CN116289011B

CN116289011B - Textile fabric infiltration treatment equipment

Info

Publication number: CN116289011B
Application number: CN202310574553.7A
Authority: CN
Inventors: 吴晶
Original assignee: Jiangsu Zhongfanglian Knitting Co ltd
Current assignee: Jiangsu Zhongfanglian Knitting Co ltd
Priority date: 2023-05-22
Filing date: 2023-05-22
Publication date: 2023-07-28
Anticipated expiration: 2043-05-22
Also published as: CN116289011A

Abstract

The invention relates to the technical field of cloth treatment, in particular to textile cloth infiltration treatment equipment, which comprises a treatment module, wherein lifting modules are arranged on two sides of the treatment module, the treatment module comprises a treatment box, a baffle is fixedly connected to the inner side surface of the treatment box, a plurality of sequentially stacked placement frames are arranged on two sides of the baffle, cross pipes are fixedly connected to the bottoms of the inner side surfaces of the placement frames, and communication frames are fixedly connected to the ends of the two side surfaces of the treatment box corresponding to the adjacent cross pipes. According to the invention, the cross tube is fixedly connected to the bottom of the inner side surface of the placing frame, the dye can be conveyed into the cross tube through the communicating frame, so that the dye flows out from the top end and the bottom end of the cross tube, and meanwhile, the dye is conveyed to the middle part of the cloth, so that the dye can flow from the middle part of the cloth to the side edge of the cloth, the cloth is stretched, the cloth is suspended in the placing frame, the cloth is limited while the contact between the cloth and the inner wall of the placing frame is avoided, and the improvement of the soaking dyeing treatment of the cloth is facilitated.

Description

Textile fabric infiltration treatment equipment

Technical Field

The invention relates to the technical field of cloth treatment, in particular to a textile cloth infiltration treatment device.

Background

In textile fabric production process, some cubic cloth is soaked in the dyestuff and is dyed sometimes, and in order to avoid the mutual overlapping of polylith cloth, in order to avoid cloth and the container inner wall contact that is equipped with the dyestuff simultaneously, influence the dyeing effect of cloth, generally can use clamping frame etc. to carry out the centre gripping spacing to the cloth, but the clamping frame is when carrying out the centre gripping to cubic cloth, and the clamping end of clamping frame probably produces the shielding to the quilt centre gripping position of cloth, influences the contact of partial cloth and dyestuff, is unfavorable for the infiltration dyeing treatment of cloth.

Disclosure of Invention

In order to overcome the technical problems, the invention aims to provide textile fabric infiltration treatment equipment, wherein a cross pipe is fixedly connected to the bottom of the inner side surface of a placing frame, dye can be conveyed into the cross pipe through a communicating frame, so that the dye flows out from the top end and the bottom end of the cross pipe, and meanwhile, the dye is conveyed to the middle part of the fabric, so that the dye can flow from the middle part of the fabric to the side edge of the fabric, the fabric is stretched, the fabric is suspended in the placing frame, the fabric is limited while the fabric is prevented from contacting the inner wall of the placing frame, and the infiltration dyeing treatment of the fabric is improved.

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

the utility model provides a textile fabric infiltration treatment facility, includes processing module, processing module both sides all are provided with lifting module, processing module is including handling the case, handling case medial surface fixedly connected with baffle, the baffle both sides all are provided with a plurality of frame of placing that stack in proper order, place frame medial surface bottom fixedly connected with cross pipe, two sides of handling case correspond the equal fixedly connected with intercommunication frame of adjacent cross pipe tip, a plurality of conveyer troughs have been seted up to intercommunication frame side correspond adjacent cross pipe tip, the intercommunication frame is located the side intercommunication that handles the case outside has the conveyer pipe, it has the calandria to handle case bottom intercommunication.

