CN112941778A

CN112941778A - Textile fabric processing equipment

Info

Publication number: CN112941778A
Application number: CN202110129610.1A
Authority: CN
Inventors: 田志鹏
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-01-29
Filing date: 2021-01-29
Publication date: 2021-06-11

Abstract

The invention relates to the technical field of cloth processing, and discloses textile cloth processing equipment which comprises a base, a belt, a bearing, supporting legs and a connecting shaft, and is characterized in that: the base is "concave" font, and the transmission groove has been seted up to the inside of base, and the belt is total two sets of, and two sets of belts all set up in the inside of transmission groove, and two sets of circular ports have all been seted up to corresponding position right side wall on the transmission groove, and the bearing is total two sets of, and the lateral wall of two sets of bearings corresponds position wall fixed connection with two sets of circular ports on the transmission groove respectively, and the supporting leg is total four groups, and two sets of circular ports have been seted up to the inside wall. According to the textile fabric processing equipment, the fabric is squeezed by the pressing plate and the base plate, water on the fabric is drained, and the pressing plate and the base plate are both in a ladder shape, so that when the pressing plate and the base plate are meshed with each other, a gap between the pressing plate and the base plate is small, the capacity of water reserved between the base plate and the pressing plate is reduced, and the effect of improving the drainage effect is achieved.

Description

Textile fabric processing equipment

Technical Field

The invention relates to the technical field of cloth processing, in particular to textile cloth processing equipment.

Background

The textile origin is a general name taken from spinning and weaving, but with the continuous development and perfection of a textile knowledge system and a subject system, particularly after non-woven textile materials and three-dimensional compound weaving and other technologies are produced, the textile is not only produced by traditional hand spinning and weaving, but also produced by non-woven fabric technology, modern three-dimensional weaving technology, modern electrostatic nano-web forming technology and the like, and is used for clothing, industry and decoration.

Existing textile fabric on the existing market adds man-hour, need wash the cloth, after finishing washing, need drain the water on the cloth, all adopts two compression rollers to extrude the cloth usually, with the water discharge on the cloth, and two sets of compression rollers are cylindrical usually, and is little with the area of contact of cloth, and drainage effect is poor. To this end, we propose a textile fabric processing apparatus.

Disclosure of Invention

The invention mainly solves the technical problems in the prior art and provides textile fabric processing equipment.

In order to achieve the purpose, the invention adopts the following technical scheme that the textile fabric processing equipment comprises a base, a belt, a bearing, a supporting leg and a connecting shaft, and is characterized in that: the base is "concave" font, the transmission groove has been seted up to the inside of base, the belt is total two sets of, two sets of belts all set up the inside at the transmission groove, two sets of circular ports have all been seted up to corresponding position right side wall on the transmission groove, the bearing is total two sets of, the lateral wall of two sets of bearings respectively with the transmission groove on two sets of circular ports correspond position wall fixed connection, the total four groups of supporting leg, the top wall of four groups of supporting legs corresponds position fixed connection with the bottom wall of base respectively, two sets of circular ports have been seted up to the inside wall of base, two sets of circular ports respectively with the transmission groove on the base the hole of two sets of bearings correspond to each other, the total four groups of connecting axle, the.

The transmission device comprises a crawler belt, a plurality of groups of base plates are fixedly mounted on the outer side wall of the crawler belt and are in a ladder shape, the base plates are equidistantly distributed on the side wall of the crawler belt, a plurality of groups of water flowing grooves are formed in the side wall of the crawler belt and are arranged between two adjacent groups of base plates, transmission rods are sleeved on the side walls, close to the front side and the rear side of the bottom, of the two groups of connecting shafts, and the crawler belt is sleeved on the side walls of the two groups of transmission rods.

