic structural view of a right sectional view of a dust collecting device of a textile machine for textile use according to the present invention;

FIG. 5 is a left side sectional view of a dust collector of a textile machine in accordance with the present invention;

FIG. 6 is an enlarged schematic view of part A of a dust collecting device of a textile machine for textile according to the present invention;

FIG. 7 is an enlarged schematic view of part B of a dust collecting device of a textile machine for textile use according to the present invention;

FIG. 8 is an enlarged view of a part C of a dust collecting device of a textile machine for textile according to the present invention;

FIG. 9 is an enlarged view of a structure of a portion D of a dust collecting device of a textile machine for textile according to the present invention;

fig. 10 is an enlarged schematic view of a part E of a dust collecting device of a textile machine for textile according to the present invention.

In the figure: 1. a body; 2. a textile machine frame; 3. a motor; 4. a drive shaft; 5. a water pumping chamber; 6. a reaction chamber; 7. a dust chamber; 8. pressing a plate; 9. a first chute; 10. a vertical rod; 11. a first spring; 12. a water pressing cam; 13. a water inlet pipe; 14. a radiating pipe; 15. a feeding shaft; 16. a first pulley; 17. a first rotating shaft; 18. a second rotating shaft; 19. a driving gear; 20. a first driven gear; 21. a second driven gear; 22. a water delivery pipe; 23. a first through hole; 24. a second spring; 25. a first piston; 26. a first cam; 27. a second through hole; 28. a third spring; 29. a second piston; 30. a second cam; 31. a rotating shaft; 32. a second pulley; 33. a pressing cam; 34. a second chute; 35. a push plate; 36. a draw bar; 37. a feeding vertical pipe; 38. a horizontal feeding pipe; 39. a material chamber; 40. a rotating member; 41. a support; 42. a long rod gear; 43. a sleeve; 44. a driven rack; 45. a ring magnet; 46. moving the piston; 47. a fourth spring; 48. a strip magnet; 49. a dust absorption filter port; 50. an air outlet filter opening; 51. a dust removal shaft; 52. a third belt pulley; 53. a dust collection fan; 54. a cooler; 55. filtering with a screen; 56. a return pipe.

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.

Referring to fig. 1-10, a textile dust collecting device of a textile machine for textile comprises a machine body 1, a textile machine frame 2 for placing and installing the textile machine is fixedly installed on the machine body 1, a motor 3 is fixedly installed on the machine body 1, the motor 3 can select a servo motor with a product model of MGME-092S1, a driving shaft 4 fixedly connected with the output end of the motor 3 is rotatably installed in the machine body 1, a pressing mechanism, a heating mechanism, a feeding mechanism and a dust removing mechanism are actively or indirectly driven through the driving shaft 4, a feeding shaft 15 in transmission connection with the driving shaft 4 is horizontally rotatably installed in the machine body 1, a first rotating shaft 17 and a second rotating shaft 18 in transmission connection with the feeding shaft 15 are respectively and horizontally rotatably installed in the machine body 1, and a rotating shaft 31 and a dust removing shaft 51 driven by the feeding shaft 15 are horizontally rotatably installed in the machine body 1;

a pressurized water chamber 5, a reaction chamber 6 and a dust removal chamber 7 which is provided with a cleaning opening capable of being opened and closed are respectively and fixedly connected to the machine body 1, impurities on the filter screen 55 are cleaned through the cleaning opening, the filter effect of the filter screen is prevented from being influenced, the machine body 1 is provided with a pressing mechanism which can press and drive a low-temperature water source through the pressurized water chamber 5, and the low-temperature water source is pressed into the radiating pipe 14 through the pressing mechanism so as to radiate heat of the textile machine;

and organism 1 is provided with through reacting chamber 6 can carry out the heating mechanism that heats and throw material mechanism with the cooperation of heating mechanism and use, use the water source among reacting chamber 6 in the clean room 7 of impressing through heating mechanism and the cooperation of throwing material mechanism to remove dust to the batting and handle, organism 1 is provided with through clean room 7 can carry out the dust removal mechanism of clean arrangement to the batting of weaving machine production, remove dust through dust removal mechanism with the batting and handle, and to water source filtration treatment.