The cloth can be placed in the placement frame, the placement frame is overlapped and placed in the treatment box and is positioned on two sides of the partition board, the delivery pump can be configured, the output end of the delivery pump is connected with two delivery pipes through a pipeline, the input end of the delivery pump is connected with the discharge pipes through the pipeline, the delivery pump can suck out dye through the discharge pipes and then send the dye into the communication frame through the delivery pipes, the dye in the communication frame can flow into the cross pipes through the delivery grooves, and the dye can flow out from the top and the bottom of the cross pipes due to the blocking of the partition board to the adjacent ends of the cross pipes, so that the dye can be simultaneously conveyed to the middle of the cloth through the cross pipes at the top and the bottom of the cloth, and can flow from the middle of the cloth to the side of the cloth, so that the cloth can be stretched, and under the action of the dye at the bottom, the cloth can be suspended inside the placement frame, and the inner wall contact of the placement frame is avoided, and the cloth is limited, and the dye soaking effect of the cloth is favorable to be improved.

The method is further characterized in that: the bottom of the inner side surface of the treatment box is fixedly connected with a supporting plate which is contacted with the bottom surface of the adjacent placement frame, the width of the supporting plate is smaller than that of the treatment box, the supporting plate can support the placement frame, and dyes can flow to the bottom of the treatment box through two sides of the supporting plate.

The method is further characterized in that: the bottom surface of the treatment box is fixedly connected with four supporting legs, and the supporting legs can play a supporting role on the treatment box.

The method is further characterized in that: the inner bottom surface of the placing frame is provided with a plurality of open slots, the end parts of the cross pipe penetrate through the inner parts of the adjacent open slots, and dye flowing to the edge of the cloth can downwards flow through the open slots, so that the dye smoothly penetrates through the placing frame to flow to the calandria at the bottom of the treatment box.

The method is further characterized in that: the connecting frame inner side face corresponds to the conveying groove and is provided with a plurality of blocking blocks, one side face of each blocking block is fixedly connected with a spring fixedly connected with the inner side face of the connecting frame, the other side face of each blocking block is fixedly connected with two limiting rods which are in sliding connection with the side face of the adjacent conveying groove, one end of each limiting rod is in contact with one end of each adjacent cross pipe, the blocking blocks can block the conveying groove under the action of the springs, the limiting rods can limit the moving direction of the blocking blocks, when the placing frame moves towards the connecting frame, the end of each cross pipe can squeeze the limiting rods, so that the blocking blocks are separated from the conveying groove, the connecting frame is communicated with the cross pipe through the conveying groove, and dye passing through the conveying groove which does not correspond to the cross pipe can be avoided.

The method is further characterized in that: the lifting module comprises two fixing frames, the two fixing frames are respectively positioned on two sides of the partition board, the side faces of the fixing frames are fixedly connected with the inner side face of the treatment box, the top of the inner side face of the fixing frame is rotationally connected with a first rotating block, the two side faces of the rotating block are in transmission connection with a conveying belt, the side faces of the conveying belt are fixedly connected with a plurality of conveying blocks, the two side faces of the placing frame are fixedly connected with two supporting blocks, the top face of one conveying block positioned at the bottom is in contact with the bottom face of the adjacent supporting block, the rotating block can be rotated, the first rotating block can enable the conveying belt to rotate, the conveying belt can drive the conveying block to move, the placing frame is driven to move upwards or downwards through the supporting block, the placing frame with cloth is moved downwards, the cloth is placed in the placing frame conveniently, and the same placing frame can be supported and adjusted through the corresponding conveying belt of the two lifting modules.

The method is further characterized in that: the two fixed frame opposite surfaces bottom fixedly connected with drive frame, drive frame side and processing case medial surface fixed connection, drive frame medial surface rotates and is connected with two dwang that are connected with adjacent fixed frame medial surface rotation, two the one end that the dwang kept away from mutually all with be located adjacent dwang lateral surface fixed connection of bottom, drive frame bottom surface fixedly connected with and processing case fixed connection's drive box, drive box medial surface is provided with driving motor, drive frame medial surface rotates and is connected with the actuating lever, the driving motor output and actuating lever bottom transmission are connected, the fixed bevel gear first that has cup jointed in actuating lever side top, two the one end that the dwang is close to all is fixed cup jointed bevel gear second, and two bevel gears second all with bevel gear first meshing transmission, driving motor can drive the dwang rotation, and two dwang rotation of drive simultaneously, and the dwang can drive the dwang that is located the bottom to make the conveyer belt rotate, and two conveyer belt rotation direction opposite conveyer belt drive the conveyer belt of elevating module, can make the conveyer belt opposite side drive the conveyer belt and the conveyer block and make the opposite side of conveyer belt and the conveyer belt that the opposite side is placed and is placed down, thereby the conveyer belt can be moved down to the opposite side and is placed and is stacked.

