CN113447372A - Ductility check out test set based on textile fabric processing - Google Patents

Abstract

The invention discloses ductility detection equipment based on textile fabric processing, which comprises a base, wherein two sides of the upper part of the base are connected with supporting tables; the two sides of the upper part of the base are connected with the fixing plates; the upper parts of the fixed plates are connected with sliding rods in a sliding manner; the lower sides of the sliding rods are connected with bearing seats; the detection cylinder is connected between the bearing seats; the driving mechanism is arranged in the middle of the base, and the driving mechanism is arranged between the bearing seat and the fixing plate; and the pressing mechanism is arranged between the upper part of the support table and the bearing seat. The ductility detection equipment based on textile fabric processing disclosed by the invention has the advantages of providing support for fabric, not interfering detection, automatically tightening the fabric, avoiding wrinkles on the fabric from influencing a detection result, more intuitively detecting the ductility of the textile fabric, automatically compressing and limiting the textile fabric.

Description

Ductility check out test set based on textile fabric processing

Technical Field

The invention relates to detection equipment, in particular to ductility detection equipment based on textile fabric processing.

Background

The fabric is a commonly used material in decorative materials, is usually obtained by textile processing in factories, and before the textile fabric leaves a factory, in order to ensure that the sold textile fabric is firm and good in quality, the ductility of the textile fabric needs to be detected in advance.

The ductility detection technology of current textile fabric processing, generally the user compresses tightly the cloth manually, utilize the detection section of thick bamboo, press and promote the cloth, make its sunken buckling, detect its ductility with this, however, manual cloth that compresses tightly, hard and firm, and artificially remove the detection section of thick bamboo, low efficiency, place the cloth back on a supporting bench, probably because do not support, make the cloth put unstably, and if there is the fold the cloth during detection, cause the influence to the testing result easily, and only judge the ductility of cloth by the naked eye, and not directly perceived.

Therefore, it is necessary to develop a ductility detection device based on textile fabric processing, which can automatically compress the fabric and detect the ductility of the fabric, provide support for the fabric, automatically tighten the fabric, more intuitively display the detection result, and automatically limit the fabric position.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides the ductility detection equipment based on textile fabric processing, which can automatically compress the fabric, detect the ductility of the fabric, support the fabric, automatically tighten the fabric, more visually display the detection result and automatically limit the fabric position.

The purpose of the invention can be achieved by adopting the following technical scheme:

in a first aspect, a ductility detection device based on textile fabric processing comprises: the two sides of the upper part of the base are connected with supporting tables; the two sides of the upper part of the base are connected with the fixing plates; the upper parts of the fixed plates are connected with sliding rods in a sliding manner; the lower sides of the sliding rods are connected with bearing seats; the detection cylinder is connected between the bearing seats; the driving mechanism is arranged in the middle of the base, and the driving mechanism is arranged between the bearing seat and the fixing plate; and the pressing mechanism is arranged between the upper part of the support table and the bearing seat.

Further, the driving mechanism includes: the reset springs are connected between the fixed plate and the bearing block and sleeved on the sliding rod; the connecting plate is connected between the lower parts of the bearing seats; the supporting plate is connected between the two sides of the middle part of the base; the cylinder is installed in the middle of backup pad upper portion, and the cylinder piston rod upside is connected with the connecting plate.

Further, the hold-down mechanism includes: the two sides of the upper part of the support table are connected with the first guide rods; the first guide rods are connected with the sliding plates in a sliding manner; the compression springs are connected between the sliding plate and the supporting platform and sleeved on the first guide rod; the lower parts of the sliding plates on the two sides are connected with the pressing frame; the outer sides of the lower parts of the sliding plates are connected with second guide rods; the sliding plates are connected between the second guide rods on the two sides in a sliding manner and are connected with the bearing seats; and the extension springs are connected between the sliding plate and sleeved on the second guide rod.

Further, still including the supporting component, the supporting component includes: the guide rails are symmetrically connected to the two sides of the upper part of the base; the sliding blocks are connected inside the guide rails in a sliding manner; the roller is rotatably connected between the sliding blocks on the two sides; the lower sides of the sliding blocks are connected with first sliding rods, and the first sliding rods are connected with the guide rails in a sliding manner; the connecting rods are connected between the lower sides of the first sliding rods on the two sides; the first springs are connected between the connecting rods and the guide rails and sleeved on the first sliding rods; the two sides of the lower part of the connecting plate are both connected with a pressure rod, and the pressure rods are matched with the connecting rod.

