CN115198466B - Hot air duct adjusting method and adjusting device for tentering setting machine - Google Patents

Abstract

The invention relates to the technical field of tentering setting machines, in particular to a hot air duct adjusting method for a tentering setting machine and an adjusting device thereof, comprising an air duct shell, wherein the air duct shell is fixedly connected in parallel, a tightening roller is arranged on the air duct shell through a maintenance mechanism, an air duct inner bin is fixedly connected to the inner bottom surface of the air duct shell, a cavity is formed in the air duct inner bin, a guide mechanism is arranged on the inner surface of the air duct inner bin, a fan is arranged on the surface of the air duct shell, and the output end of the fan is fixedly connected to the surface of the air duct inner bin through the air duct shell and communicated with the cavity formed in the air duct inner bin; the invention provides a hot air duct adjusting device for a tentering setting machine, which can provide free adjustment of hot air quantity, hot air temperature and hot air outlet, so that a woven fabric which is conveyed in the air duct and subjected to tentering setting treatment can receive hot air treatment from any position, air quantity and temperature.

Description

Hot air duct adjusting method and adjusting device for tentering setting machine

Technical Field

The invention relates to the technical field of tentering setting machines, in particular to a hot air duct adjusting method for a tentering setting machine and an adjusting device thereof.

Background

The tentering setting machine is a pneumatic control lifting heat-insulating door plate setting machine, can be widely applied to the after-finishing procedures of various textiles such as printing and dyeing, dyeing and finishing, woven fabrics, knitted fabrics and the like, can effectively carry out softening, stiffening, anti-skidding, tentering, resin and the like on the fabrics to improve the handfeel, slippage, color, breadth, strength, appearance and the like of the fabrics, and can also play a role in stabilizing the size of non-pure cotton varieties.

For the invention patent number CN 103061072B: the invention discloses a hot air duct for a tentering setting machine oven, which comprises an air duct body, wherein an air outlet penetrating through the whole air duct body is formed in the air duct body, a nozzle is outwards extended from the air outlet, the nozzle comprises an air homogenizing duct which is hermetically connected with the air duct body, the end part of the air homogenizing duct is a nozzle opening, and the nozzle opening is arc-shaped;

however, in some specific conditions, the knitted fabric needs to be subjected to hot air treatment at a specific position, and with the development of technology, the problem of hot air utilization rate is not the most important and urgent problem to be solved;

The hot air duct of the existing tentering setting machine does not have an adjusting function, the only adjustable hot air duct is to change the size of hot air output only by changing the power of hot air equipment, and the adjusting can not effectively improve the tentering setting effect of the knitted fabric subjected to the tentering setting process.

Disclosure of Invention

Aiming at the defects existing in the prior art, the invention provides the hot air duct adjusting method for the tentering setting machine and the adjusting device thereof, which can effectively solve the problems that the hot air duct of the existing tentering setting machine does not have an adjusting function, the only adjustable hot air duct is to change the output size of hot air only by changing the power of hot air equipment, and the adjusting can not effectively improve the tentering setting effect of the braided fabric subjected to the tentering setting process.

In order to achieve the above purpose, the invention is realized by the following technical scheme:

the hot air duct adjusting method for the tentering setting machine and the adjusting device thereof comprise an air duct shell, wherein the air duct shell is fixedly connected in parallel, a tightening roller is arranged on the air duct shell through a maintenance mechanism, an inner air duct bin is fixedly connected to the inner bottom surface of the air duct shell, a cavity is formed in the inner air duct bin, a guide mechanism is arranged on the inner surface of the inner air duct bin, a fan is arranged on the surface of the air duct shell, and an output end of the fan penetrates through the air duct shell and is fixedly connected to the surface of the inner air duct bin and communicated with the cavity formed in the inner air duct bin;

The utility model discloses a wind channel, including wind channel, inside cavity, the inside symmetry of bin, the inside guide rail has been seted up in one side of wind channel, the inside symmetry sliding connection of second electric slide rail has the second slider, the one end fixedly connected with cover piece that the second slider is close to each other, the bottom surface of cover piece is inserted and is equipped with the inserted block, the internally mounted of cover piece has first electric telescopic handle, the one end and the inserted block fixed connection of first electric telescopic handle, the perforation has been seted up to the inside equidistance symmetry in the wind channel inner bin, perforation offsets with the inserted block, the surface mounting in wind channel inner bin has distribution collection mechanism.

Still further, maintenance mechanism includes the frame plate, the top fixedly connected with frame plate of frame plate, the surface of frame plate runs through the bearing and inserts and be equipped with the gear piece, the top surface symmetry of wind channel shell inserts and is equipped with the driven plate, the equidistant fixedly connected with tooth in surface of driven plate, the driven plate meshes with the gear piece through fixed surface connection's tooth, the fixed surface of driven plate is connected with the connecting piece that buckles, the one end of connecting piece that buckles all is connected with through the bearing and tightens the roller, every two sets of the connecting piece that buckles is rotation symmetry distribution and driven plate surface, one of them set of the fixed surface of frame plate is connected with the installation pole, the surface mounting of installation pole has first motor, the output of first motor and one of them set of gear piece fixed connection, wherein two sets of the surface sleeve of gear piece has first driving roller, the surface sleeve of first driving roller is equipped with first driving belt, one of them set of first driving roller and the homonymy end fixedly connected with second driving roller of gear piece, the surface sleeve is equipped with the driving belt of second driving roller.

Still further, guiding mechanism is including tentering setting roller, keeps away from each other two sets of the surface mounting of wind channel shell has tentering setting roller, the interior surface fixedly connected with of storehouse is first electric slide rail in the wind channel, the surface sliding connection of first electric slide rail has first slider, the surface fixedly connected with connecting rod of first slider, the surface of connecting rod is equipped with the clamping lever through the bearing housing, the surface hinge of clamping lever has the arc clamping plate, the cover is equipped with torsion spring on the articulated axle mutually of arc clamping plate and clamping lever, torsion spring's both ends are connected with clamping lever, arc clamping plate respectively.

Furthermore, the surface of the air duct shell is fixedly connected with a heating bin, the input end of the fan is fixedly connected with an air guide pipe, one end of the air guide pipe is fixedly connected with the heating bin, and the heating bin is communicated with a cavity formed in the air duct inner bin through the fan and the air guide pipe.