The method is further characterized in that: the bottom of the inner side of the lifting module is provided with a first pushing module, the top of the inner side of the lifting module is provided with a second pushing module, the first pushing module has the same structure as the second pushing module, the first pushing module comprises an adjusting frame, two sides of the inner side of the adjusting frame are rotationally connected with a second rotating block, two sides of the second rotating block are in transmission connection with a pushing belt, the sides of the pushing belt are fixedly connected with a plurality of pushing blocks, the opposite sides of the two adjacent supporting blocks are in contact with the sides of the adjacent pushing blocks, a power motor can be arranged on the adjusting frame, the output end of the power motor is in transmission connection with the second rotating block in the adjusting frame, the second rotating block can drive the pushing belt to rotate, the pushing belt can drive the pushing block to move, the pushing block pushes the placing frame to move through the supporting block, the placing frame with one side at the bottom can pass through the partition plate to be translated to the bottom of the placing frame stacked on the other side through the pushing module I, and the placing frame with the other side at the top can be pushed to the top of the placing frame stacked on one side through the partition plate top through the pushing module II, thus the placing frame can be circularly moved around the partition plate in a shape like a Chinese character 'hui', the placing frame sequentially passes through the top of the inner side of the processing box, a plurality of cloths can be placed in a plurality of placing frames one by one from the top of the processing box, when the placing frames translate, the supporting blocks on the placing frames can be inserted into the conveying blocks of the corresponding conveying belts, when the placing frames are lifted, the supporting blocks on the placing frames can be inserted into the corresponding pushing blocks, so that the pushing blocks are positioned between the two supporting blocks, when one supporting block is contacted with the corresponding conveying block, the other supporting block adjacent to the pushing block is kept in a separated state with the conveying block, and after the translation, the other supporting block is contacted with the corresponding conveying block, and one support block is suspended.

The invention has the beneficial effects that:

1. through placing frame medial surface bottom fixedly connected with cross pipe, can place the cloth in placing frame, then will place the frame stack and place in the processing box, the accessible communicates the frame and carries the dyestuff to the cross intraductal, make dyestuff flow from cross pipe top and bottom, can make the cross pipe bottom that is located the cloth top and the cross pipe top that is located the cloth bottom carry the dyestuff to the cloth middle part simultaneously, the dyestuff can flow from the cloth middle part to the cloth side like this, make the cloth stretch, and make the cloth suspend in placing frame inside, when avoiding cloth and placing frame inner wall contact, carry out spacing to the cloth, be favorable to improving the infiltration dyeing effect of cloth;

2. through conveyer belt side fixedly connected with delivery block, conveyer belt accessible delivery block supports placing the frame with the supporting shoe, and a plurality of frame downwardly moving of placing that lifting module's one conveyer belt accessible delivery block made one side stack, and another conveyer belt can make a plurality of frame upwardly moving of placing that the opposite side was piled up, and the accessible promotes module one and promotes module two and make the frame that places that is located top and bottom remove to make a plurality of frame of placing around baffle cyclic movement, be convenient for put the cloth in placing the frame like this, and be convenient for take out the cloth, do not need manual stack to place the frame, facilitate use.

Drawings

The invention is further described below with reference to the accompanying drawings.