Preferably, the extrusion device includes the apron, the rectangular hole has been seted up on the bottom wall right side of apron, the rectangular hole on the apron bottom wall communicates with the transmission groove each other, the belt cover that is close to the right side on the transmission groove is on the lateral wall that is close to the top connecting axle and is close to the connecting axle of front side, the standing groove has been seted up to the bottom wall of apron, the circular port has all been seted up to both sides wall about corresponding the position on the standing groove, the inside of apron is provided with the motor, the lateral wall of motor corresponds position wall fixed connection with the apron is inside, the output of motor corresponds each other with the circular port that is close.

As preferred, the spread groove has been seted up to the left side wall of the output of motor, and the lateral wall right-hand member that is close to the connecting axle at top passes through the inside that is close to the circular port on right side and extends to the apron on the standing groove, corresponds position wall fixed connection on the lateral wall right-hand member that is close to the connecting axle at top and the spread groove, is close to corresponding position wall swing joint on the left circular port on the lateral wall left end of the connecting axle at top and the standing groove, and the lateral wall cover that is close to the connecting axle at top has the loop bar, and the lateral.

Preferably, the top device includes the dowel steel, and the dowel steel cover is on the lateral wall of a set of connecting axle near the centre, is close to left belt cover on the lateral wall of the two sets of connecting axles near the front side, and the lateral wall fixed mounting of dowel steel has the multiunit roof, and the equal equidistance of multiunit roof distributes on the lateral wall of dowel steel, and the multiunit roof all is the ladder form, and the lateral wall fixed mounting of dowel steel has the multiunit to top the board, and the multiunit is pushed the board and is distributed respectively between adjacent two sets of roofs.

As preferred, the sliding tray has all been seted up to one side wall that the central point was kept away from to the multiunit top board, and the inside of multiunit sliding tray all is provided with the spring, and the one end that the multiunit spring is close to the central point corresponds a side wall fixed connection that the position is close to the central point on respectively with the multiunit sliding tray.

Preferably, the one end that the central point was kept away from to the multiunit top board all is provided with the depression bar, and the one end that the multiunit depression bar is close to the center extends to the inside of dowel steel through the sliding tray respectively, and the equal fixed mounting of a lateral wall face that the multiunit depression bar is close to the central point has the ejector pin.

Preferably, a plurality of groups of side wall surfaces of the ejector rods close to the central point are fixedly connected with one ends, far away from the central point, of the adjacent group of springs respectively, and a plurality of groups of side wall surfaces of the press rods, far away from the central point, are fixedly provided with limiting plates.

Preferably, the right ends of the side walls of the two groups of connecting shafts close to the left side of the bottom are fixedly connected with the wall surfaces of the corresponding positions of the holes on the group of bearings approaching each other through three groups of circular holes in the base respectively, two groups of circular holes are formed in the rear ends of the left side wall surface and the right side wall surface of the base, the left ends and the right ends of the side walls of the connecting shafts close to the rear side are movably connected with the two groups of circular holes in the base respectively, and the left ends of the side walls of the two groups of connecting shafts close to.

Advantageous effects

The invention provides a textile fabric processing device. The method has the following beneficial effects:

(1) the textile fabric processing equipment places the fabric which is just cleaned on the top wall surface of the crawler belt, the motor is operated, the output shaft of the motor drives the connecting shaft which is close to the top to work, the side wall of the connecting shaft which is close to the top is sleeved with the belt, the belt which is close to the top is also sleeved on the side wall of the connecting shaft which is close to the front side, so the motor can drive the connecting shaft which is close to the front side of the bottom to rotate when working, the side wall of the connecting shaft which is close to the bottom is sleeved with the crawler belt, so the motor can drive the crawler belt to rotate, the fabric on the wall surface of the crawler belt is moved to the bottom of the extrusion device, the pressing plate and the backing plate are mutually meshed, so when the fabric is moved to the bottom of the bumping device, the fabric can be mutually extruded by the pressing plate and the backing plate, the water on the fabric is, the contact area of the base plate and the cloth is increased, the gap between the pressing plate and the base plate is small, the capacity of water reserved between the base plate and the pressing plate is reduced, and the effect of improving the drainage effect is achieved.