The pressurized-water chamber 5 and the reaction chamber 6 are respectively arranged at two sides of the textile machine frame 2, the first rotating shaft 17 and the second rotating shaft 18 are horizontally and symmetrically arranged at two sides below the feeding shaft 15, a first belt pulley 16 is connected between the driving shaft 4 and the feeding shaft 15, and the driving shaft 4 and the feeding shaft 15 synchronously rotate through the first belt pulley 16;

the key connection has driving gear 19 on the driving shaft 4, and key connection has first driven gear 20 and the second driven gear 21 with driving gear 19 meshing connection respectively on first axis of rotation 17 and the second axis of rotation 18, drive first driven gear 20 and the equidirectional rotation of second driven gear 21 through driving gear 19, be connected with second belt pulley 32 between rotation axis 31 and the material axle 15 of throwing, drive rotation axis 31 and throw material axle 15 synchronous revolution through second belt pulley 32, and be connected with third belt pulley 52 between dust removal axle 51 and the material axle 15 of throwing, drive dust removal axle 51 and throw material axle 15 synchronous revolution through third belt pulley 52.

The pressure applying mechanism comprises a pressure plate 8 which is sleeved in a pressure water chamber 5 in a sliding manner, a first sliding groove 9 is formed in the pressure water chamber 5, a first spring 11 and a vertical rod 10 which is fixedly connected with the pressure plate 8 are respectively arranged in the first sliding groove 9, the pressure plate 8 is driven to move downwards through a pressure water cam 12, a low-temperature water source is pressed into a radiating pipe 14 to carry out radiating operation on the textile machine, the pressure water cam 12 corresponding to the vertical rod 10 is fixedly sleeved on a driving shaft 4, the water source is supplemented with a part consumed in conveying through a water inlet pipe 13, and the water inlet pipe 13 with a one-way valve and the radiating pipe 14 which is wound on a textile machine frame 2 and communicated with a reaction chamber 6 are respectively and fixedly arranged in the pressure water chamber 5.

First spring 11 is vertical to be welded in first spout 9, through the elastic force of first spring 11, helps clamp plate 8 to get back to initial position, and in first spout 9 was located to montant 10 sliding sleeve, pressurized-water cam 12 offseted with the activity of montant 10, and inlet tube 13, the one end that radiating tube 14 communicates pressurized-water chamber 5 were located clamp plate 8 below position all the time, and when the check valve in inlet tube 13 avoided 8 downstream of clamp plate, impressed the water source in inlet tube 13.

The heating mechanism comprises a water delivery pipe 22 for communicating the reaction chamber 6 and the dust removal chamber 7, a first through hole 23 is formed in one end of the radiating pipe 14 extending into the reaction chamber 6, a second spring 24 and a first piston 25 which are connected are respectively arranged in the first through hole 23, a water source in the radiating pipe 14 flows into the reaction chamber 6 through the downward movement of the first piston 25 so as to be further processed, and a first cam 26 which is eccentrically arranged and movably abutted against the outer end of the first piston 25 is fixedly sleeved on the first rotating shaft 17;

a second through hole 27 is formed in the water pipe 22, a third spring 28 and a second piston 29 which are connected with each other are respectively arranged in the second through hole 27, the first cam 26 and the second cam 30 are oppositely arranged, so that the first through hole 23 and the second through hole 27 are alternately opened and closed, a second cam 30 which is eccentrically arranged and movably abutted against the outer end of the second piston 29 is fixedly installed on the second rotating shaft 18, a pressing cam 33 which is positioned in the reaction chamber 6 is fixedly installed on the rotating shaft 31, a second sliding groove 34 is formed in the reaction chamber 6, steam is pushed into the water pipe 22 through a pushing plate 35 which moves upwards so as to treat lint in the dust chamber 7, a pushing plate 35 is slidably sleeved in the second sliding groove 34, and a traction rod 36 which is connected with the pushing plate 35 is rotatably connected on the pressing cam 33.