FIG. 1 is a schematic diagram of the overall structure of a textile fabric infiltration treatment apparatus of the present invention;

FIG. 2 is a schematic view of the internal structure of the treatment tank according to the present invention;

FIG. 3 is a schematic view of the structure of the treatment tank in the present invention;

FIG. 4 is a schematic view of a communication frame structure in the present invention;

fig. 5 is a schematic diagram showing the front view of the inside of the communication frame in the present invention;

FIG. 6 is an enlarged view at A of FIG. 5;

FIG. 7 is a schematic view of a placement frame structure in the present invention;

FIG. 8 is a schematic diagram of the front view of the interior of the placement frame of the present invention;

FIG. 9 is a schematic view of a lifting module according to the present invention;

fig. 10 is an enlarged view at B of fig. 9;

FIG. 11 is a schematic diagram of the internal side view of the fixed frame of the present invention;

FIG. 12 is a schematic view showing the front construction of the inside of the drive frame in the present invention;

fig. 13 is a schematic top view of the inside of the adjusting frame in the present invention.

In the figure: 100. a processing module; 110. a treatment box; 111. a partition plate; 112. a support plate; 113. a calandria; 120. placing a frame; 121. a cross pipe; 122. a support block; 123. an open slot; 130. a communication frame; 131. a delivery tube; 132. a conveying trough; 133. a spring; 134. blocking; 135. a limit rod; 140. support legs; 200. a lifting module; 210. a fixed frame; 211. a conveyor belt; 212. a transport block; 213. a first rotating block; 220. a drive frame; 221. a rotating lever; 222. a driving rod; 223. bevel gears I; 224. bevel gears II; 230. a drive box; 300. pushing the first module; 310. an adjusting frame; 320. pushing the belt; 321. a pushing block; 330. a second rotating block; 400. pushing the second module.

Detailed Description

The technical solutions of the embodiments of the present invention will be clearly and completely described below in conjunction with the embodiments of the present invention, and it is apparent that the described embodiments are only some embodiments of the present invention, not all embodiments. 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.

Referring to fig. 1-13, a textile fabric infiltration treatment apparatus includes a treatment module 100, lifting modules 200 are disposed on two sides of the treatment module 100, the treatment module 100 includes a treatment box 110, a partition board 111 is fixedly connected to an inner side surface of the treatment box 110, a plurality of sequentially stacked placement frames 120 are disposed on two sides of the partition board 111, cross pipes 121 are fixedly connected to bottoms of inner side surfaces of the placement frames 120, communication frames 130 are fixedly connected to ends of two side surfaces of the treatment box 110 corresponding to adjacent cross pipes 121, a plurality of conveying grooves 132 are formed in the side surfaces of the communication frames 130 corresponding to the ends of the adjacent cross pipes 121, conveying pipes 131 are communicated to side surfaces of the outer side surfaces of the treatment box 110, and discharge pipes 113 are communicated to the bottom surfaces of the treatment box 110.

The cloth can be placed in the placement frame 120, the placement frame 120 is overlapped and placed in the treatment box 110 and is positioned at two sides of the partition board 111, the conveying pump can be configured, the output end of the conveying pump is connected with the two conveying pipes 131 through the pipeline, the input end of the conveying pump is connected with the discharge pipe 113 through the pipeline, the conveying pump can suck out the dye through the discharge pipe 113 and then send the dye into the communication frame 130 through the conveying pipe 131, the dye in the communication frame 130 can flow into the cross pipe 121 through the conveying groove 132, and the dye can flow out from the top end and the bottom end of the cross pipe 121 due to the blocking of the partition board 111 to the adjacent end of the cross pipe 121, so that the dye can be conveyed to the middle part of the cloth through the cross pipe 121 at the top and the bottom of the cloth, the dye can flow from the middle part of the cloth to the side edge of the cloth, the cloth can be stretched, and under the action of the dye at the bottom, the cloth can be suspended in the placement frame 120, the inner wall contact of the cloth and the cloth is prevented from being limited by the inner wall of the placement frame 120, and the dye effect of the cloth is beneficial to improvement.