(2) This textile fabric processing equipment has seted up the tye on the lateral wall of track, because clamp plate and backing plate all are the trapezoidal body form, so when clamp plate and backing plate intermeshing, discharged water can flow down along the lateral wall of backing plate in the cloth, and has seted up the tye on the lateral wall of track, when discharged water flows to the bottom in the cloth, water can pass through the tye, flows to the inside of base, avoids the condition emergence that water remains the inside of backing plate.

(3) This textile fabric processing equipment, the cover has the dowel bar on being close to the lateral wall of middle connecting axle, fixed mounting has the multiunit roof on the lateral wall of dowel bar, the adjacent one end of inside lateral wall is laminated each other on a lateral wall face of keeping away from the central point on the roof and the track, it has the belt equally to overlap on the lateral wall of two sets of connecting axles near the bottom front end, so when motor during operation, the motor can drive the connecting axle rotation of being close to the intermediate position, when the cloth is placed on the top wall of track, and the cloth absorbs water, the weight of cloth can be overweight, the cloth can push down the track, so when the motor drives the dowel bar rotation, roof on the dowel bar lateral wall can be with the track top and bottom move, the effect of the discharge of the water on the cloth has been reached with higher.

(4) This textile fabric processing equipment, still fixed mounting have the board of turning on the lateral wall of dowel steel, and the one end of keeping away from the central point on the board of turning is provided with the limiting plate, makes the length of turning the board be greater than the roof, and when the motor drove the dowel steel rotatory, the distance that jolts about making the track is different, has reached the effect of jolting that improves the track.

(5) This textile fabric processing equipment, the inside of multiunit top board is provided with the sliding tray, the one end and the limiting plate connection of keeping away from the central point of sliding tray, the one end that the sliding tray is close to the central point with top board on correspond position wall fixed connection, so when the position at limiting plate rotation to top, the track can be pressed the limiting plate to the bottom, make the limiting plate remove to the bottom, and the bottom of limiting plate is provided with the sliding tray, the sliding tray can kick-back, reached and made the track carry out the effect of jolting of low range.

(6) This textile fabric processing equipment, a lateral wall fixed mounting who is close to the central point on the limiting plate has the ejector pin, and the ejector pin is in the inside of sliding tray, and the ejector pin can slide along the inside lateral wall of sliding tray, makes things convenient for the removal of ejector pin position, also can block the ejector pin when the sliding tray not only can make the roof remove, when avoiding the dowel to remove to the bottom, the condition that the limiting plate drops from the top board takes place.

(7) This textile fabric processing equipment, the motor during operation can drive the connecting axle rotation near the top, and the cover has the belt on the lateral wall of the connecting axle near the top, and the belt of cover on the connecting axle lateral wall of top also overlaps on the lateral wall of the connecting axle near the bottom front side equally for the removal that the motor during operation can the track, and clamp plate and backing plate intermeshing, so when the loop bar is rotatory, the clamp plate can promote the backing plate to the front side, has reached the effect that makes things convenient for the track to remove.

Drawings

FIG. 1 is a front view of a textile fabric processing apparatus of the present invention;

FIG. 2 is a cross-sectional view of a textile fabric processing apparatus of the present invention;

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

FIG. 4 is a schematic diagram of the position of the driving groove according to the present invention.

Illustration of the drawings:

the device comprises a base 1, a transmission groove 2, a belt 3, a bearing 4, a supporting leg 5, a connecting shaft 6, an extrusion device 7, a cover plate 71, a placing groove 72, a motor 73, a connecting groove 74, a loop bar 75, a pressing plate 76, a transmission device 8, a crawler 81, a backing plate 82, a water flowing groove 83, a transmission rod 84, a pitch device 9, a transmission rod 91, a top plate 92, a pitch plate 93, a sliding groove 94, a spring 95, a compression rod 96, a mandril 97 and a limit plate 98.