The first through hole 23 and the second through hole 27 are always located above the pushing plate 35, the second spring 24 and the third spring 28 are fixedly sleeved on the outer end positions of the first piston 25 and the second piston 29 extending out of the first through hole 23 and the second through hole 27 respectively, the first cam 26 and the second cam 30 are arranged in an opposite direction, and the first through hole 23 and the second through hole 27 are alternately opened and closed by the aid of the arrangement of the first cam 26 and the second cam 30 in the opposite direction.

The feeding mechanism comprises a feeding vertical pipe 37 fixedly arranged in the reaction chamber 6, a feeding horizontal pipe 38 integrally communicated with the feeding vertical pipe 37, a material chamber 39 used for containing quicklime is fixedly connected to the upper end of the feeding vertical pipe 37, a rotating part 40 with an annular groove formed in the surface is fixedly connected to the feeding shaft 15, a support 41 and a sleeve 43 are fixedly mounted outside the reaction chamber 6, the rotating part 40 is sleeved with a long rod gear 42 movably mounted on the support 41 in a sliding mode through the annular groove, a driven rack 44 meshed and connected with the long rod gear 42 is sleeved in the sleeve 43 in a sliding mode, an annular magnet 45 fixedly connected with the driven rack 44 is sleeved outside the feeding horizontal pipe 38 in a sliding mode, and the movable piston 46 is enabled to open and close the feeding vertical pipe 37 through reciprocating movement of the driven rack 44 left and right, so that quicklime is quantitatively fed every time;

and a fourth spring 47 and a movable piston 46 which are connected are respectively arranged in the feeding horizontal pipe 38, the movable piston 46 is initially arranged at the joint of the feeding vertical pipe 37 and the feeding horizontal pipe 38 so as to prevent the quicklime from falling into the reaction chamber 6, and a strip magnet 48 corresponding to the annular magnet 45 is fixedly arranged on the movable piston 46.

Throw the one end that the material standpipe 37 extended to in the reacting chamber 6 and be located the push plate 35 top position, the ring channel on the rotating member 40 sets up to end's ring channel, pole gear 42 middle-end position rotates with support 41 to be connected, ring magnet 45 sets up with rectangular magnet 48 with homopolar repulsion state, utilize the homopolar repulsion force between ring magnet 45 and the rectangular magnet 48, and then let the movable piston 46 open with the closed material standpipe 37 of throwing, fourth spring 47 level welds in throwing the horizontal pipe 38 one end of material, movable piston 46 horizontal slip cover is located and is thrown in the horizontal pipe 38 of throwing material.

The dust removing mechanism comprises a dust collecting filter opening 49 and an air outlet filter opening 50 which are respectively arranged in the dust removing chamber 7, external dust-containing air enters the dust removing chamber 7 through the dust collecting filter opening 49, the dust is removed through the dust removing mechanism, the dust removing chamber 7 is separated from the air outlet filter opening 50, a dust collecting fan 53 which is matched with the dust collecting filter opening 49 in the dust removing chamber 7 is fixedly sleeved on a dust removing shaft 51, a filter screen 55 and a cooler 54 which corresponds to the output end of the water delivery pipe 22 are respectively and fixedly arranged in the dust removing chamber 7, a return pipe 56 which is communicated with the water pressurizing chamber 5 and is provided with a one-way valve is fixedly arranged at the lower end of the dust removing chamber 7, and when the pressure plate 8 is prevented from moving downwards by the one-way valve in the return pipe 56, a water source in the water pressurizing chamber 5 is pressed into the return pipe 56.