Further, still include and pull the subassembly, pull the subassembly and include: the two sides of the upper part of the supporting platform are connected with the guide frames; the sliding blocks are connected to the guide frame in a sliding manner; the third spring is connected between the sliding block and the guide frame and sleeved on the guide frame; the inner sides of the sliding blocks are connected with the pressing rods in a sliding manner; the second springs are connected between the pressing rods and the sliding blocks and sleeved on the pressing rods; the outer sides of the upper parts of the supporting tables are symmetrically connected with wedge-shaped plates, and the wedge-shaped plates are matched with the pressing rods; the middle of the lower part of the sliding plate is connected with a wedge-shaped rod, and the wedge-shaped rod is matched with the sliding block; the two sides of the supporting platform are symmetrically and rotatably connected with the transmission wheels; the transmission belts are connected between the transmission wheels; the bearing plate, brace table both sides all are connected with the bearing plate, and the bearing plate contacts with the transmission band upside.

Further, still including the detection subassembly, the detection subassembly includes: the middle of one side of the upper part of the base is connected with the bracket; the rack is connected to one side of the upper part of the bracket; the mounting plate is connected with one side of the upper part of the bracket; the mounting plate is evenly connected with four coating rods in a sliding manner at intervals; the fourth spring is connected between the middle part of the coating rod and the mounting plate and sleeved on the coating rod; the middle of one side of the sliding plate is connected with a contact block which is matched with the coating rod.

Furthermore, the device also comprises a limiting component, and the limiting component is arranged on the upper part of the sliding block.

Further, spacing subassembly is including: the upper parts of the sliding blocks are connected with the mounting seats; the upper parts of the mounting seats are connected with limiting rods in a sliding manner; and a fifth spring is connected between the limiting rod and the mounting seat and sleeved on the limiting rod.

The invention has the advantages that: (1) according to the invention, the cloth is supported by the roller, the connecting plate drives the pressure rod to move downwards, the connecting rod, the sliding block and the roller are pushed to move downwards, and the effects of supporting the cloth and not interfering the detection are achieved; (2) according to the invention, the sliding plate drives the wedge-shaped rod to move downwards, the sliding block and the pressing rod are pushed to move outwards, the pressing rod is pushed by the wedge-shaped plate to move downwards to press cloth and push the cloth to be tensioned outwards, so that the effect of automatically tensioning the cloth is achieved, and the phenomenon that wrinkles exist on the cloth to influence a detection result is avoided; (3) according to the invention, the sliding plate drives the contact block to move downwards, so that the coating rod is pushed to move leftwards, marks are left on the white paper, and the effect of more intuitively detecting the ductility of the textile fabric is achieved; (4) according to the invention, the mounting seat and the limiting rod are driven to move downwards through the sliding block, so that the cloth is compressed and limited, and the effects of automatically compressing and limiting the textile cloth are achieved.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of the driving mechanism and the pressing mechanism of the present invention.

Fig. 3 is a schematic perspective view of the support assembly and the position limiting assembly of the present invention.

FIG. 4 is a schematic perspective view of a portion of the rip member and the detection member of the present invention.

FIG. 5 is a schematic perspective view of a portion of the detecting unit of the present invention.

Fig. 6 is a schematic view of a first partial body construction of a pulling assembly in accordance with the present invention.

Fig. 7 is a schematic view of a second partial body construction of a pulling assembly in accordance with the present invention.

The parts are labeled as follows: 1. a base, 2, a support platform, 3, a fixed plate, 4, a sliding rod, 5, a bearing seat, 6, a detection cylinder, 7, a driving mechanism, 71, a return spring, 72, a connecting plate, 73, a support plate, 74, a cylinder, 8, a hold-down mechanism, 81, a first guide rod, 82, a sliding plate, 83, a compression spring, 84, a hold-down frame, 85, a second guide rod, 86, a sliding plate, 87, an extension spring, 9, a support component, 91, a guide rail, 92, a sliding block, 93, a roller, 94, a first sliding rod, 95, a first spring, 96, a connecting rod, 97, a pressing rod, 10, a pulling component, 101, a guide frame, 102, 103, a hold-down rod, 104, a second spring, 105, a wedge plate, 106, a wedge rod, 107, a transmission wheel, 108, a transmission belt, 109, a placing frame plate, 1010, a third spring, 11, a detection component, 111, a support, 112, 113, a sliding block, a mounting plate, 114. coating rod, 115, fourth spring, 116, contact block, 12, spacing subassembly, 121, mount pad, 122, gag lever post, 123, fifth spring.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, 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 some, but not all, embodiments of the present invention. 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 1

