CN109228623B

CN109228623B - Trapezoidal cloth taking and remaining integrated automatic device

Info

Publication number: CN109228623B
Application number: CN201811067317.1A
Authority: CN
Inventors: 张智明; 陈博雅; 段耀帅; 赖梓龙; 徐巧; 梅顺齐; 肖人彬
Original assignee: Wuhan Textile University
Current assignee: Wuhan Textile University
Priority date: 2018-09-13
Filing date: 2018-09-13
Publication date: 2020-06-09
Anticipated expiration: 2038-09-13
Also published as: CN109228623A

Abstract

The utility model provides a ladder type get cloth and stay cloth integration automatics, including the stamp platen, put the cloth board, the indent arc board, horizontal transmission, the drive unit, lifting unit and shop cloth roller, wherein, the stamp platen, put the cloth board and all incline the setting, the top of putting the cloth board is connected with the top of stamp platen through the indent arc board that the level was placed, be provided with horizontal transmission directly over the ladder-type structure that stamp platen, indent arc board, put the cloth board and constitute altogether, the transmission belt in the horizontal transmission carries out the conveying cooperation of horizontal direction with the middle part of drive unit, the both ends of drive unit are connected with the both ends of shop cloth roller that are located its below through the lifting unit, be provided with on the roll surface of shop cloth roller and get cloth bonding device, be provided with on the face of stamp platen and stay cloth bonding device, it is preferred to get cloth/stay cloth bonding device to be the glue layer. The design has the advantages of higher working efficiency, capability of smoothly ascending and descending the cloth spreading roller, stronger adjustability and wider application range.

Description

Trapezoidal cloth taking and remaining integrated automatic device

Technical Field

The invention relates to a cloth laying system, belongs to the field of textile machinery, and particularly relates to a trapezoidal integrated automatic cloth taking and remaining device which is particularly suitable for improving the working efficiency.

Background

The printing machine is one of the important equipments in the textile industry, and is widely applied in the industries of artificial fur, woolen cloth, acrylic fiber blanket, etc., among which, the most widely applied is screen printing.

When screen printing is carried out, although printing is realized through the matching of the scraper and the screen, in the past, it is more important to lay cloth on a printing plate, and whether the cloth is laid smoothly and whether the laying time can cooperate with printing operation is very important, so that the laying process of the cloth is also very critical in the screen printing process. However, in the prior art, both the cloth paving equipment and the cloth paving process are more and more difficult to meet the increasingly improved use requirements, so that the work efficiency is reduced, and more advanced cloth paving equipment and cloth paving process are urgently needed.

The information disclosed in this background section is only for enhancement of understanding of the general background of the patent application and should not be taken as an acknowledgement or any form of suggestion that this information forms the prior art already known to a person skilled in the art.

Disclosure of Invention

The invention aims to overcome the defects and problems of low working efficiency in the prior art, and provides a ladder-shaped cloth taking and retaining integrated automatic device with high working efficiency.

In order to achieve the above purpose, the technical solution of the invention is as follows: a ladder-shaped cloth taking and leaving integrated automatic device comprises a printing table plate and a cloth placing plate, wherein the printing table plate corresponds to a silk screen printing device, and cloth to be subjected to silk screen printing is placed on the cloth placing plate;

the integrated automatic device also comprises an inner concave arc plate, a cloth paving device and a horizontal transmission device, and the cloth paving device comprises a transmission unit, a lifting unit and a cloth paving roller; the printing table plate and the cloth placing plate are obliquely arranged, the top end of the cloth placing plate is connected with the left plate end of the inner concave arc plate, the right plate end of the inner concave arc plate is connected with the top end of the printing table plate, the left plate end and the right plate end are positioned on the same horizontal line, the middle part of the downwardly concave inner concave arc plate is lower than the left plate end and the right plate end, and the printing table plate, the inner concave arc plate and the cloth placing plate form a ladder-shaped structure; the printing table board, the inner concave arc board and the cloth placing board are provided with the same horizontal transmission device directly above, a transmission belt in the horizontal transmission device is in horizontal transmission fit with the middle of the transmission unit, two ends of the transmission unit are connected with the lifting unit, the output end of the lifting unit is connected with two ends of a cloth spreading roller below the lifting unit, a cloth taking bonding device is arranged on the roller surface of the cloth spreading roller, and a cloth remaining bonding device is arranged on the surface of the printing table board.

A plate groove is formed in the position, close to the inner concave arc plate, of the cloth placing plate, a rebound part is arranged in the plate groove, the fixed end of the rebound part is connected with the groove wall of the plate groove, and the movable end of the rebound part is in contact with the bottom surface of cloth.