One end that raceway 22 extends to in the clean room 7 is located cooler 54 top position, and the selectable product model of cooler 54 is the BR0.1 type, and the one end that back flow 56 extends to in the clean room 7 is located filter screen 55 below position, filters the water source that will carry out the dust removal operation through filter screen 55 to improve the high-efficient utilization of water resource, and the one end that back flow 56 communicates pumping chamber 5 is located clamp plate 8 below position.

The invention can be illustrated by the following operating modes:

when the heat dissipation and dust removal maintenance of the textile machine on the textile machine frame 2 is required, the motor 3 is started;

the output end of the motor 3 drives the driving shaft 4 to rotate, the driving shaft 4 drives the water pressing cam 12 to rotate, the water pressing cam 12 extrudes the vertical rod 10 to move downwards in the first sliding groove 9, the vertical rod 10 pulls open the first spring 11, the vertical rod 10 drives the pressing plate 8 to move together, a low-temperature water source in the water pressing chamber 5 is pressed into the radiating pipe 14, the radiating pipe 14 is wound on the textile machine frame 2 to take away heat generated by the operation of the textile machine, and high-temperature heat conducted by the textile machine frame 2 is conducted to the radiating pipe 14 due to large-range low-temperature cold compress;

then, water in the radiating pipe 14 extends to one end of the reaction chamber 6 in the radial direction, the driving shaft 4 drives the feeding shaft 15 to rotate through the first belt pulley 16, the feeding shaft 15 drives the rotating part 40 to rotate, the rotating part 40 drives the long rod gear 42 to rotate, so that the long rod gear 42 deflects left and right at a connection point with the support 41, the long rod gear 42 is meshed with the driven rack 44 for transmission, the driven rack 44 moves back and forth in the sleeve 43 in the left and right direction, the driven rack 44 drives the annular magnet 45 to move together, the annular magnet 45 and the long rod magnet 48 repel each other in the same pole, so that the moving piston 46 moves inwards, the moving piston 46 extrudes the fourth spring 47, the connection part of the feeding vertical pipe 37 and the feeding transverse pipe 38 is opened, and quick lime in the material chamber 39 falls into the reaction chamber 6 from the feeding vertical pipe 37;

then the feeding shaft 15 drives the driving gear 19 to rotate, the driving gear 19 is respectively meshed with the first driven gear 20 and the second driven gear 21 for transmission, so that the first rotating shaft 17 and the second rotating shaft 18 synchronously rotate, the first rotating shaft 17 drives the first cam 26 to rotate, the first cam 26 drives the first piston 25 to move downwards, the first piston 25 extrudes the second spring 24 to open the first through hole 23, water in the radiating pipe 14 flows out from the first through hole 23 and reacts with quicklime to generate heat to heat excess water into steam, under the elastic action of the second spring 24, the first piston 25 returns to the initial position to block the first through hole 23, meanwhile, the second rotating shaft 18 drives the second cam 30 to rotate, the second cam 30 drives the second piston 29 to move downwards, and the second piston 29 extrudes the third spring 28 to open the second through hole 27;

specifically, the first rotating shaft 17 and the second rotating shaft 18 rotate in the same direction, and the first through hole 23 and the second through hole 27 are alternately opened and closed by reversely arranging the first cam 26 and the second cam 30;

the feeding shaft 15 drives the rotating shaft 31 to rotate through the second belt pulley 32, the rotating shaft 31 drives the pressing cam 33 to rotate, the pressing cam 33 drives the traction rod 36 to deflect and move up and down, the traction rod 36 drives the pushing plate 35 to move up and down in the second sliding groove 34, and the pushing plate 35 moving up pushes steam into the second through hole 27 to further move into the water conveying pipe 22;