Still further, the inside symmetry fixedly connected with fixed plate of heating storehouse, the surface of fixed plate runs through and inserts and be equipped with the electric heat body of rod, the one end that the electric heat body of rod kept away from each other is connected with external power supply through the electrical property, the surface cover of electric heat body of rod is equipped with connecting spring, connecting spring's both ends respectively with fixed plate, electric heat body of rod fixed connection, the spout has been seted up to the inside symmetry of heating storehouse, the spout sliding connection that the heating storehouse was offered through inside has the guide block, the surface equidistance of guide block runs through and peg graft has the electric heat docking rod, the surface of guide block runs through the screw thread and has been inserted the transfer line, the top of transfer line passes through the inside roof at the heating storehouse through the bearing, the bottom of transfer line passes the heating storehouse and extends to the outside of heating storehouse, the transfer line is connected with the shrouding through link gear.

Still further, the link gear includes drive gear, drive gear has been cup jointed on the surface of drive rod, the spout has been seted up to the bottom surface of heating storehouse, the spout sliding connection that the heating storehouse was seted up through the bottom surface has the rack, the tooth's socket has been seted up to one side of rack, the rack meshes with drive gear through the tooth's socket that one side was seted up, the one end of rack is connected with the gangbar through the pivot, the one end of gangbar is connected with the surface of shrouding through the pivot, the shrouding is inserted and is established in one side of heating storehouse, the bottom surface fixedly connected with fixed block of heating storehouse, the surface of fixed block is connected with first gag lever post through the pivot, the guide slot has been seted up in the guide slot that the gangbar surface was seted up in the one end of first gag lever post is inserted.

Still further, distributing and collecting mechanism includes the installation flat board, the fixed surface in storehouse is connected with the installation flat board in the wind channel, the internally mounted of installation flat board has the second motor, the output of second motor has cup jointed the connecting plate, the annular has been seted up on the surface of installation flat board, the annular sliding connection that the installation flat board surface was opened has the second gag lever post, the guide slot has been seted up in the surface run-through of connecting plate, the connecting plate is established at the surface of second gag lever post through the guide slot cover that the surface run-through was seted up, the one end of second gag lever post is equipped with the butt plate through the pivot cover, the fixed surface of butt plate is connected with T shape conveyer, the spout has been seted up on the surface of installation flat board, the spout sliding connection that the installation flat board was seted up through the surface has the slide, the spout that one side was seted up through the spout and T shape conveyer sliding connection of one side.

Still further, the surface in storehouse is connected with first axostylus axostyle through the bearing in the wind channel, the third driving roller has been cup jointed on the surface of first axostylus axostyle, another group of third driving roller has been cup jointed on the output surface of second motor, two sets of the surface cover of third driving roller is equipped with the third drive belt, and one of them set of the surface provision of third driving roller is connected with the fourth driving roller, the surface in the wind channel is connected with the second shaft through the bearing in the storehouse, another group of fourth driving roller has been cup jointed on the surface of second shaft, two sets of the surface cover of fourth driving roller is equipped with the fourth driving belt, the fixed surface of second shaft is connected with the plectrum.

Still further, the surface mounting of storehouse in the wind channel has two sets of electronic telescopic links of second, the one end fixedly connected with division board of electronic telescopic link, the perforation with division board looks adaptation is seted up on the surface of storehouse in the wind channel, the opening has been seted up on the surface of storehouse in the wind channel, the cavity that opens in the wind channel is linked together with the outside of storehouse in the wind channel through the opening of storehouse surface in the wind channel, the division board looks adaptation of opening of storehouse surface in with the wind channel.

A hot air duct adjusting method for a tentering setting machine comprises the following steps:

Step1: the user can pull the arc clamping plate to rotate and open along the hinge shaft hinged with the clamping rod, one end of the braided fabric is placed on the surface of the clamping rod and laid flat, then the arc clamping plate is loosened, and the arc clamping plate clamps the end head of the braided fabric by means of the torsion spring acting force connected with the hinge shaft and the clamping rod;

step2: then, the first electric slide rail is started to drive the connecting rod connected with the first slide piece to pass through the air duct shell until the connecting rod passes through the other end of the air duct shell, then the clamping rod and the arc clamping plate on the surface of the connecting rod are operated to take down the braided fabric, the surface of the tentering shaping roller arranged on the side is subjected to conduction transportation by the tentering shaping roller, and the braided fabric is subjected to hot air treatment in the air duct shell;

step3: when the braided fabric is transmitted in the air duct shell, a user starts the fan, the input end of the fan extracts air from the outside through the heating bin connected with the air guide pipe and heats the air in the heating bin, the user rotates the transmission rod in sequence, the transmission rod drives the connecting spring to slide along the sliding chute formed in the heating bin through the screw action, so that the guide block moves in the heating bin along the sliding chute, the electric heating butt-joint rods transmitted on the surface of the guide block are equidistantly arranged but are unequal in thickness, the user drives the electric heating butt-joint rods to abut against the electric heating rod through the transmission rod, the electric heating rod and the electric heating butt-joint rods form a passing through mode that the electric heating rod abuts against the electric heating butt-joint rods, the electric heating rod is abutted against the inside of the fixing plate to slide so that the connecting spring is compressed and stretched to reset, and different resistances are brought about due to unequal thicknesses of the electric heating butt-joint rods, and corresponding temperatures can be generated by the user in the mode that the electric heating butt-joint rods are externally connected with power sources;

Step4: when the transmission rod is rotated, the transmission gear sleeved on the surface of the transmission rod drives the meshed toothed bar to slide along the chute formed in the bottom surface of the heating bin in a state of following the rotation of the transmission rod, the movement of the toothed bar drives the linkage rod hinged at the end of the toothed bar to incline under the limit of the first limit rod, and both ends of the linkage rod rotate along the hinge shaft and the rotating shaft, so that the sealing plate is synchronously driven to slide on one side of the heating bin to gradually open the opening of the side edge of the heating bin in the process of rotating the transmission rod, and a damping effect exists in the process of moving the electric heating rod body in the fixed plate;

step5: the obtained hot air in the heating bin is transmitted to an inner cavity of the inner bin of the air duct from the output end of the fan, air is sprayed out of perforations on the inner annular surface of the inner bin of the air duct to contact with the surface of the braided fabric, the braided fabric is assisted in tentering and shaping, a user starts a second motor (the initial positions of a second sliding piece and a sleeve block are positioned in a guide rail) according to the number and the positions of the perforations on the inner annular surface of the inner bin of the air duct, the output end of the second motor drives a connecting plate to rotate, the connecting plate drives a second limiting rod to move in an annular groove formed in the surface of the installation plane plate in the rotating process, and an abutting plate connected with the second limiting rod drives a T-shaped transmission piece connected with the second limiting rod to do circular-state curve motion;