Detailed Description

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

Example (b): as shown in figures 1-4, a textile fabric processing equipment comprises a base 1, belts 3, bearings 4, supporting legs 5 and a connecting shaft 6, wherein the base 1 is in a concave shape, a transmission groove 2 is formed in the base 1, the belts 3 are two groups, the two groups of belts 3 are arranged in the transmission groove 2, two groups of circular holes are formed in the right wall surface of the corresponding position on the transmission groove 2, the bearings 4 are two groups, the side walls of the two groups of bearings 4 are fixedly connected with the wall surfaces of the corresponding positions of the two groups of circular holes on the transmission groove 2, the supporting legs 5 are four groups, the top wall surfaces of the four groups of supporting legs 5 are fixedly connected with the corresponding positions of the bottom wall surface of the base 1, the inner wall surface of the base 1 is provided with two groups of circular holes, the two groups of circular holes on the base 1 correspond to the holes of the two groups of bearings 4 on the transmission groove 2, the connecting shaft 6 are four groups, the The hole on a set of bearing 4 that approaches corresponds position wall fixed connection, two sets of circular ports have all been seted up to both sides wall rear end about base 1's the inside wall, both ends respectively with two sets of circular ports swing joint on the base 1 about the lateral wall of connecting axle 6 that is close to the rear side, the lateral wall left end of two sets of connecting axles 6 that are close to the bottom respectively with base 1 inside left side wall swing joint, base 1's outside is provided with extrusion device 7, transmission 8 and top device 9.

The transmission device 8 comprises a crawler belt 81, a plurality of groups of backing plates 82 are fixedly mounted on the outer side wall of the crawler belt 81, the backing plates 82 are all in a ladder shape, the backing plates 82 are equidistantly distributed on the side wall of the crawler belt 81, a plurality of groups of water flowing grooves 83 are formed in the side wall of the crawler belt 81, the water flowing grooves 83 are all arranged between the two adjacent groups of backing plates 82, transmission rods 84 are sleeved on the side walls, close to the front side and the rear side of the bottom, of the two groups of connecting shafts 6, and the crawler belt 81 is sleeved on the.

The extruding device 7 comprises a cover plate 71, a rectangular hole is formed in the right side of the bottom wall surface of the cover plate 71, the rectangular hole in the bottom wall surface of the cover plate 71 is communicated with a transmission groove 2, a belt 3 close to the right side on the transmission groove 2 is sleeved on the side wall close to a top connecting shaft 6 and a connecting shaft 6 close to the front side, a placing groove 72 is formed in the bottom wall surface of the cover plate 71, circular holes are formed in the left side wall surface and the right side wall surface of the corresponding position on the placing groove 72, a motor 73 is arranged in the cover plate 71, the motor 73 is a disclosed technology and is not described herein, the side wall of the motor 73 is fixedly connected with the corresponding position wall surface in the cover plate 71, the output end of the motor 73 corresponds to the circular hole close to the right side on the placing groove 72, a connecting groove 74 is formed in the left side wall surface of the output end, the right end of the side wall of the connecting shaft 6 close to the top is fixedly connected with the wall surface at the corresponding position on the connecting groove 74, the left end of the side wall of the connecting shaft 6 close to the top is movably connected with the wall surface at the corresponding position on the circular hole close to the left side on the placing groove 72, the side wall of the connecting shaft 6 close to the top is sleeved with a loop bar 75, a plurality of groups of pressing plates 76 are fixedly mounted on the side wall of the loop bar 75, and the groups of pressing plates 76 are meshed with.