The cloth taking and bonding device is a cloth taking glue layer, the cloth remaining and bonding device is a cloth remaining glue layer, and the bonding force of the cloth taking glue layer is smaller than that of the cloth remaining glue layer.

The transmission unit comprises a transmission flat plate, the lifting unit comprises a front lifting motor and a rear lifting motor, the middle of the transmission flat plate is connected with a transmission belt, the front end and the rear end of the transmission flat plate are respectively connected with the front lifting motor and the rear lifting motor, the output end of the rear lifting motor penetrates through the transmission flat plate and then is connected with the rear roller end of the spreading roller, the output end of the front lifting motor penetrates through the transmission flat plate and then is connected with the front roller end of the spreading roller, and the front roller end is connected with a rolling motor.

The lifting unit still includes preceding riser, back riser and well diaphragm, the bottom of preceding riser is connected with the front roll end, and the top of preceding riser is connected with preceding elevator motor's output, and the middle part of preceding riser is connected with the middle part of back riser through well diaphragm, and the bottom of back riser is connected with the back roll end, and the top of back riser is connected with back elevator motor's output, is provided with the shop's cloth roller rather than paralleling under the well diaphragm, and the front roll end is worn to be connected with the output of rolling motor behind the preceding riser.

The lifting unit further comprises a longitudinal automatic adjusting portion with the same structure, the longitudinal automatic adjusting portion comprises an inner adjusting vertical plate, a middle adjusting transverse plate, an outer adjusting vertical plate and an adjusting spring, the inner side face of the inner adjusting vertical plate is connected with the output end of the front lifting motor or the output end of the rear lifting motor, the top end of the inner adjusting vertical plate is connected with the top end of the outer adjusting vertical plate through the middle adjusting transverse plate, the inner adjusting vertical plate, the middle adjusting transverse plate and the outer adjusting vertical plate are clamped into a longitudinal adjusting cavity with a downward one-way opening, the adjusting spring is arranged in the longitudinal adjusting cavity, the top end of the adjusting spring is connected with the bottom surface of the middle adjusting transverse plate through a fixing column, the bottom end of the adjusting spring is connected with the top end of the front vertical plate or the top end of the rear vertical plate, and the bottom end of the front vertical plate or.

The transmission unit comprises a transmission flat plate, a transmission seat and a sealing clamping plate, the two ends of the transmission flat plate are connected with the lifting unit, the middle of the transmission flat plate is connected with the bottom surface of the transmission seat, a sealing groove is formed in the top surface of the transmission seat, the top surface of the sealing groove is in sealing fit with the side wall of the sealing clamping plate, the bottom surface of the sealing clamping plate is connected with the transmission belt, and the transmission belt penetrates through a sealing cavity formed by the sealing groove and the sealing clamping plate.

The transmission unit further comprises a sliding rail plate, the middle of the sliding rail plate is connected with the top surface of the transmission seat, the sealing clamping plate is clamped between the sliding rail plate and the transmission seat, two ends of the sliding rail plate are in sliding fit with the tops of the front rail and the rear rail respectively, and the front rail, the rear rail and the transmission belt are parallel to each other in pairs.

The horizontal transmission device comprises a transmission belt, a front transmission pulley and a rear transmission pulley, two ends of the transmission belt are respectively wound around the sides of the front transmission pulley and the rear transmission pulley, the middle part of the front transmission pulley is connected with the inner wall of the front pulley seat embedded with the front transmission pulley, and the middle part of the rear transmission pulley is connected with the inner wall of the rear pulley seat embedded with the rear transmission pulley.

The front pulley seat comprises a front upper wheel plate, a front lower wheel plate and a front bottom wheel seat, the middle parts of the front upper wheel plate and the front lower wheel plate are connected with the two ends of the middle part of the front transmission pulley clamped between the front upper wheel plate and the front lower wheel plate, and the bottoms of the front upper wheel plate and the front lower wheel plate are connected with the top of the front bottom wheel seat; the rear pulley seat comprises a rear upper wheel plate, a rear lower wheel plate, a rear side wheel plate and a rear bottom wheel seat, the middle parts of the rear upper wheel plate and the rear lower wheel plate are connected with the two ends of the middle part of a rear transmission pulley clamped between the middle parts of the rear upper wheel plate and the rear lower wheel plate, the side parts of the rear upper wheel plate and the rear lower wheel plate are connected with the rear side wheel plate, a convex vent is arranged on the rear side wheel plate, and the bottoms of the rear upper wheel plate and the rear lower wheel plate are connected with the top of the rear bottom wheel seat.