secondly, steam in the water conveying pipe 22 flows into one end extending into the dust removing chamber 7, the steam flows to the upper end of the cooler 54, the steam is condensed into water drops through the cooler 54 and falls into the dust removing chamber 7, the feeding shaft 15 drives the dust removing shaft 51 to rotate through the third belt pulley 52, the dust removing shaft 51 drives the dust removing fan 53 to rotate, lint generated by the textile machine working is sucked into the dust removing chamber 7 through the dust removing filter opening 49, the fallen water drops are wetted and fall onto the filter screen 55, impurities in the water are blocked on the filter screen 55 through the filter screen 55, the filtered water enters the return pipe 56 and then flows back into the water pressing chamber 5 from the return pipe 56.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered as the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.

Claims

1. The utility model provides a weaving is with weaving quick-witted weaving dirt collection device of weaving, includes organism (1), its characterized in that, fixed mounting has quick-witted frame (2) of weaving that is used for placing installation weaving machine on organism (1), fixed mounting has motor (3) on organism (1), rotate in organism (1) and install driving shaft (4) with motor (3) output end fixed connection, horizontal rotation installs in organism (1) throws material axle (15) of being connected with driving shaft (4) transmission, and in organism (1) respectively horizontal rotation install with throw material axle (15) transmission be connected first axis of rotation (17) and second axis of rotation (18), horizontal rotation installs in organism (1) by throwing material axle (15) transmission driven rotation axis (31) and dust removal axle (51), on organism (1) respectively fixedly connected with pressurized-water chamber (5), The machine body (1) is provided with a heating mechanism capable of heating the water source and a feeding mechanism matched with the heating mechanism through the reaction chamber (6), and the machine body (1) is provided with a dust removal mechanism capable of cleaning and sorting wool produced by a textile machine through the dust removal chamber (7).

2. A textile dust collecting device of a textile machine according to claim 1, the water pressing chamber (5) and the reaction chamber (6) are respectively arranged at the two sides of the textile machine frame (2), the first rotating shaft (17) and the second rotating shaft (18) are horizontally and symmetrically arranged at two sides below the feeding shaft (15), a first belt pulley (16) is connected between the driving shaft (4) and the feeding shaft (15), a driving gear (19) is connected on the driving shaft (4) in a key way, and the first rotating shaft (17) and the second rotating shaft (18) are respectively connected with a first driven gear (20) and a second driven gear (21) which are meshed and connected with the driving gear (19), a second belt pulley (32) is connected between the rotating shaft (31) and the feeding shaft (15), and a third belt pulley (52) is connected between the dedusting shaft (51) and the feeding shaft (15).

3. The textile dust collecting device of the textile machine for textile use according to claim 1, wherein the pressure applying mechanism comprises a pressing plate (8) slidably sleeved in a pressing chamber (5), a first sliding groove (9) is formed in the pressing chamber (5), a first spring (11) and a vertical rod (10) fixedly connected with the pressing plate (8) are respectively arranged in the first sliding groove (9), a pressing cam (12) corresponding to the vertical rod (10) is fixedly sleeved on the driving shaft (4), and a water inlet pipe (13) provided with a one-way valve and a radiating pipe (14) wound on the textile machine frame (2) and communicated with the reaction chamber (6) are respectively and fixedly arranged in the pressing chamber (5).

4. The textile dust collecting device of the textile machine according to claim 3, wherein the first spring (11) is vertically welded in the first sliding groove (9), the vertical rod (10) is slidably sleeved in the first sliding groove (9), the water pressing cam (12) is movably abutted against the vertical rod (10), and one end of the water inlet pipe (13) and the heat radiating pipe (14) communicated with the water pressing chamber (5) is always located below the pressing plate (8).