The bumping device 9 comprises a transmission rod 91, the transmission rod 91 is sleeved on the side wall of a group of connecting shafts 6 close to the middle, a belt 3 close to the left is sleeved on the side wall of two groups of connecting shafts 6 close to the front side, a plurality of groups of top plates 92 are fixedly installed on the side wall of the transmission rod 91, the groups of top plates 92 are distributed on the side wall of the transmission rod 91 at equal intervals, the groups of top plates 92 are in a ladder shape, the side walls of the groups of top plates 92 are respectively attached to one end, close to the side wall inside the crawler 81, the side wall of the transmission rod 91 is fixedly provided with a plurality of groups of bumping plates 93, the groups of bumping plates 93 are respectively distributed between the two adjacent groups of top plates 92, a side wall surface of the groups of bumping plates 93, far away from the central point, is respectively provided with a sliding groove 94, springs 95 are arranged inside the groups of sliding grooves 94, one ends, close to the, the outside of dowel 91 is provided with multiunit depression bar 96, and the one end that multiunit depression bar 96 is close to the center extends to the inside of dowel 91 through sliding tray 94 respectively, and the equal fixed mounting of a lateral wall face that multiunit depression bar 96 is close to the central point has ejector pin 97, multiunit the one end fixed connection of keeping away from the central point on a lateral wall face that ejector pin 97 is close to the central point respectively and a set of spring 95 that approaches mutually, the equal fixed mounting of a lateral wall face that multiunit depression bar 96 kept away from the central point has limiting plate 98.

The working principle of the invention is as follows:

when the cloth cleaner is used, cloth which is just cleaned is placed on the top wall surface of the crawler belt 81, the motor 73 is operated, the output shaft of the motor 73 drives the connecting shaft 6 close to the top to work, the belt 3 is sleeved on the side wall of the connecting shaft 6 close to the top, the belt 3 which is sleeved on the top is also sleeved on the side wall of the connecting shaft 6 close to the front side, so when the motor 73 works, the connecting shaft 6 close to the front side of the bottom can be driven to rotate, the crawler belt 81 is sleeved on the side wall of the connecting shaft 6 close to the bottom, the motor 73 drives the crawler belt 81 to rotate, the cloth on the wall surface of the crawler belt 81 is moved to the bottom of the extruding device 7, the pressing plate 76 is meshed with the backing plate 82, when the cloth is moved to the bottom of the bumping device 9, the cloth is mutually extruded by the pressing plate 76 and the backing plate 82, water on the cloth is discharged, and, therefore, when the pressing plate 76 and the backing plate 82 are engaged with each other, the contact area between the backing plate 82 and the cloth is increased, the gap between the pressing plate 76 and the backing plate 82 is small, the capacity of water retained between the backing plate 82 and the pressing plate 76 is reduced, and the effect of improving the drainage effect is achieved.

The side wall of the crawler 81 is provided with the water flowing groove 83, and the pressing plate 76 and the backing plate 82 are both in a ladder shape, so when the pressing plate 76 and the backing plate 82 are meshed with each other, water discharged from the cloth flows downwards along the side wall of the backing plate 82, and the side wall of the crawler 81 is provided with the water flowing groove 83, when the water discharged from the cloth flows towards the bottom, the water flows to the inside of the base 1 through the water flowing groove 83, and the water is prevented from being remained in the backing plate 82.

The cover has the dowel 91 on being close to the lateral wall of connecting axle 6 in the middle of, fixed mounting has multiunit roof 92 on the lateral wall of dowel 91, the one side wall face of keeping away from the central point on roof 92 and the adjacent one end of inside lateral wall are laminated each other on the track 81, it has belt 3 equally to overlap on the lateral wall of two sets of connecting axles 6 near the bottom front end, so when motor 73 during operation, motor 73 can drive the connecting axle 6 rotation of being close to the intermediate position, when the cloth was placed on the top wall of track 81, and the cloth absorbs water, the weight of cloth can be overweight, the cloth can push down track 81, so when motor 73 drove dowel 91 rotation, roof 92 on the dowel 91 lateral wall can be with track 81 top and bottom jolt, accelerate the discharge of the water on the cloth.