As shown in fig. 1, fig. 2, fig. 3 and fig. 4, this embodiment discloses a ductility check out test set based on textile fabric processing, including base 1, a supporting bench 2, fixed plate 3, slide bar 4, bearing frame 5, detect a section of thick bamboo 6, actuating mechanism 7 and hold-down mechanism 8, both sides all are connected with a supporting bench 2 around base 1 upper portion, the 1 upper portion left and right sides of base all is connected with fixed plate 3, the equal sliding connection in fixed plate 3 upper portion has slide bar 4, slide bar 4 downside all is connected with bearing frame 5, be connected with a detection section of thick bamboo 6 between the bearing frame 5, in the middle of the base 1, be equipped with actuating mechanism 7 between bearing frame 5 and the fixed plate 3, be equipped with hold-down mechanism 8 between 2 upper portions of supporting bench and the bearing frame 5.

The driving mechanism 7 comprises a return spring 71, a connecting plate 72, supporting plates 73 and air cylinders 74, the return spring 71 is connected between the fixed plate 3 and the bearing seat 5, the return spring 71 is sleeved on the sliding rod 4, the connecting plate 72 is connected between the lower parts of the bearing seats 5, the supporting plates 73 are connected between the left side and the right side of the middle part of the base 1, the air cylinders 74 are installed in the middle of the upper parts of the supporting plates 73, and the upper sides of piston rods of the air cylinders 74 are connected with the connecting plate 72.

Hold-down mechanism 8 is including first guide arm 81, slide 82, compression spring 83, hold-down frame 84, second guide arm 85, sliding plate 86 and extension spring 87, the upper portion left and right sides of brace table 2 all is connected with first guide arm 81, all be connected with slide 82 on the first guide arm 81 in a sliding manner, all be connected with compression spring 83 between slide 82 and the brace table 2, compression spring 83 overlaps on first guide arm 81, all be connected with hold-down frame 84 between the front and back both sides slide 82 lower part, slide 82 lower part outside all is connected with second guide arm 85, all be connected with sliding plate 86 between the left and right sides second guide arm 85 in a sliding manner, sliding plate 86 is connected with bearing frame 5, all be connected with extension spring 87 between sliding plate 86 and the slide 82, extension spring 87 overlaps on second guide arm 85.

When a user needs to detect the ductility of the textile fabric, firstly, the fabric is woven on the support tables 2 at two sides, the air cylinder 74 is started, the piston rod of the air cylinder 74 moves downwards to drive the connecting plate 72 and the bearing seat 5 to move downwards, the return spring 71 is stretched to drive the sliding plate 86, the second guide rod 85 and the sliding plate 82 to move downwards, the compression spring 83 is compressed to drive the pressing frame 84 to move downwards to press the fabric in the groove on the support table 2, at the moment, the pressing frame 84 and the sliding plate 82 do not move any more, the bearing seat 5 drives the sliding plate 86 to move downwards, the extension spring 87 is stretched, when the bearing seat 5 moves downwards, the detection cylinder 6 is also driven to move downwards to contact with the fabric and push the middle part of the fabric to be sunken downwards, so that the fabric is continuously pushed by the detection cylinder 6 to be bent and sunken under the pressing state, and the user can judge the ductility of the textile fabric through observation, after the detection is finished, the piston rod of the air cylinder 74 moves upwards to drive the connecting plate 72, the bearing seat 5 moves upwards, the reset spring 71 retracts to drive the detection cylinder 6 to move upwards to be away from the cloth, the detection is stopped, when the bearing seat 5 moves upwards, the sliding plate 86 also moves upwards, the extension spring 87 retracts to be in the original state, the second guide rod 85 is driven, the sliding plate 82 and the pressing frame 84 move upwards, the compression spring 83 stretches back and recovers to be in the original state, the cloth is loosened, the cloth can be taken down and collected, the cloth is reciprocated, after all the cloth is detected, or when the cloth is damaged, the air cylinder 74 is immediately closed, the equipment is stopped to operate, and the effect of automatically pressing the cloth and detecting the ductility of the textile cloth is achieved.