The bottom of the inner side surface of the treatment box 110 is fixedly connected with a supporting plate 112 which is contacted with the bottom surface of the adjacent placement frame 120, the width of the supporting plate 112 is smaller than that of the treatment box 110, the supporting plate 112 can support the placement frame 120, and dyes can flow to the bottom of the treatment box 110 through two sides of the supporting plate 112. The bottom surface of the treatment tank 110 is fixedly connected with four supporting legs 140, and the supporting legs 140 can play a supporting role on the treatment tank 110. A plurality of open slots 123 are formed in the inner bottom surface of the placement frame 120, and the end parts of the cross pipes 121 penetrate through the inner parts of the adjacent open slots 123, so that the dye flowing to the edge of the cloth can flow downwards through the open slots 123, and the dye smoothly passes through the placement frame 120 and flows to the drain pipes 113 at the bottom of the treatment box 110.

The inner side of the communicating frame 130 corresponds to the conveying groove 132 and is provided with a plurality of blocking blocks 134, one side surface of the blocking blocks 134 is fixedly connected with a spring 133 fixedly connected with the inner side surface of the communicating frame 130, the other side surface of the blocking blocks 134 is fixedly connected with two limiting rods 135 which are in sliding connection with the side surfaces of the adjacent conveying grooves 132, one ends of the limiting rods 135 are contacted with the end parts of the adjacent cross pipes 121, the blocking blocks 134 can block the conveying grooves 132 under the action of the spring 133, the limiting rods 135 can limit the moving direction of the blocking blocks 134, and when the placing frame 120 moves towards the communicating frame 130, the end parts of the cross pipes 121 can squeeze the limiting rods 135, so that the blocking blocks 134 are separated from the conveying grooves 132, and at the moment, the communicating frame 130 is communicated with the cross pipes 121 through the conveying grooves 132, so that dye can be prevented from passing through the conveying grooves 132 which are not corresponding to the cross pipes 121.

The lifting module 200 comprises two fixed frames 210, the two fixed frames 210 are respectively positioned at two sides of the partition 111, the side surfaces of the fixed frames 210 are fixedly connected with the inner side surfaces of the processing box 110, the top and the bottom of the inner side surfaces of the fixed frames 210 are respectively and rotatably connected with a first rotating block 213, the side surfaces of the two first rotating blocks 213 are in transmission connection with a conveying belt 211, the side surfaces of the conveying belt 211 are fixedly connected with a plurality of conveying blocks 212, the two side surfaces of the placing frame 120 are respectively and fixedly connected with two supporting blocks 122, the top surface of one conveying block 212 positioned at the bottom is contacted with the bottom surface of the adjacent supporting block 122, the first rotating block 213 can rotate the conveying belt 211, the conveying belt 211 can drive the conveying blocks 212 to move, the conveying blocks 212 can drive the placing frame 120 to move upwards or downwards through the supporting blocks 122, so that the bottom placing frame 120 is gradually moved to the top of the processing box 110, the placing frame 120 filled with cloth is conveniently moved downwards, the same placing frame 120 can be supported and adjusted by the corresponding conveying belts 211 of the two lifting modules 200, the top surfaces of the placing frame 120 can be arranged at the top surfaces of the bottom of the placing frame 120, the top surface of the placing frame 120 can be placed downwards by setting the two blocks at the top surfaces of the top surface of the placing frame 120, and the top 120 can be placed downwards by shifting the top surface of the top 120 by placing the top frame 120 by the top frame, and placing the top 120 can be placed downwards by the top 120 by shifting the top frame and moving upwards when the top frame 120 can be placed by the top and can be placed by placing 120.