Step6: in the process, the sliding plate slides in the sliding grooves formed in the surface of the sliding plate, the T-shaped conveying piece is in contact with and drives the sliding plate to slide in the sliding grooves formed in the surface of the mounting plane plate, a group of second sliding pieces and sleeve blocks fall into the tracks of the second electric sliding rail under the gradual driving of the T-shaped conveying piece, the second sliding pieces and the sleeve blocks are rearranged and driven by the second electric sliding rail, the T-shaped conveying piece is further driven to move according to the holes required to be blocked by the second sliding pieces and the sleeve blocks in the driving process, the groups of second sliding pieces and the sleeve blocks are further driven to move down, the groups of second sliding pieces and the sleeve blocks reach the corresponding positions of the holes of the inner annular surfaces of the inner bin of the air duct, at the moment, the first electric telescopic rod can be started, the first electric telescopic rod is used for completing the telescopic push of the inserted blocks in the sleeve blocks out of the holes of the inner annular surfaces of the inner bin of the air duct, and then the second electric telescopic rod is started, and the second electric telescopic rod is retracted and pushed into the inner bin of the air duct to separate the second electric sliding rail and the guide rail, so that the second sliding pieces are prevented from falling off the sliding pieces;

step7: at the moment, hot air is sprayed out of the remaining unblocked perforations to treat the surface of the braided fabric required by a user, if the device is not used for a long time, the user can start the second motor, the output end of the second motor is reversed, the second electric telescopic rod is driven to carry the partition plate to withdraw from the inner part of the air duct inner bin, the joint of the second electric sliding rail and the guide rail is opened again, and the reverse rotation of the output end of the second motor can lead the T-shaped conveying piece to perform reverse curve motion in a circumferential state in the same way;

Step8: the rotation of the output end of the second motor drives a third driving roller sleeved on the surface of the second motor to move, the third driving roller is driven by a third driving belt to rotate, the third driving roller synchronously drives a fourth driving roller connected with the third driving roller to rotate in the rotation process, the fourth driving roller drives the other group of fourth driving rollers on the surface of the second shaft to rotate through the fourth driving belt in the transmission process, the second shaft synchronously rotates, a pulling piece on the surface of the second shaft in the rotation process sequentially pulls the second sliding rail to move to the second sliding piece and the sleeve block at the joint of the second sliding rail and the guide rail to enter the guide rail, and after the second sliding piece and the sleeve block enter the guide rail, the second sliding piece and the sleeve block are pushed into deeper parts of the guide rail by a T-shaped transmission piece in a reverse operation mode, so that the second sliding piece and the sleeve block are collected and the device enters a shutdown state;

step9: when the braided fabric is conveyed in an inner bin of an air duct in an air duct shell, the braided fabric is subjected to hot air treatment and is possibly loosened due to the change of the air quantity of the hot air, the temperature and other reasons, at the moment, a user can start a first motor according to actual conditions, the output end of the first motor drives a gear part to rotate, and the gear part can drive two groups of driven plates meshed with the gear part to do up-down opposite movement in the rotating process, so that a tightening roller connected with a bending connecting piece on the surface of the driven plates is in a state of up-down and comfortable to the braided fabric to a certain extent, the surface of the tightening roller can make the tightening roller roll to conduct auxiliary conduction to the braided fabric by virtue of friction, and a certain degree of tightening effect is brought to the braided fabric by the tightening roller;

Step10: the gear piece is rotated through another group of first driving rollers that its surface cup jointed first driving roller drive first driving belt connection, the rotation of first driving roller can drive the first driving roller that reorganizes first driving roller connection and rotate together, the second driving roller that synchronous first driving roller connects follows its rotation, and rotate through another group of second driving rollers of second driving belt drive in the in-process of rotation, the gear piece that another group of second driving roller links can be rotated by the transmission in step, thereby enlarged the tight roller and to the basketwork area of tightening effect that brings.

Compared with the known public technology, the technical scheme provided by the invention has the following beneficial effects:

1. the invention provides a hot air duct adjusting device for a tentering setting machine, which can provide free adjustment of hot air quantity, hot air temperature and hot air outlet, so that a woven fabric which is conveyed in the air duct and subjected to tentering setting treatment can receive hot air treatment from any position, air quantity and temperature.

2. The invention can effectively carry out further tightening treatment on the tentering shaping braided fabric in the air duct, thereby avoiding the situation that the braided fabric is only loosened when the air quantity and the temperature of hot air are regulated and changed.

Drawings

In order to more clearly illustrate the technical solutions of the present invention or the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It is evident that the drawings in the following description are only some embodiments of the present invention and that other drawings may be obtained from these drawings without inventive effort for a person of ordinary skill in the art.

Fig. 1 is a schematic perspective view of a hot air duct adjusting device for a tenter setting machine.

Fig. 2 is a partially exploded view of the maintenance mechanism according to the present invention.

Fig. 3 is a schematic view of a part of the structure of the guiding mechanism according to the present invention.

Fig. 4 is a schematic exploded view of a hot air adjusting part according to the present invention.

FIG. 5 is a schematic diagram of the independent structure of a single cartridge body according to the present invention.

Fig. 6 is a schematic cross-sectional view of an independent structure of the plugging member in the present invention.

Fig. 7 is a schematic view of the internal structure of fig. 5 according to the present invention.

Fig. 8 is a partially exploded view of the top side-down structure of fig. 7 in accordance with the present invention.

Fig. 9 is an enlarged schematic view of a partial structure at a in fig. 8 according to the present invention.

Reference numerals in the drawings represent respectively: 1. an air duct housing; 2. a frame plate; 3. a gear member; 4. a passive plate; 5. bending the connecting piece; 6. a tightening roller; 7. a mounting rod; 8. a first motor; 9. a first driving roller; 10. a first belt; 11. a second driving roller; 12. a second belt; 13. tentering setting rollers; 14. a first electrical slide rail; 15. a first slider; 16. a connecting rod; 17. a clamping rod; 18. an arc clamping plate; 19. a blower; 20. a heating bin; 21. an air guide pipe; 22. a fixing plate; 23. an electric heating rod body; 24. a connecting spring; 25. a guide block; 26. electric heating butt joint rod; 27. a transmission rod; 28. a transmission gear; 29. a toothed bar; 30. a linkage rod; 31. a sealing plate; 32. a fixed block; 33. a first stop lever; 34. an inner bin of the air duct; 35. a second electrical slide rail; 36. a guide rail; 37. a second slider; 38. sleeving blocks; 39. inserting blocks; 40. a first electric telescopic rod; 41. a second motor; 42. a connecting plate; 43. a second limit rod; 44. an abutting plate; 45. a T-shaped transfer member; 46. a slide plate; 47. a first shaft; 48. a third driving roller; 49. a third belt; 50. a fourth driving roller; 51. a fourth belt; 52. a second shaft; 53. a pulling piece; 54. a second electric telescopic rod; 55. a partition plate; 56. and (5) installing a plane plate.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings. It will be apparent that the described embodiments are some, but not all, embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The invention is further described below with reference to examples.