Example 2

As shown in fig. 1 and fig. 3 to 7, in some embodiments, the supporting assembly 9 further includes a supporting assembly 9, the supporting assembly 9 includes a guide rail 91, a slider 92, a roller 93, a first sliding rod 94, a first spring 95, a connecting rod 96 and a pressing rod 97, the guide rail 91 is symmetrically connected to the front and rear sides of the upper portion of the base 1, the slider 92 is slidably connected to the inside of the guide rail 91, the roller 93 is rotatably connected between the sliders 92 at the front and rear sides, the first sliding rod 94 is connected to the lower side of the slider 92, the first sliding rod 94 is slidably connected to the guide rail 91, the connecting rod 96 is connected to the lower side of the first sliding rod 94 at the left and right sides, the first spring 95 is connected to the connecting rod 96 and the guide rail 91, the first spring 95 is sleeved on the first sliding rod 94, the pressing rod 97 is connected to the left and right sides of the lower portion of the connecting plate 72, and the pressing rod 97 and the connecting rod 96 are engaged with each other.

When placing the cloth on a supporting table 2, the cloth is supported by the roller 93, when beginning to detect, when the connecting plate 72 moves down, it will drive the pressure lever 97 to move down, it moves down to promote the connecting rod 96, the first spring 95 is stretched, drive the first slide bar 94, the slider 92 moves down, thereby it keeps away from the cloth to drive the roller 93 to move down, make the cloth can be smoothly promoted to buckle the sunken by detecting section of thick bamboo 6, after the cloth ductility detects and finishes, the connecting plate 72 moves up, it keeps away from the connecting rod 96 to drive the pressure lever 97 to move up, under the effect of the first spring 95, promote the connecting rod 96, the first slide bar 94, the slider 92 and the roller 93 move up, resume to former state, so reciprocate, reach and provide the support and do not hinder the effect that detects for the cloth.

The automatic pulling device further comprises a pulling assembly 10, the pulling assembly 10 comprises a guide frame 101, a sliding block 102, a pressing rod 103, a second spring 104, a wedge-shaped plate 105, a wedge-shaped rod 106, a transmission wheel 107, a transmission belt 108, a bearing plate 109 and a third spring 1010, the guide frame 101 is connected to the left side and the right side of the upper portion of the support table 2, the sliding block 102 is connected to the guide frame 101 in a sliding manner, the third spring 1010 is connected between the sliding block 102 and the guide frame 101 in a sliding manner, the third spring 1010 is sleeved on the guide frame 101, the pressing rod 103 is connected to the inner side of the sliding block 102 in a sliding manner, the second spring 104 is connected between the pressing rod 103 and the sliding block 102 and sleeved on the pressing rod 103, the wedge-shaped plates 105 are symmetrically connected to the left side and the right side of the upper portion of the support table 2, the wedge-shaped plates 105 are matched with the pressing rod 103, the wedge-shaped rod 106 is connected to the middle of the lower portion of the sliding plate 82, and the wedge-shaped rod 106 is matched with the sliding block 102, the equal fore-and-aft symmetry rotary type in the left and right sides of brace table 2 is connected with transmission wheel 107, all is connected with transmission band 108 between transmission wheel 107, and the 2 left and right sides of brace table all are connected with bearing plate 109, and bearing plate 109 contacts with transmission band 108 upside.

After cloth is placed on the support table 2, the cloth is laid on the transmission belt 108, when the sliding plate 82 moves downwards, the wedge-shaped rod 106 is driven to move downwards, the sliding block 102 is pushed to move outwards, the third spring 1010 is stretched, the pressing rod 103 is driven to move outwards, so that the pressing rod 103 is pushed by the wedge-shaped plate 105 and moves downwards, the second spring 104 is stretched, the pressing rod 103 contacts the cloth on the transmission belt 108, the sliding plate 82 drives the wedge-shaped rod 106 to continue to move downwards, the sliding block 102 and the pressing rod 103 are driven to move forwards, the pressing rod 103 drives the cloth to be tensioned outwards, the cloth is tensioned, the transmission belt 108 and the transmission wheel 107 are driven to rotate simultaneously, after detection is finished, the sliding plate 82 moves upwards, the sliding block 106 is driven to move upwards to be far away from the sliding block 102, under the action of the third spring 1010, the sliding block 102 and the pressing rod 103 are driven to move inwards, and the pressing rod 103 is far away from the wedge-shaped plate 105, under the effect of second spring 104, promote to compress tightly pole 103 rebound and keep away from the cloth, loosen the cloth, resume to original state, so reciprocal, reach the automatic effect of tightening the cloth, avoid having the fold on the cloth to influence the testing result.