The bottom of the opposite surface of the two fixed frames 210 is fixedly connected with a driving frame 220, the side surface of the driving frame 220 is fixedly connected with the inner side surface of the treatment box 110, the inner side surface of the driving frame 220 is rotationally connected with two rotating rods 221 which are rotationally connected with the inner side surface of the adjacent fixed frame 210, one end of each of the two rotating rods 221, which is far away from each other, is fixedly connected with the side surface of the adjacent rotating block one 213 positioned at the bottom, the bottom surface of the driving frame 220 is fixedly connected with a driving box 230 which is fixedly connected with the treatment box 110, the inner side surface of the driving box 230 is provided with a driving motor, the inner side surface of the driving frame 220 is rotationally connected with a driving rod 222, the output end of the driving motor is in transmission connection with the bottom end of the driving rod 222, the top of the side surface of the driving rod 222 is fixedly sleeved with a bevel gear one 223, one end, which is close to each of the two rotating rods 221 is fixedly sleeved with a bevel gear two 224, and the two bevel gears two 224 are in meshed transmission with the bevel gears one 223, the driving motor can drive the driving rod 222 to rotate, the driving rod 222 can drive the two rotating rods 221 to rotate in opposite directions through the first bevel gears 223 and the two bevel gears 224, the rotating rods 221 can drive the rotating blocks 213 positioned at the bottom to rotate, the first rotating blocks 213 are driven by the rotating rods 213, the driving rods 222 can rotate, the driving rods 213, the driving rods 211 can rotate the rotating blocks 213 respectively, the rotating 224 and the side 223 can rotate 223 and the first rotating 224, the side 223 and the first rotating 224 and the side 223 can and the first 223 and the rotating 224 and the rotating 223 can and the rotating 223 and the rotating blocks can.

The bottom of the inner side of the lifting module 200 is provided with a first pushing module 300, the top of the inner side of the lifting module 200 is provided with a second pushing module 400, the first pushing module 300 has the same structure as the second pushing module 400, the first pushing module 300 comprises an adjusting frame 310, both sides of the inner side surface of the adjusting frame 310 are rotationally connected with a second rotating block 330, the sides of the two rotating blocks 330 are in transmission connection with a pushing belt 320, the sides of the pushing belt 320 are fixedly connected with a plurality of pushing blocks 321, the opposite surfaces of the two adjacent supporting blocks 122 are in contact with the sides of the adjacent pushing blocks 321, a power motor can be arranged on the adjusting frame 310, the output end of the power motor is in transmission connection with one second rotating block 330 in the adjusting frame 310, thus the second rotating block 330 can drive the pushing belt 320 to rotate, the pushing belt 320 can drive the pushing blocks 321 to move, the pushing blocks 321 push the placing frame 120 to move through the supporting blocks 122, the first pushing module 300 can enable the placing frame 120 with one side at the bottom to move to the bottom of the placing frame 120 stacked on the other side through the partition 111, and the second pushing module 400 can push the placing frame 120 with the other side at the top to move to the top of the placing frame 120 stacked on one side through the top of the partition 111, thus the placing frame 120 can circularly move around the partition 111 in a shape like a Chinese character 'hui', the placing frames 120 sequentially pass through the top of the inner side of the processing box 110, a plurality of fabrics can be placed in a plurality of placing frames 120 one by one from the top of the processing box 110, when the placing frames 120 move horizontally, the supporting blocks 122 on the placing frames 120 can be inserted into the conveying blocks 212 of the corresponding conveying belts 211, when the placing frames 120 move vertically, the supporting blocks 122 on the placing frames 120 can be inserted into the corresponding pushing blocks 321, the pushing blocks 321 are positioned between the two supporting blocks 122, and when one supporting block 122 is contacted with the corresponding conveying block 212, the other support block 122 adjacent to the processing box 110 is kept in a separated state with the conveying block 212, after the other support block 122 is translated, the other support block 122 is contacted with the corresponding conveying block 212, and one support block 122 is suspended, the pushing module one 300 positioned on the same side of the processing box 110 can be in transmission connection with the pushing module two 400 by adopting the same transmission structure in the driving frame 220, so that the pushing belt 320 of the pushing module one 300 and the pushing module two 400 can be driven to rotate by one motor.