Example 1

The embodiment relates to a hot air duct adjusting method for a tenter setting machine and an adjusting device thereof, and referring to fig. 1 to 9: the air duct comprises an air duct shell 1, wherein the air duct shell 1 is fixedly connected in parallel, a tightening roller 6 is arranged on the air duct shell 1 through a maintenance mechanism, an air duct inner bin 34 is fixedly connected to the inner bottom surface of the air duct shell 1, a cavity is formed in the air duct inner bin 34, a guide mechanism is arranged on the inner surface of the air duct inner bin 34, a fan 19 is arranged on the surface of the air duct shell 1, and the output end of the fan 19 penetrates through the air duct shell 1 and is fixedly connected to the surface of the air duct inner bin 34 to be communicated with the cavity formed in the air duct inner bin 34;

The second electric slide rail 35 is symmetrically arranged in the cavity formed in the air duct inner bin 34, the guide rail 36 is arranged in one side of the air duct inner bin 34, the second slide rail 35 is symmetrically and slidingly connected with the second slide piece 37, one end, close to each other, of the second slide piece 37 is fixedly connected with the sleeve block 38, the inserting block 39 is inserted into the bottom surface of the sleeve block 38, the first electric telescopic rod 40 is arranged in the sleeve block 38, one end of the first electric telescopic rod 40 is fixedly connected with the inserting block 39, through holes are symmetrically formed in the air duct inner bin 34 at equal intervals, the through holes are propped against the inserting block 39, and the distributing and collecting mechanism is arranged on the surface of the air duct inner bin 34.

Wherein, guiding mechanism includes tentering setting roller 13, the surface mounting who keeps away from two sets of wind channel shells 1 each other has tentering setting roller 13, the interior surface fixedly connected with first electric slide rail 14 of storehouse 34 in the wind channel, the surface sliding connection of first electric slide rail 14 has first slider 15, the fixed surface of first slider 15 is connected with connecting rod 16, the surface of connecting rod 16 is equipped with clamping lever 17 through the bearing housing, clamping lever 17's surface articulates there is arc clamping plate 18, the cover is equipped with torsion spring on the articulated axle that clamping lever 17 was mutually with arc clamping plate 18, torsion spring's both ends are connected with clamping lever 17, arc clamping plate 18 respectively.

Wherein, the surface fixedly connected with heating storehouse 20 of wind channel shell 1, the input fixedly connected with guide duct 21 of fan 19, the one end and the heating storehouse 20 fixed connection of guide duct 21, heating storehouse 20 is linked together with the inside cavity that opens of storehouse 34 in the wind channel through fan 19 and guide duct 21.

Wherein, the inside symmetry fixedly connected with fixed plate 22 of heating storehouse 20, the surface of fixed plate 22 runs through and inserts and be equipped with the electric heat body of rod 23, the one end that electric heat body of rod 23 kept away from each other is connected with external power supply through the electrical property, the surface cover of electric heat body of rod 23 is equipped with connecting spring 24, connecting spring 24's both ends respectively with fixed plate 22, electric heat body of rod 23 fixed connection, the spout has been seted up to the inside symmetry of heating storehouse 20, the spout sliding connection that heating storehouse 20 was offered through inside has guide block 25, the surface equidistance of guide block 25 runs through and has been pegged graft and has electric heat docking rod 26, the surface of guide block 25 runs through and has been inserted through the transfer line 27 through the screw thread, the top of transfer line 27 passes through the inside roof at heating storehouse 20 through the bearing, the bottom of transfer line 27 passes the outside that heating storehouse 20 extends to heating storehouse 20 through the bearing, transfer line 27 is connected with shrouding 31 through the link gear.

Wherein, the link gear includes drive gear 28, drive gear 28 has been cup jointed on the surface of transfer line 27, the spout has been seted up to the bottom surface of heating storehouse 20, the spout sliding connection that the heating storehouse 20 was seted up through the bottom surface has toothed bar 29, the tooth's socket has been seted up to one side of toothed bar 29, toothed bar 29 meshes with drive gear 28 through the tooth's socket that one side was seted up, the one end of toothed bar 29 is connected with the gangbar 30 through the pivot, the one end of gangbar 30 is connected with the surface of shrouding 31 through the pivot, shrouding 31 inserts and establishes in one side of heating storehouse 20, the bottom surface fixedly connected with fixed block 32 of heating storehouse 20, the surface of fixed block 32 is connected with first gag lever post 33 through the pivot, the guide slot has been seted up in the surface penetration of gangbar 30, the one end of first gag lever 33 is inserted and is established in the guide slot that the gangbar 30 surface was seted up.

The distributing and collecting mechanism comprises a mounting plane plate 56, the surface of the air duct inner bin 34 is fixedly connected with the mounting plane plate 56, a second motor 41 is mounted in the mounting plane plate 56, a connecting plate 42 is sleeved at the output end of the second motor 41, an annular groove is formed in the surface of the mounting plane plate 56, a second limiting rod 43 is connected in a sliding manner in the annular groove formed in the surface of the mounting plane plate 56, a guide groove is formed in the surface of the connecting plate 42 in a penetrating manner, the connecting plate 42 is sleeved on the surface of the second limiting rod 43 through the guide groove formed in the penetrating manner, one end of the second limiting rod 43 is sleeved with a butt plate 44 through a rotating shaft, the surface of the butt plate 44 is fixedly connected with a T-shaped conveying member 45, a sliding groove is formed in the surface of the mounting plane plate 56, a sliding plate 46 is connected with a sliding plate 46 through the sliding groove formed in the surface, a sliding groove is formed in one side of the sliding plate 46, and the sliding plate 46 is in sliding connection with the T-shaped conveying member 45 through the sliding groove formed in one side.

The surface of the inner bin 34 of the air duct is connected with a first shaft rod 47 through a bearing, the surface of the first shaft rod 47 is sleeved with a third driving roller 48, the output end surface of the second motor 41 is sleeved with another group of third driving rollers 48, the surfaces of the two groups of third driving rollers 48 are sleeved with a third driving belt 49, the surface of one group of third driving rollers 48 is provided with a fourth driving roller 50, the surface of the inner bin 34 of the air duct is connected with a second shaft rod 52 through a bearing, the surface of the second shaft rod 52 is sleeved with another group of fourth driving rollers 50, the surfaces of the two groups of fourth driving rollers 50 are sleeved with a fourth driving belt 51, and the surface of the second shaft rod 52 is fixedly connected with a shifting plate 53.