Still fixed mounting has jolt board 93 on the lateral wall of dowel 91, and the one end of keeping away from the central point on jolt board 93 is provided with limiting plate 98, makes the length of jolt board 93 be greater than roof 92, and when motor 73 drove the dowel 91 rotation, the distance that makes track 81 pitch from top to bottom is different, improves the effect of jolting of track 81.

The inside of multiunit top board 93 is provided with sliding tray 94, the one end of keeping away from the central point of sliding tray 94 is connected with limiting plate 98, sliding tray 94 is close to the one end of central point and corresponds position wall fixed connection on top board 93, so when the rotatory position to the top of limiting plate 98, track 81 can press limiting plate 98 to the bottom, make limiting plate 98 remove to the bottom, and the bottom of limiting plate 98 is provided with sliding tray 94, sliding tray 94 can kick-back, make track 81 carry out the jolt of low range.

Be close to a lateral wall fixed mounting of central point on the limiting plate 98 and have ejector pin 97, ejector pin 97 is in the inside of sliding tray 94, and ejector pin 97 can slide along the inside lateral wall of sliding tray 94, makes things convenient for the removal of ejector pin 97 position, and sliding tray 94 not only can make roof 92 remove the time also can block ejector pin 97, when avoiding dowel 91 to remove to the bottom, and limiting plate 98 drops from top board 93.

The motor 73 can drive the connecting shaft 6 close to the top to rotate when working, the belt 3 is sleeved on the side wall of the connecting shaft 6 close to the top, and the belt 3 sleeved on the side wall of the connecting shaft 6 at the top is also sleeved on the side wall of the connecting shaft 6 close to the front side of the bottom, so that the motor 73 can move the crawler 81 when working, and the pressing plate 76 is meshed with the backing plate 82, therefore, when the loop bar 75 rotates, the pressing plate 76 can push the backing plate 82 to the front side, and the crawler 81 can move conveniently.

Finally, it should be noted that the above embodiments are merely representative examples of the present invention. It is obvious that the invention is not limited to the above-described embodiments, but that many variations are possible. Any simple modification, equivalent change and modification made to the above embodiments in accordance with the technical spirit of the present invention should be considered to be within the scope of the present invention.

Claims

1. The utility model provides a textile fabric processing equipment, includes base (1), belt (3), bearing (4), supporting leg (5) and connecting axle (6), its characterized in that: base (1) is "concave" font, transmission groove (2) have been seted up to the inside of base (1), belt (3) are total two sets ofly, two sets of belt (3) all set up the inside in transmission groove (2), two sets of circular ports have all been seted up to corresponding position right side wall on transmission groove (2), bearing (4) are total two sets ofly, the lateral wall of two sets of bearing (4) respectively with transmission groove (2) go up two sets of circular port corresponding position wall fixed connection, supporting leg (5) are total four groups, the top wall of four groups supporting leg (5) respectively with the bottom wall of base (1) corresponding position fixed connection, two sets of circular ports have been seted up to the inside wall of base (1), two sets of circular ports on base (1) respectively with the hole of two sets of bearing (4) on transmission groove (2) each other correspond, connecting axle (6) are total four groups, the outside of base (1) is provided with extrusion device, A transmission device (8) and a pitch device (9);

transmission device (8) include track (81), fixed mounting has multiunit backing plate (82) on the lateral wall of track (81), multiunit backing plate (82) all are the ladder body form, multiunit backing plate (82) distribute on the lateral wall of track (81) equidistance, multiunit tye (83) have been seted up to the lateral wall of track (81), multiunit tye (83) are all seted up between adjacent two sets of backing plate (82), the lateral wall of two sets of connecting axles (6) of both sides all overlaps and has transfer line (84) around being close to the bottom, track (81) cover is on the lateral wall of two sets of transfer lines (84).