Working principle: when in use, the blocky cloth is placed in the placement frame 120 at one side of the top, then the first pushing module 300 and the second pushing module 400 can be rotated by the power motor, the second pushing module 330 drives the pushing belt 320 to rotate, the pushing belt 320 can drive the pushing block 321 to move, the pushing block 321 of the first pushing module 300 pushes the placement frame 120 at one side of the bottom to move by the supporting block 122, the placement frame 120 at one side of the bottom is translated to the bottom of the placement frame 120 stacked at the other side through the partition 111, the supporting blocks 122 on the placing frames 120 can be inserted into the conveying blocks 212 of the corresponding conveying belts 211, the pushing blocks 321 of the pushing modules II 400 push the placing frames 120 positioned at the top to move through the supporting blocks 122, the placing frames 120 positioned at the top on the other side translate to the top of the placing frames 120 stacked on one side through the top of the partition plates 111, and the supporting blocks 122 on the placing frames 120 can be inserted into the conveying blocks 212 of the conveying belts 211 on one side;

the driving motor can be started, the driving motor can drive the driving rod 222 to rotate, the driving rod 222 can drive the two rotating rods 221 to rotate through the first bevel gear 223 and the second bevel gear 224, the rotating rods 221 can drive the adjacent first rotating blocks 213 to rotate, the conveying belt 211 is enabled to rotate, the conveying belt 211 drives the conveying blocks 212 to move, the conveying belt 211 on one side of the lifting module 200 can enable the conveying blocks 212 contacted with the supporting blocks 122 to move downwards, at the moment, one pushing block 321 at the end of the pushing belt 320 is inserted between the two supporting blocks 122 positioned at the bottom under the action of the gravity of the placing frame 120, and the conveying belt 211 on the other side drives the supporting blocks 122 to move upwards through the conveying blocks 212, so that the placing frame 120 stacked on the other side moves upwards, the supporting blocks 122 positioned on the placing frame 120 on the top on the other side are inserted on the pushing blocks 321 of the pushing module two 400, then cloth can be placed in the placing frame 120 positioned on the top on one side, the placing frame 120 is enabled to form circular movement around the partition board 111, the placing frame 120 is enabled to sequentially process the tops of the inner sides of the box, and a plurality of cloth pieces are placed in the placing frames 120 one by one;

after the placing frame 120 and the communicating frame 130 are separated, under the action of the spring 133, the blocking piece 134 can block the conveying groove 132, and when the placing frame 120 moves towards the communicating frame 130, the cross pipe 121 in the placing frame 120 can squeeze the limiting rod 135, so that the blocking piece 134 is separated from the conveying groove 132, the end part of the cross pipe 121 is communicated with the conveying groove 132, the dye can be conveyed into the communicating frame 130 through the conveying pipe 131, and sucked out through the discharge pipe 113, the dye in the communicating frame 130 can pass through the conveying groove 132 to enter the cross pipe 121, and as the baffle 111 can block the adjacent end part of the cross pipe 121, the dye can flow out from the top end and the bottom end of the cross pipe 121 in the middle, so that impact is generated on the cloth in the placing frame 120, the cloth is suspended inside the placing frame 120, and the cloth is soaked and dyed.

In the description of the present specification, the descriptions of the terms "one embodiment," "example," "specific example," and the like, mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing is merely illustrative and explanatory of the invention, as various modifications and additions may be made to the particular embodiments described, or in a similar manner, by those skilled in the art, without departing from the scope of the invention or exceeding the scope of the invention as defined in the claims.

Claims

1. The utility model provides a textile fabric infiltration treatment equipment, its characterized in that, including processing module (100), processing module (100) both sides all are provided with lift module (200), processing module (100) are including processing case (110), processing case (110) medial surface fixedly connected with baffle (111), baffle (111) both sides all are provided with a plurality of frame (120) of placing that stack in proper order, place frame (120) medial surface bottom fixedly connected with cross tube (121), processing case (110) both sides face corresponds adjacent cross tube (121) tip all fixedly connected with intercommunication frame (130), a plurality of conveyer trough (132) have been seted up to intercommunication frame (130) side face corresponds adjacent cross tube (121) tip, the side intercommunication that intercommunication frame (130) are located processing case (110) outside has conveyer pipe (131), processing case (110) bottom surface intercommunication has calandria (113);