Compared with the prior art, the invention has the beneficial effects that:

1. the invention relates to a ladder-shaped cloth taking and remaining integrated automatic device, which is based on a ladder-shaped structure formed by a printing table plate, an inner concave arc plate and a cloth placing plate, wherein a horizontal transmission device is suspended right above the ladder-shaped structure, a transmission belt in the horizontal transmission device drives a lifting unit and a cloth laying roller to move in the same direction through a transmission unit, when the device is applied, the transmission unit drives the cloth laying roller to move obliquely upwards from left to right along the cloth placing plate so as to wind the cloth on the cloth placing plate on the roller surface of the cloth laying roller, transition adjustment is carried out at the inner concave arc plate, for example, the cloth laying roller is turned forwards and backwards (the positions of a front roller end and a rear roller end are changed), then the cloth is driven to move to the top end of the printing table plate, then the transmission unit drives the cloth laying roller to move obliquely downwards from left to right along the printing table plate so as to lay the cloth wound on the roller surface on the plate surface of the printing table plate, and the whole process is mechanically operated, the manual work is not needed, the working efficiency is higher, the safety is higher, the steps are smoothly linked, and the working efficiency can be greatly improved. Therefore, the invention has higher working efficiency.

2. In the ladder-type cloth taking and remaining integrated automatic device, when the cloth spreading roller moves obliquely along the cloth placing plate or the printing table plate, the height of the cloth spreading roller is constantly changed, at the moment, the height of the cloth spreading roller can be actively adjusted through the lifting of the lifting unit, the height of the cloth spreading roller can also be adjusted through the follow-up adjustment of the longitudinal automatic adjusting part, the adjustment modes are various, the adjustability is strong, and more use requirements can be met. Therefore, the invention has strong adjustability and wide application range.

3. The invention relates to a ladder-shaped cloth taking and remaining integrated automatic device, wherein a longitudinal automatic adjusting part comprises an inner adjusting vertical plate, a middle adjusting transverse plate, an outer adjusting vertical plate and an adjusting spring, the inner side surface of the inner adjusting vertical plate is connected with the output end of a lifting motor, an adjusting spring is arranged in a longitudinal adjusting cavity formed by clamping the inner adjusting vertical plate, the middle adjusting transverse plate and the outer adjusting vertical plate, the top end of the adjusting spring is connected with the bottom surface of the middle adjusting transverse plate, the bottom end of the adjusting spring is connected with the top end of a front vertical plate or a rear vertical plate, when in use, the top ends of the front vertical plate or the rear vertical plate perform vertical relative sliding in the longitudinal adjusting cavity along with the change of the height of a cloth spreading roller, the relative sliding plays a role of pushing up or pulling down for the adjusting spring, and the adjusting spring plays a role of restraining for the relative sliding, can ensure the smooth performance of the relative sliding and does not, but also can play the most basic traction role to the cloth spreading roller, and avoid the cloth spreading roller from rising or pulling down too deeply to hinder the normal operation of the equipment. Therefore, the invention can smoothly raise and lower the cloth spreading roller, and ensure the smooth operation of cloth taking and cloth retaining.

4. In the ladder-type cloth taking and remaining integrated automatic device, the cloth taking and bonding device is preferably a cloth taking glue layer, the cloth remaining and bonding device is preferably a cloth remaining glue layer, the bonding force of the cloth taking glue layer is smaller than that of the cloth remaining glue layer, the design utilizes the viscosity of the cloth taking glue layer to take cloth from the cloth placing plate, and simultaneously utilizes the characteristic that the bonding force of the cloth remaining glue layer is larger than that of the cloth taking glue layer to lay the cloth wound on the roller surface on the printing table plate, so that the smooth operation of cloth taking and remaining is facilitated, the operation is simple, the realization is easy, the cost is low, in addition, the glue amount can be supplemented at any time in the gap of each round of cloth taking and remaining operation to ensure the smooth operation process, the maintenance is easy, and the safety is higher. Therefore, the invention has the advantages of simple operation, low cost, easy maintenance and high safety.