2. A textile fabric processing apparatus according to claim 1, wherein: extrusion device (7) are including apron (71), the rectangular hole has been seted up on the bottom wall right side of apron (71), the rectangular hole and transmission groove (2) intercommunication each other on apron (71) bottom wall, belt (3) cover that is close to the right side on transmission groove (2) is on the lateral wall of being close to top connecting axle (6) and connecting axle (6) that is close to the front side, standing groove (72) have been seted up to the bottom wall of apron (71), the circular port has all been seted up to both sides wall face about corresponding the position on standing groove (72), the inside of apron (71) is provided with motor (73), the lateral wall and apron (71) inside of motor (73) correspond position wall fixed connection, the circular port that is close to the right side on the output of motor (73) and standing groove (72) corresponds each other.

3. A textile fabric processing apparatus according to claim 2, wherein: spread groove (74) have been seted up to the left side wall of the output of motor (73), the inside that is close to the circular port on right side and extends to apron (71) on passing through standing groove (72) is close to the lateral wall right-hand member of connecting axle (6) near the top, be close to corresponding position wall fixed connection on the lateral wall right-hand member of connecting axle (6) at top and spread groove (74), be close to corresponding position wall swing joint on the left circular port on lateral wall left end and the standing groove (72) of connecting axle (6) near the top, the lateral wall cover of connecting axle (6) near the top has loop bar (75), the lateral wall fixed mounting of loop bar (75) has multiunit clamp plate (76).

4. A textile fabric processing apparatus according to claim 1, wherein: top device (9) are including dowel (91), dowel (91) cover is on the lateral wall of a set of connecting axle (6) near the centre, be close to left belt (3) cover on the lateral wall of two sets of connecting axles (6) near the front side, the lateral wall fixed mounting of dowel (91) has multiunit roof (92), the equal equidistance distribution of multiunit roof (92) is on the lateral wall of dowel (91), multiunit roof (92) all are the ladder body form, the lateral wall fixed mounting of dowel (91) has multiunit top board (93), multiunit top board (93) distribute respectively between adjacent two sets of roof (92).

5. A textile fabric processing apparatus according to claim 4, wherein: sliding grooves (94) are formed in one side wall face, away from the central point, of the plurality of groups of jolt plates (93), springs (95) are arranged inside the plurality of groups of sliding grooves (94), and one ends, close to the central point, of the plurality of groups of springs (95) are fixedly connected with one side wall face, close to the central point, of the corresponding positions on the plurality of groups of sliding grooves (94) respectively.

6. A textile fabric processing apparatus according to claim 5, wherein: the multiunit top board (93) keep away from the one end of central point and all be provided with depression bar (96), and the one end that multiunit depression bar (96) are close to the center extends to the inside of dowel steel (91) through sliding tray (94) respectively, and the equal fixed mounting of a lateral wall face that multiunit depression bar (96) are close to the central point has ejector pin (97).

7. A textile fabric processing apparatus according to claim 6, wherein: multiunit ejector pin (97) are close to a lateral wall face of central point respectively with keep away from the one end fixed connection of central point on a set of spring (95) that is close to mutually, and the equal fixed mounting of lateral wall face of multiunit depression bar (96) far away from the central point has limiting plate (98).

8. A textile fabric processing apparatus according to claim 1, wherein: be close to the left two sets of in bottom the lateral wall right-hand member of connecting axle (6) corresponds position wall fixed connection through the pore pair on three circular ports of group and a set of bearing (4) that approach mutually on base (1) respectively, and two sets of circular ports have all been seted up to both sides wall rear end about the inside wall of base (1), both ends respectively with two sets of circular port swing joint on base (1) about the lateral wall of connecting axle (6) that are close to the rear side, the lateral wall left end of two sets of connecting axles (6) that are close to the bottom respectively with base (1) inside left side wall swing joint.