the lifting module (200) comprises two fixed frames (210), the two fixed frames (210) are respectively positioned at two sides of the partition board (111), the side surfaces of the fixed frames (210) are fixedly connected with the inner side surface of the processing box (110), the top and the bottom of the inner side surface of the fixed frames (210) are respectively and rotatably connected with a first rotating block (213), the side surfaces of the first rotating blocks (213) are in transmission connection with a conveying belt (211), the side surfaces of the conveying belt (211) are fixedly connected with a plurality of conveying blocks (212), the two side surfaces of the placing frame (120) are respectively and fixedly connected with two supporting blocks (122), and the top surface of one conveying block (212) positioned at the bottom is contacted with the bottom surface of the adjacent supporting block (122);

the dye delivery pump is configured, the output end of the delivery pump is connected with two delivery pipes (131) through a pipeline, the input end of the delivery pump is connected with a calandria (113) through the pipeline, the delivery pump sucks out dye through the calandria (113), then the dye is sent into a communication frame (130) through the delivery pipe (131), the dye in the communication frame (130) flows into a cross pipe (121) through a delivery groove (132), and the dye flows out from the top end and the bottom end of the cross pipe (121) due to the blocking of a baffle plate (111) to the adjacent end part of the cross pipe (121), so that the dye is simultaneously delivered to the middle part of the cloth through the cross pipe (121) at the top and the bottom of the cloth.

2. A textile fabric infiltration treatment apparatus as claimed in claim 1, wherein the bottom of the inner side of the treatment tank (110) is fixedly connected with a support plate (112) contacting the bottom surface of the adjacent placement frame (120), and the width of the support plate (112) is smaller than the width of the treatment tank (110).

3. A cloth infiltration treatment apparatus according to claim 1, in which four support legs (140) are fixedly connected to the bottom surface of the treatment tank (110).

4. A textile fabric infiltration treatment apparatus as claimed in claim 1, wherein a plurality of open slots (123) are provided in the inner bottom surface of the placement frame (120), and the ends of the cross pipes (121) pass through the inside of the adjacent open slots (123).

5. A textile fabric infiltration treatment apparatus according to claim 1, wherein the communicating frame (130) is provided with a plurality of blocking blocks (134) corresponding to the conveying grooves (132), one side surface of each blocking block (134) is fixedly connected with a spring (133) fixedly connected with the inner side surface of the communicating frame (130), the other side surface of each blocking block (134) is fixedly connected with two limiting rods (135) slidingly connected with the side surfaces of the adjacent conveying grooves (132), and one end of each limiting rod (135) is in contact with the end of the adjacent cross pipe (121).

6. The textile fabric infiltration treatment apparatus according to claim 1, wherein two opposite sides of the fixed frame (210) are fixedly connected with a driving frame (220), the side of the driving frame (220) is fixedly connected with the inner side of the treatment box (110), two rotating rods (221) rotatably connected with the inner side of the adjacent fixed frame (210) are rotatably connected with the inner side of the driving frame (220), one ends of the two rotating rods (221) far away from each other are fixedly connected with the side of an adjacent rotating block (213) positioned at the bottom, the bottom of the driving frame (220) is fixedly connected with a driving box (230) fixedly connected with the treatment box (110), the inner side of the driving box (230) is provided with a driving motor, the inner side of the driving frame (220) is rotatably connected with a driving rod (222), the output end of the driving motor is in transmission connection with the bottom end of the driving rod (222), one end of the side top of the driving rod (222) is fixedly sleeved with a bevel gear (223), one end of the two ends of the rotating rods (221) close to each other is fixedly sleeved with a bevel gear (224), and the two bevel gears (224) are meshed with the bevel gears (223).

7. The textile fabric infiltration treatment apparatus according to claim 1, wherein a first pushing module (300) is disposed at the bottom of the inner side of the lifting module (200), a second pushing module (400) is disposed at the top of the inner side of the lifting module (200), the first pushing module (300) has the same structure as the second pushing module (400), the first pushing module (300) comprises an adjusting frame (310), two rotating blocks two (330) are rotatably connected to two sides of the inner side of the adjusting frame (310), a pushing belt (320) is in transmission connection with two sides of the two rotating blocks two (330), a plurality of pushing blocks (321) are fixedly connected to sides of the pushing belt (320), and opposite faces of two adjacent supporting blocks (122) are in contact with sides of the adjacent pushing blocks (321).