Wherein, the surface mounting of storehouse 34 in the wind channel has two sets of second electric telescopic handle 54, and the one end fixedly connected with division board 55 of second electric telescopic handle 54, the perforation with division board 55 looks adaptation is seted up on the surface of storehouse 34 in the wind channel, and the opening has been seted up on the surface of storehouse 34 in the wind channel, and the cavity that opens in the wind channel 34 is linked together with the outside of storehouse 34 in the wind channel through the opening that the storehouse 34 surface opened in the wind channel, and division board 55 looks adaptation with the opening that storehouse 34 surface was seted up in the wind channel.

In the embodiment, a user can pull the arc clamping plate 18 to rotate along the hinge shaft hinged with the clamping rod 17 to open, one end of the braided fabric is placed on the surface of the clamping rod 17 and laid flat, then the arc clamping plate 18 is loosened, and the arc clamping plate 18 clamps the end of the braided fabric by means of the torsion spring acting force connected with the hinge shaft and matching with the clamping rod 17;

then, the first electric slide rail 14 is started to drive the connecting rod 16 connected with the first slide piece 15 to pass through the air duct shell 1 until the connecting rod passes through the other end of the air duct shell 1, then the clamping rod 17 and the arc clamping plate 18 on the surface of the connecting rod 16 are operated to take down the braided fabric, the surface of the tentering setting roller 13 arranged on the side is subjected to conduction transportation by the tentering setting roller 13, and the braided fabric is subjected to hot air treatment in the air duct shell 1;

When the braided fabric is conveyed in the air duct shell 1, a user starts the fan 19, the input end of the fan 19 extracts air from the outside through the heating bin 20 connected with the air guide pipe 21 and heats the air in the heating bin 20, the user rotates the transmission rod 27 in sequence, the transmission rod 27 drives the connecting spring 24 to slide along a sliding groove formed in the heating bin 20 through the threaded action, so that the guide block 25 moves along the sliding groove in the heating bin 20, the electric heating butt-joint rods 26 which are connected with the surface of the guide block 25 are equidistantly arranged but are unequal in thickness, the user drives the guide block 25 to drive the electric heating butt-joint rods 26 to abut against the electric heating butt-joint rods 23 through the rotating transmission rod 27, the electric heating rod 23 and the electric heating butt-joint rods 26 form a passing mode, in the abutting process of the electric heating rod 23 and the electric heating butt-joint rods 26, the electric heating rod 23 slides in the fixing plate 22, so that the connecting spring 24 performs compression and extension reset movements, the electric resistances with different sizes are brought by unequal cross sections of the electric heating butt-joint rods 26, and the user can generate corresponding temperatures by connecting the electric heating butt-joint rods 23 with external power sources;

when the transmission rod 27 is rotated, the transmission gear 28 sleeved on the surface of the transmission rod 27 drives the meshed toothed bar 29 to slide along a chute formed in the bottom surface of the heating bin 20 in a state of following the rotation of the transmission rod 27, the movement of the toothed bar 29 drives the linkage rod 30 hinged at the end of the toothed bar to incline under the limitation of the first limiting rod 33, and both ends of the linkage rod rotate along the hinge shaft and the rotating shaft, so that the sealing plate 31 slides on one side of the heating bin 20 in a synchronous transmission manner in the rotation process of the transmission rod 27 to gradually open an opening at the side edge of the heating bin 20, and a damping effect exists in the movement process of the electric heating rod body 23 in the fixed plate 22;

The obtained hot air in the heating bin 20 is transmitted to the inner cavity of the air duct inner bin 34 from the output end of the fan 19, the air is sprayed out of the perforations of the inner annular surface of the air duct inner bin 34 to contact with the surface of the braided fabric, the braided fabric is assisted in tentering and shaping, a user starts the second motor 41 (the initial positions of the second sliding piece 37 and the sleeve block 38 are positioned in the guide rail 36) according to the number and the positions of the perforations of the inner annular surface of the air duct inner bin 34, the output end of the second motor 41 drives the connecting plate 42 to rotate, the connecting plate 42 drives the second limiting rod 43 to move in the annular groove formed in the surface of the mounting plane plate 56 in the rotating process, and the butt joint plate 44 connected with the second limiting rod 43 drives the T-shaped conveying piece 45 connected with the second limiting rod to do curve motion in a circumferential state;

in the process, the sliding plate 46 slides in a sliding groove formed in the surface of the sliding plate 46, the sliding plate 46 synchronously slides in the sliding groove formed in the surface of the installation plane plate 56 by being in collision transmission of the T-shaped transmission piece 45, a group of second sliding pieces 37 and sleeve blocks 38 drop into the track of the second electric sliding rail 35 under the gradual transmission of the T-shaped transmission piece 45, the second sliding pieces 37 and the sleeve blocks 38 are rearranged and transmitted by the second electric sliding rail 35, in the transmission process, the T-shaped transmission piece 45 is further driven to move and drop the groups of second sliding pieces 37 and the sleeve blocks 38 according to the corresponding blocking holes required by the second sliding pieces 37 and the sleeve blocks 38, the groups of second sliding pieces 37 and the sleeve blocks 38 reach the corresponding positions of the inner annular surface holes of the inner bin 34 of the air duct, at the moment, the first electric telescopic rod 40 can be started, the first electric telescopic rod 40 can be used for completing the telescopic pushing out of the inner plug blocks 39 in the sleeve blocks 38 to block the inner annular surface holes of the inner bin 34 of the air duct, the second electric telescopic rod 54 is started, the second electric telescopic rod 54 is retracted and pushed by the partition plate 55 into the inner guide rails 36 of the inner part of the air duct bin 34, and the second sliding pieces 36 are prevented from being derailed;

At this time, hot air is sprayed out of the remaining unblocked perforations to perform hot air treatment on the surface of the knitted fabric required by the user, if the device is not used for a long time, the user can start the second motor 41, the output end of the second motor 41 is reversed, the second electric telescopic rod 54 is driven to withdraw the partition plate 55 from the interior of the air duct inner bin 34, the joint of the second electric sliding rail 35 and the guide rail 36 is re-opened, and the reversal of the output end of the second motor 41 can enable the T-shaped conveying member 45 to perform reverse curve motion in a circumferential state in the same way as the above;

the rotation of the output end of the second motor 41 drives the third driving roller 48 sleeved on the surface to move, the third driving roller 48 is driven by the third driving belt 49 to rotate by another group of third driving rollers 48 on the surface of the first shaft rod 47, the third driving roller 48 synchronously drives the fourth driving roller 50 connected with the third driving roller 48 to rotate in the rotation process, the fourth driving roller 50 drives the fourth driving roller 50 on the surface of the second shaft rod 52 to rotate by the fourth driving belt 51 in the transmission process, the second shaft rod 52 synchronously rotates, the pulling piece 53 on the surface of the second shaft rod 52 moves to the second sliding member 37 and the sleeve block 38 at the joint of the second sliding member 35 and the guide rail 36 in turn along with the rotation of the second shaft rod 52 in the rotation process, and when the second sliding member 37 and the sleeve block 38 enter the guide rail 36, the reversely-operated T-shaped conveying member 45 pushes the second sliding member 37 and the sleeve block 38 into the deeper part of the guide rail 36, so that the second sliding member 37 and the sleeve block 38 bring the collecting effect into the shutdown state.