5. The textile dust collecting device of the textile machine for textile use according to claim 3, wherein the heating mechanism comprises a water pipe (22) communicating the reaction chamber (6) and the dust chamber (7), a first through hole (23) is opened in one end of the heat dissipation pipe (14) extending into the reaction chamber (6), a second spring (24) and a first piston (25) which are connected are respectively arranged in the first through hole (23), and a first cam (26) which is eccentrically arranged and movably abutted against the outer end of the first piston (25) is fixedly sleeved on the first rotating shaft (17);

set up second through-hole (27) in raceway (22), be provided with connected third spring (28) and second piston (29) in second through-hole (27) respectively, fixed mounting has eccentric settings and second cam (30) that offsets with second piston (29) outer end activity on second axis of rotation (18), fixed mounting has pressure cam (33) that is located reacting chamber (6) on rotation axis (31), set up second spout (34) in reacting chamber (6), sliding sleeve is equipped with slurcam (35) in second spout (34), rotate on pressure cam (33) and be connected with traction lever (36) of being connected with slurcam (35).

6. The textile dust collecting device of the textile machine of claim 5, wherein the first through hole (23) and the second through hole (27) are always located above the pushing plate (35), the second spring (24) and the third spring (28) are fixedly sleeved on the outer end positions of the first piston (25) and the second piston (29) extending out of the first through hole (23) and the second through hole (27), respectively, and the first cam (26) and the second cam (30) are oppositely arranged.

7. The textile dust collecting device of the textile machine for textile use according to claim 1, wherein the feeding mechanism comprises a feeding vertical pipe (37) fixedly arranged in the reaction chamber (6), the feeding vertical pipe (37) is integrally communicated with a feeding horizontal pipe (38), the upper end of the feeding vertical pipe (37) is fixedly connected with a material chamber (39) for containing quicklime, the feeding shaft (15) is fixedly connected with a rotating piece (40) with an annular groove formed on the surface, a support (41) and a sleeve (43) are fixedly arranged outside the reaction chamber (6), the rotating piece (40) is slidably sleeved with a long rod gear (42) movably arranged on the support (41) through the annular groove, a driven rack (44) meshed and connected with the long rod gear (42) is slidably sleeved in the sleeve (43), and an annular magnet (45) fixedly connected with the driven rack (44) is slidably sleeved outside the feeding horizontal pipe (38), and a fourth spring (47) and a movable piston (46) which are connected are respectively arranged in the feeding transverse pipe (38), and a strip magnet (48) corresponding to the annular magnet (45) is fixedly arranged on the movable piston (46).

8. The textile dust collecting device of the textile machine of claim 7, wherein the feeding vertical tube (37) extends into the reaction chamber (6) at one end thereof above the pushing plate (35), the annular groove on the rotary member (40) is provided as an end-to-end annular groove, the middle end of the long rod gear (42) is rotatably connected with the bracket (41), the annular magnet (45) and the long rod magnet (48) are arranged in a homopolar repulsion state, the fourth spring (47) is horizontally welded into one end of the feeding transverse tube (38), and the moving piston (46) is horizontally slidably sleeved in the feeding transverse tube (38).

9. The textile dust collecting device of the textile machine for textile use according to claim 1, wherein the dust removing mechanism comprises a dust suction filter opening (49) and an air outlet filter opening (50) which are respectively arranged in the dust removing chamber (7), the dust removing shaft (51) is fixedly sleeved with a dust suction fan (53) which is matched with the dust suction filter opening (49) in the dust removing chamber (7), the dust removing chamber (7) is respectively and fixedly provided with a filter screen (55) and a cooler (54) corresponding to the output end of the water pipe (22), and the lower end of the dust removing chamber (7) is fixedly provided with a return pipe (56) which is communicated with the water pressing chamber (5) and is provided with a one-way valve.

10. The textile dust collecting device of the textile machine of claim 9, wherein one end of the water duct (22) extending into the dust chamber (7) is located above the cooler (54), one end of the return duct (56) extending into the dust chamber (7) is located below the filter screen (55), and one end of the return duct (56) communicating with the water pressure chamber (5) is located below the pressure plate (8).