Still including detection element 11, detection element 11 is including support 111, rack 112, mounting panel 113, coating pole 114, fourth spring 115 and contact piece 116, 1 upper portion left side intermediate junction of base has support 111, support 111 upper portion left side is connected with rack 112, support 111 upper portion right side is connected with mounting panel 113, the even sliding connection in interval has four coating poles 114 on the mounting panel 113, be connected with fourth spring 115 between coating pole 114 middle part and the mounting panel 113, fourth spring 115 overlaps on coating pole 114, sliding plate 86 left side intermediate junction has contact piece 116, contact piece 116 and coating pole 114 are mutually supported.

When the cloth ductility is detected, the sliding plate 86 moves downwards to drive the contact block 116 to move downwards, the contact block 116 is contacted with the coating rod 114 and then pushes the coating rod 114 to move leftwards, the fourth spring 115 is stretched, the coating rod 114 is contacted with the white paper to leave a mark, the contact block 116 continues to move downwards to pass through the coating rod 114, the coating rod 114 is pushed to move rightwards to be away from the white paper under the action of the fourth spring 115 to recover to the original state, if the ductility of the textile cloth is good, the detection cylinder 6 continues to move downwards, namely the bearing seat 5, the sliding plate 86 and the contact block 116 can continue to move downwards, the process is repeated, the mark is continuously left on the white paper, after the detection is finished, the sliding plate 86 moves upwards to drive the contact block 116 to move upwards, the contact block 114 is firstly contacted with the coating rod 114, the coating rod 114 is pushed leftwards, and the contact block 116 is away from the coating rod 114, the coating rod 114 resets and moves to the right, and is recovered to the original state, and white paper can be taken out at this moment, and through observing the number of seal of a government organization in old china on the white paper, the ductility of cloth is judged, so reciprocal, reach the effect that detects out textile fabric's ductility more directly perceivedly.

Still including spacing subassembly 12, spacing subassembly 12 is including mount pad 121, gag lever post 122 and fifth spring 123, and slider 92 upper portion all is connected with mount pad 121, and mount pad 121 upper portion all is connected with gag lever post 122 slidingly, all is connected with fifth spring 123 between gag lever post 122 and the mount pad 121, and fifth spring 123 overlaps on gag lever post 122.

When the detection is started, the sliding block 92 moves downwards to drive the mounting seat 121 and the limiting rod 122 to move downwards, the limiting rod 122 presses the cloth and then does not move any more, the cloth is pressed and limited to be incapable of moving left and right, the sliding block 92 drives the mounting seat 121 to continue to move downwards, the fifth spring 123 is compressed, after the detection is finished, the sliding block 92 moves upwards to drive the mounting seat 121 to move upwards, the fifth spring 123 extends back to the original state and then drives the limiting rod 122 to move upwards together to loosen the cloth and restore to the original state, and the reciprocating operation is performed, so that the effects of automatically pressing and limiting the textile cloth are achieved.

The above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present 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 solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (8)

1. The utility model provides a ductility check out test set based on processing of textile fabric, characterized by including: the device comprises a base (1), wherein supporting tables (2) are connected to two sides of the upper part of the base (1); the fixing plates (3) are connected to two sides of the upper part of the base (1); the upper parts of the fixed plates (3) are connected with the sliding rods (4) in a sliding way; the lower sides of the sliding rods (4) are connected with bearing seats (5); the detection cylinder (6) is connected between the bearing seats (5); the driving mechanism (7) is arranged in the middle of the base (1) and between the bearing seat (5) and the fixed plate (3); a pressing mechanism (8), and the pressing mechanism (8) is arranged between the upper part of the support platform (2) and the bearing seat (5).

2. A ductility sensing device in textile fabric processing, as in claim 1, characterized in that said driving means (7) comprise: the reset springs (71) are connected between the fixed plate (3) and the bearing seat (5), and the reset springs (71) are sleeved on the sliding rods (4); the connecting plate (72) is connected between the lower parts of the bearing seats (5); the supporting plate (73) is connected between the two sides of the middle part of the base (1); the cylinder (74) is installed in the middle of the upper portion of the supporting plate (73), and the upper side of a piston rod of the cylinder (74) is connected with the connecting plate (72).