Example 2

The maintenance mechanism comprises a frame plate 2, the top of the frame plate 2 is fixedly connected with the frame plate 2, the surface of the frame plate 2 is penetrated and inserted with a gear piece 3 through a bearing, the top surface of an air duct shell 1 is symmetrically inserted with a driven plate 4, the surface of the driven plate 4 is fixedly connected with teeth in equal distance, the driven plate 4 is meshed with the gear piece 3 through the teeth in fixed surface connection, the surface of the driven plate 4 is fixedly connected with a bending connecting piece 5, one end of the bending connecting piece 5 is connected with a tightening roller 6 through the bearing, every two groups of bending connecting pieces 5 are distributed in a rotationally symmetrical mode and are on the surface of the driven plate 4, the surface of one group of frame plates 2 is fixedly connected with a mounting rod 7, the surface of the mounting rod 7 is provided with a first motor 8, the output end of the first motor 8 is fixedly connected with one group of the gear pieces 3, the surfaces of the two groups of the gear pieces 3 are sleeved with a first driving roller 9, the surface of the first driving roller 9 is sleeved with a first driving belt 10, the same side end of the first driving roller 9 and the gear piece 3 is fixedly connected with a second driving roller 11, and the surface 12 of the second driving belt 11 is sleeved with a second driving belt 12.

In this embodiment, when the braid is conveyed in the air duct inner bin 34 in the air duct housing 1, the braid is subject to the treatment of hot air, and may be loosened due to the change of the air volume of the hot air, the temperature and other reasons, at this time, a user may start the first motor 8 according to the actual situation, the output end of the first motor 8 drives the gear member 3 to rotate, and the gear member 3 drives two groups of driven plates 4 meshed with the gear member 3 to move up and down in opposite directions in the rotating process, so that the tightening rollers 6 connected with the bending connecting pieces 5 on the surface of the driven plates 4 are in a state of up and down to make the braid perform a certain degree of comfort, the braid rolls on the surface of the tightening rollers 6 to perform auxiliary conduction on the braid by virtue of friction force, and a certain degree of tightening effect is brought to the braid by the tightening rollers 6;

The gear member 3 drives the other group of first driving rollers 9 connected with the first driving belt 10 through the first driving rollers 9 sleeved on the surface of the gear member in the rotating process to rotate, the first driving rollers 9 connected with the group of first driving rollers 9 are driven to rotate together by the rotation of the first driving rollers 9, the synchronous second driving rollers 11 connected with the first driving rollers 9 follow the rotation of the first driving rollers, the other group of second driving rollers 11 are driven to rotate through the second driving belt 12 in the rotating process, and the gear member 3 connected with the other group of second driving rollers 11 is synchronously driven to rotate, so that the range of tightening effect of the tightening rollers 6 on the knitted fabric is enlarged.

The above embodiments are only for illustrating the technical solution of the present invention, and are not limiting; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims (7)

1. The utility model provides a tentering setting machine hot air duct adjusting device, includes wind channel shell (1), its characterized in that, wind channel shell (1) is fixed connection side by side, the tensioning roller (6) is installed through maintaining the mechanism of wind channel shell (1), the inside bottom surface fixedly connected with wind channel inner bin (34) of wind channel shell (1), the cavity has been seted up to the inside of wind channel inner bin (34), the guiding mechanism is installed to the interior surface mounting of wind channel inner bin (34), the surface mounting of wind channel shell (1) has fan (19), the output of fan (19) is passed wind channel shell (1) fixed connection and is linked together at wind channel inner bin (34) surface and the cavity that opens in wind channel inner bin (34);

The air duct inner bin (34) is internally provided with a cavity symmetrically provided with a second electric slide rail (35), one side of the air duct inner bin (34) is internally provided with a guide rail (36), the second electric slide rail (35) is internally symmetrically and slidingly connected with a second slide piece (37), one end, close to each other, of the second slide piece (37) is fixedly connected with a sleeve block (38), the bottom surface of the sleeve block (38) is inserted with an inserting block (39), the interior of the sleeve block (38) is provided with a first electric telescopic rod (40), one end of the first electric telescopic rod (40) is fixedly connected with the inserting block (39), the interior of the air duct inner bin (34) is symmetrically provided with perforations at equal intervals, the perforations are propped against the inserting block (39), and the surface of the air duct inner bin (34) is provided with a distributing and collecting mechanism;

the distribution collection mechanism comprises a mounting plane plate (56), the surface of the air duct inner bin (34) is fixedly connected with the mounting plane plate (56), a second motor (41) is mounted in the mounting plane plate (56), a connecting plate (42) is sleeved at the output end of the second motor (41), a ring groove is formed in the surface of the mounting plane plate (56), a second limiting rod (43) is connected in the ring groove formed in the surface of the mounting plane plate (56) in a sliding manner, a guide groove is formed in the surface of the connecting plate (42) in a penetrating manner, the connecting plate (42) is sleeved on the surface of the second limiting rod (43) through the guide groove formed in the penetrating manner, one end of the second limiting rod (43) is provided with an abutting plate (44) through a rotating shaft sleeve, a T-shaped conveying piece (45) is fixedly connected to the surface of the abutting plate (44), a sliding groove is formed in the surface of the mounting plane plate (56), a sliding plate (46) is connected in a sliding manner through the sliding groove formed in the surface of the mounting plane plate (56), a sliding plate (46) is formed in one side of the sliding plate (46), and one side of the sliding plate (46) is connected with the T-shaped conveying piece (45) in a sliding manner through the sliding groove;

The surface of the air duct inner bin (34) is connected with a first shaft lever (47) through a bearing, the surface of the first shaft lever (47) is sleeved with a third driving roller (48), the output end surface of the second motor (41) is sleeved with another group of third driving rollers (48), the surfaces of the two groups of third driving rollers (48) are sleeved with a third driving belt (49), the surface of one group of third driving rollers (48) is provided with a fourth driving roller (50), the surface of the air duct inner bin (34) is connected with a second shaft lever (52) through a bearing, the surface of the second shaft lever (52) is sleeved with another group of fourth driving rollers (50), the surfaces of the two groups of fourth driving rollers (50) are sleeved with a fourth driving belt (51), and the surface of the second shaft lever (52) is fixedly connected with a poking piece (53);

two groups of second electric telescopic rods (54) are arranged on the surface of the air duct inner bin (34), one end of each second electric telescopic rod (54) is fixedly connected with a partition plate (55), a perforation matched with the partition plate (55) is formed on the surface of the air duct inner bin (34), an opening is formed on the surface of the air duct inner bin (34), a cavity formed in the air duct inner bin (34) is communicated with the outside of the air duct inner bin (34) through the opening formed in the surface of the air duct inner bin (34), and the partition plate (55) is matched with the opening formed in the surface of the air duct inner bin (34).

2. The hot air duct adjusting device for the tentering setting machine according to claim 1, characterized in that the maintenance mechanism comprises a frame plate (2), gear pieces (3) are inserted through bearings on the surface of the frame plate (2), a passive plate (4) is symmetrically inserted on the top surface of the air duct shell (1), teeth are fixedly connected to the surface of the passive plate (4) at equal intervals, the passive plate (4) is meshed with the gear pieces (3) through the teeth fixedly connected to the surface, bending connecting pieces (5) are fixedly connected to the surface of the passive plate (4), one ends of the bending connecting pieces (5) are connected with tightening rollers (6) through bearings, every two groups of bending connecting pieces (5) are symmetrically distributed on the surface of the passive plate (4), a mounting rod (7) is fixedly connected to the surface of the frame plate (2), a first motor (8) is mounted on the surface of the mounting rod (7), the output end of the first motor (8) is fixedly connected with one group of the gear pieces (3), one group of the first motor (3) is fixedly connected to the other, one group of the first motor (9) is sleeved with one end of the first motor (9), one group of first motor (9) is sleeved on the surface of the first motor (9), the surface of the second driving roller (11) is sleeved with a second driving belt (12).

3. The hot air duct adjusting device for the tentering setting machine according to claim 2, characterized in that the guiding mechanism comprises tentering setting rollers (13), two groups of tentering setting rollers (13) are arranged on the surfaces of the air duct shells (1) far away from each other, a first electric sliding rail (14) is fixedly connected to the inner surface of the air duct inner bin (34), a first sliding piece (15) is connected to the surface of the first electric sliding rail (14) in a sliding manner, a connecting rod (16) is fixedly connected to the surface of the first sliding piece (15), a clamping rod (17) is arranged on the surface of the connecting rod (16) through a bearing sleeve, an arc clamping plate (18) is hinged to the surface of the clamping rod (17), a torsion spring is sleeved on a hinge shaft hinged to the arc clamping plate (18), and two ends of the torsion spring are respectively connected with the clamping rod (17) and the arc clamping plate (18).

4. The hot air duct adjusting device for the tentering setting machine according to claim 3, characterized in that a heating bin (20) is fixedly connected to the surface of the air duct shell (1), an air guide pipe (21) is fixedly connected to the input end of the fan (19), one end of the air guide pipe (21) is fixedly connected with the heating bin (20), and the heating bin (20) is communicated with a cavity formed in the air duct inner bin (34) through the fan (19) and the air guide pipe (21).

5. The hot air duct adjusting device for a tentering setting machine according to claim 4, characterized in that the inside symmetry of heating bin (20) is fixedly connected with fixed plate (22), the surface penetration of fixed plate (22) is equipped with electric heat body of rod (23), the one end that electric heat body of rod (23) kept away from each other is connected with external power supply through the electricity, the surface cover of electric heat body of rod (23) is equipped with connecting spring (24), the both ends of connecting spring (24) respectively with fixed plate (22), electric heat body of rod (23) fixed connection, the spout has been seted up to the inside symmetry of heating bin (20), spout sliding connection that the inside was seted up in heating bin (20) has guide block (25), the surface equidistance penetration grafting of guide block (25) has electric heat butt joint pole (26), the surface of guide block (25) is through the screw thread penetration and is equipped with transfer line (27), the top of transfer line (27) is connected at the inside roof of heating bin (20) through the bearing, the bottom of transfer line (27) is passed through heating bin (20) and is connected to outside sealing plate (31) through the bearing.

6. The hot air duct adjusting device for a tentering setting machine according to claim 5, characterized in that the linkage mechanism comprises a transmission gear (28), the surface of the transmission gear (27) is sleeved with the transmission gear (28), a chute is formed in the bottom surface of the heating bin (20), the heating bin (20) is slidably connected with a toothed bar (29) through the chute formed in the bottom surface, a tooth slot is formed in one side of the toothed bar (29), the toothed bar (29) is meshed with the transmission gear (28) through the tooth slot formed in one side, one end of the toothed bar (29) is connected with a linkage rod (30) through a rotating shaft, one end of the linkage rod (30) is connected with the surface of a sealing plate (31) through the rotating shaft, the sealing plate (31) is inserted in one side of the heating bin (20), a fixed block (32) is fixedly connected with the bottom surface of the heating bin (20), the surface of the fixed block (32) is connected with a first limit rod (33) through the rotating shaft, the surface of the toothed bar (29) is provided with a guide slot through the surface, one end of the first limit rod (33) is connected with the surface of the guide slot (30).

7. A method for adjusting a hot air duct for a tenter setting machine, using the hot air duct adjusting device for a tenter setting machine according to claim 6, comprising the steps of:

step1: pulling the arc clamping plate (18) to rotate along the hinge shaft hinged with the clamping rod (17) to open, placing one end of the braided fabric on the surface of the clamping rod (17) and spreading the braided fabric, then loosening the arc clamping plate (18), and clamping the end of the braided fabric by the arc clamping plate (18) by means of the torsion spring acting force connected with the hinge shaft and matching with the clamping rod (17);

step2: starting the first electric slide rail (14) to drive a connecting rod (16) connected with the first slide piece (15) to pass through the air duct shell (1) until the connecting rod passes through the other end of the air duct shell (1) and then the clamping rod (17) and the arc clamping plate (18) on the surface of the connecting rod (16) are operated to take down the braided fabric, the surface of the tentering setting roller (13) arranged on the side is subjected to conduction transportation by the tentering setting roller (13), and the braided fabric is subjected to hot air treatment in the air duct shell (1);

step3: when the braided fabric is conveyed in the air duct shell (1), a fan (19) is started, the input end of the fan (19) is used for extracting air from the outside through a heating bin (20) connected with an air guide pipe (21) and heating the inside of the heating bin (20), a transmission rod (27) is rotated firstly, a connecting spring (24) is driven by the transmission rod (27) through a thread effect to slide along a sliding groove formed in the heating bin (20), so that a guide block (25) moves in the heating bin (20) along the sliding groove, electric heating butt joint rods (26) which are connected with the surface of the guide block (25) are equidistantly arranged but are different in thickness, the electric heating butt joint rods (26) are driven by the transmission rod (27) through the transmission of the transmission rod (25), the electric heating butt joint rods (23) and the electric heating butt joint rods (26) form a passage, in the process that the electric heating rod (23) and the electric heating butt joint rods (26) are propped against each other, the electric heating rod (23) slide in the fixing plate (22) to enable the connecting spring (24) to perform compression and extension reset movements, and the electric heating butt joint rods (26) are also different in cross sections, so that the electric heating butt joint rods can be externally connected with different electric heating resistances in a mode;