3. A ductility sensing device in textile fabric processing, as in claim 2, characterized in that the hold-down mechanism (8) comprises: the two sides of the upper part of the support table (2) are connected with the first guide rods (81); the sliding plates (82) are connected to the first guide rods (81) in a sliding manner; the compression springs (83) are connected between the sliding plate (82) and the supporting platform (2), and the compression springs (83) are sleeved on the first guide rod (81); the pressing frame (84) is connected between the lower parts of the sliding plates (82) on the two sides; the outer sides of the lower parts of the sliding plates (82) are connected with second guide rods (85); the sliding plates (86) are connected between the second guide rods (85) on the two sides in a sliding mode, and the sliding plates (86) are connected with the bearing seats (5); and the extension springs (87) are connected between the sliding plate (86) and the sliding plate (82), and the extension springs (87) are sleeved on the second guide rod (85).

4. A ductility sensing device based on textile fabric processing, as in claim 3, characterized in that it further comprises a supporting member (9), the supporting member (9) comprising: the guide rails (91) are symmetrically connected to the two sides of the upper part of the base (1); the sliding blocks (92) are connected inside the guide rails (91) in a sliding manner; the roller (93) is rotatably connected between the sliding blocks (92) on the two sides of the roller (93); the lower sides of the sliding blocks (92) are connected with first sliding rods (94), and the first sliding rods (94) are connected with the guide rails (91) in a sliding mode; the connecting rod (96) is connected between the lower sides of the first sliding rods (94) on the two sides; the first springs (95) are connected between the connecting rods (96) and the guide rails (91), and the first springs (95) are sleeved on the first sliding rods (94); the two sides of the lower part of the connecting plate (72) are both connected with a pressure lever (97), and the pressure lever (97) is matched with the connecting rod (96).

5. A ductility test device in textile fabric processing, as in claim 4, characterized in that it further comprises a pulling member (10), said pulling member (10) comprising: the guide frame (101) is connected to both sides of the upper part of the support table (2); the sliding blocks (102) are connected to the guide frame (101) in a sliding manner; the third spring (1010) is connected between the sliding block (102) and the guide frame (101), and the third spring (1010) is sleeved on the guide frame (101); the inner sides of the sliding blocks (102) are connected with the pressing rods (103) in a sliding manner; the second springs (104) are connected between the pressing rod (103) and the sliding block (102), and the second springs (104) are sleeved on the pressing rod (103); the wedge-shaped plates (105) are symmetrically connected to the outer sides of the upper parts of the supporting platforms (2), and the wedge-shaped plates (105) are matched with the pressing rods (103); the middle of the lower part of the sliding plate (82) is connected with a wedge-shaped rod (106), and the wedge-shaped rod (106) is matched with the sliding block (102); the transmission wheels (107) are symmetrically and rotatably connected to the two sides of the supporting platform (2); the conveying belts (108) are connected between the conveying wheels (107); bearing plate (109), brace table (2) both sides all are connected with bearing plate (109), and bearing plate (109) contact with transmission band (108) upside.

6. A ductility detection device based on textile fabric processing, as in claim 5, characterized by further comprising a detection assembly (11), the detection assembly (11) comprising: the middle of one side of the upper part of the base (1) is connected with the bracket (111); the rack (112) is connected to one side of the upper part of the bracket (111); the mounting plate (113) is connected to one side of the upper part of the bracket (111); the coating rods (114), four coating rods (114) are connected on the mounting plate (113) at intervals in a sliding manner; a fourth spring (115) is connected between the middle part of the coating rod (114) and the mounting plate (113), and the coating rod (114) is sleeved with the fourth spring (115); the middle of one side of the sliding plate (86) is connected with the contact block (116), and the contact block (116) is matched with the paint rod (114).

7. The ductility detection device based on textile fabric processing according to claim 6, characterized by further comprising a limiting component (12), wherein the limiting component (12) is arranged on the upper portion of the sliding block (92).

8. The ductility detection device based on textile fabric processing according to claim 7, characterized in that the limiting component (12) comprises: the upper parts of the sliding blocks (92) are connected with the mounting seats (121); the upper parts of the limiting rods (122) and the mounting seat (121) are both connected with the limiting rods (122) in a sliding manner; and a fifth spring (123) is connected between the limiting rod (122) and the mounting seat (121), and the fifth spring (123) is sleeved on the limiting rod (122).

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