Step4: when the transmission rod (27) is rotated, a transmission gear (28) sleeved on the surface of the transmission rod (27) drives a toothed bar (29) meshed with the transmission gear to slide along a chute formed in the bottom surface of the heating bin (20) in a state of following the rotation of the transmission rod, the toothed bar (29) drives a linkage rod (30) hinged to the end of the toothed bar to incline under the limit of a first limit rod (33), and both ends of the linkage rod rotate along a hinge shaft and a rotating shaft, so that a sealing plate (31) slides on one side of the heating bin (20) in a synchronous transmission manner in the rotation process of the transmission rod (27) to gradually open an opening of the side of the heating bin (20), and a damping effect exists in the movement process of an electric heating rod body (23) in a fixed plate (22);

step5: the hot air obtained in the heating bin (20) is transmitted to the inner cavity of the air duct inner bin (34) from the output end of the fan (19), air is sprayed out of the perforations of the inner ring surface of the air duct inner bin (34) to contact with the surface of the braided fabric, the braided fabric is assisted in tentering and shaping, a user starts the second motor (41) according to the number and positions required to be opened by the perforations of the inner ring surface of the air duct inner bin (34), the output end of the second motor (41) drives the connecting plate (42) to rotate, the connecting plate (42) drives the second limiting rod (43) to move in a ring groove formed in the surface of the installation plane plate (56) in the rotating process, and the butt joint plate (44) connected with the second limiting rod (43) drives the T-shaped conveying part (45) connected with the second limiting rod to do circular-state curve motion;

Step6: in the above process, the initial positions of the second sliding parts (37) and the sleeve blocks (38) are in the guide rail (36), the sliding parts slide in the sliding grooves formed in the surface of the sliding plate (46), the sliding plates (46) synchronously slide in the sliding grooves formed in the surface of the mounting plane plate (56) by the T-shaped conveying parts (45) in a collision transmission mode, a group of second sliding parts (37) and sleeve blocks (38) drop into the track of the second electric sliding rail (35) under the gradual transmission of the T-shaped conveying parts (45), the group of second sliding parts (37) and the sleeve blocks (38) are driven by the second electric sliding rail (35), and in the transmission process, the T-shaped conveying parts (45) are further driven to move and move according to the corresponding blocking holes required by the second sliding parts (37) and the sleeve blocks (38), the groups of second sliding parts (37) and the sleeve blocks (38) reach the corresponding positions of the inner annular surface punching holes of the inner bin (34) of the air duct, at the moment, the first electric telescopic rod (40) can be started, the first electric telescopic rod (40) can be pushed out of the inner annular surface of the inner telescopic rod (34) of the air duct (34), the inner telescopic rod (54) is completely pushed out of the inner telescopic rod (54) to separate the inner annular surface of the inner telescopic rod (34), and the inner telescopic rod (54) is completely pushed out of the inner part of the inner annular telescopic rod (54) of the inner annular hole A guide rail (36) for preventing derailment of the second slider (37);

Step7: at the moment, hot air is sprayed out of the remaining unblocked perforations, hot air treatment is carried out on the surface of the braided fabric, if the device is not used for a long time, a second motor (41) is started, the output end of the second motor (41) is reversed, a second electric telescopic rod (54) is driven to carry a partition plate (55) to withdraw from the inside of an air duct inner bin (34), the joint of a second electric sliding rail (35) and a guide rail (36) is re-opened, and the reversing of the output end of the second motor (41) enables a T-shaped conveying piece (45) to carry out reverse curve motion in a circumferential state;

step8: the rotation of the output end of the second motor (41) drives a third driving roller (48) sleeved on the surface of the second motor to move, the third driving roller (48) drives another group of third driving rollers (48) on the surface of the first shaft lever (47) to rotate by means of a third driving belt (49), the third driving roller (48) synchronously drives a fourth driving roller (50) connected with the third driving roller to rotate in the rotation process, the fourth driving roller (50) drives another group of fourth driving rollers (50) on the surface of the second shaft lever (52) to rotate by means of a fourth driving belt (51), the second shaft lever (52) synchronously rotates, a shifting piece (53) on the surface of the second shaft lever (52) sequentially shifts a second sliding piece (37) in the second electric sliding rail (35) to a joint of the second electric sliding rail (35) and the guide rail (36) along with the rotation of the shifting piece (53), and a sleeve block (38) to enter the guide rail (36), and after the second sliding piece (37) and the sleeve block (38) enter the guide rail (36), the second sliding piece (37) and the sleeve block (38) are reversely operated and enter the second sliding piece (37) to be in a closed state;

Step9: when the braided fabric is conveyed in an air duct inner bin (34) in an air duct shell (1), the braided fabric is loosened when being subjected to hot air treatment, a first motor (8) is started, the output end of the first motor (8) drives a gear piece (3) to rotate, and the gear piece (3) drives two groups of driven plates (4) meshed with the gear piece to move up and down in opposite directions in the rotating process, so that a tightening roller (6) connected with a bending connecting piece (5) on the surface of the driven plates (4) is in a state of being up and down to bind the braided fabric to a certain extent, the braided fabric is assisted to be conducted by rolling of the tightening roller (6) on the surface of the tightening roller (6) by virtue of friction, and a certain tightening effect is brought to the braided fabric by the tightening roller (6);

step10: the gear piece (3) rotates through another group of first driving rollers (9) that its surface cup jointed drive first driving belt (10) are connected at pivoted in-process, the rotation of first driving rollers (9) drives first driving rollers (9) that this group of first driving rollers (9) are connected and rotate together, second driving rollers (11) that synchronous first driving rollers (9) are connected follow its rotation, and rotate through another group of second driving rollers (11) of second driving belt (12) transmission in-process of rotation, gear piece (3) that another group of second driving rollers (11) are connected can be synchronous by the transmission rotation, thereby enlarge the scope of tightening effect to the knitting area of tightening roller (6).

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