5. In the ladder-shaped integrated automatic device for taking and remaining cloth, the middle part of a transmission flat plate is connected with the bottom surface of a transmission seat, a sealing groove is formed in the top surface of the transmission seat, a sealing clamping plate is embedded in the top surface of the sealing groove to realize sealing fit, meanwhile, the sealing clamping plate is fixedly connected with the top surface of the transmission seat, at the moment, the sealing groove and the sealing clamping plate are clamped into a sealing cavity, a transmission belt passes through the sealing cavity, the top of the part, located in the sealing cavity, of the transmission belt is connected with the bottom surface of the sealing clamping plate, and when the ladder-shaped integrated automatic device is used, the transmission belt drives the transmission flat plate to horizontally move through the sealing clamping plate and the transmission seat in sequence, so that the transmission is smooth, the sealing cavity is favorable for monitoring and maintaining the joint of the transmission. Therefore, the invention not only has higher transmission efficiency, but also is easy to maintain.

Drawings

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

Fig. 2 is a schematic structural view of the horizontal transmission device in fig. 1.

Figure 3 is a schematic view of the belt of figure 2.

Fig. 4 is an enlarged schematic view of the transmission unit of fig. 3.

Fig. 5 is an enlarged schematic view of the front drive pulley of fig. 3.

Fig. 6 is an enlarged schematic view of the rear drive pulley of fig. 3.

Fig. 7 is a schematic structural view of the lifting unit of fig. 1.

In the figure: cloth 1, a printing table board 2, a cloth retaining bonding device 21, a cloth placing board 3, an inner concave arc board 31, a left board end 32, a right board end 33, a board groove 34, a rebound piece 35, a fixed end 351, a movable end 352, a cloth paving device 4, a horizontal transmission device 5, a transmission belt 51, a front transmission pulley 52, a rear transmission pulley 53, a front pulley seat 54, a front upper wheel board 541, a front lower wheel board 542, a front bottom wheel seat 543, a rear pulley seat 55, a rear upper wheel board 551, a rear lower wheel board 552, a rear bottom wheel seat 553, a rear side wheel board 554, a ventilation opening 555, a cloth paving roller 6, a cloth taking bonding device 61, a front roller end 62, a rear roller end 63, a rolling motor 64, a transmission unit 7, a transmission flat board 71, a transmission seat 72, a sealing clamping board 73, a sealing groove 74, a sealing cavity 75, a sliding rail board 76, a front rail 77, a rear rail 78, a lifting unit 8, a front lifting motor 81, a rear lifting motor 82, a front vertical board 83, a rear vertical board 84, the automatic adjusting device comprises a central transverse plate 85, a longitudinal automatic adjusting part 9, an inner adjusting vertical plate 91, a central adjusting transverse plate 92, an outer adjusting vertical plate 93, an adjusting spring 94, a longitudinal adjusting cavity 95 and a fixing column 96.

Detailed Description

The present invention will be described in further detail with reference to the following description and embodiments in conjunction with the accompanying drawings.

Referring to fig. 1 to 7, a ladder-shaped cloth taking and leaving integrated automatic device comprises a printing table 2 and a cloth placing plate 3, wherein the printing table 2 corresponds to a screen printing device, and a cloth 1 to be screen printed is placed on the cloth placing plate 3;

the integrated automatic device also comprises an inner concave arc plate 31, a cloth paving device 4 and a horizontal transmission device 5, wherein the cloth paving device 4 comprises a transmission unit 7, a lifting unit 8 and a cloth paving roller 6; the printing table board 2 and the cloth placing board 3 are both obliquely arranged, the top end of the cloth placing board 3 is connected with the left board end 32 of the inner concave arc board 31, the right board end 33 of the inner concave arc board 31 is connected with the top end of the printing table board 2, the left board end 32 and the right board end 33 are positioned on the same horizontal line, the middle part of the downward concave arc board 31 is lower than the left board end 32 and the right board end 33, and the printing table board 2, the inner concave arc board 31 and the cloth placing board 3 form a ladder-shaped structure; the printing table board 2, the inner concave arc plate 31 and the cloth placing plate 3 are provided with the same horizontal transmission device 5 directly above, a transmission belt 51 in the horizontal transmission device 5 is in transmission fit with the middle of the transmission unit 7 in the horizontal direction, two ends of the transmission unit 7 are connected with the lifting unit 8, the output end of the lifting unit 8 is connected with two ends of the cloth spreading roller 6 below the lifting unit, a cloth taking bonding device 61 is arranged on the roller surface of the cloth spreading roller 6, and a cloth remaining bonding device 21 is arranged on the surface of the printing table board 2.

A plate groove 34 is formed in the cloth placing plate 3 near the inner concave arc plate 31, a rebound part 35 is arranged in the plate groove 34, the fixed end 351 of the rebound part 35 is connected with the groove wall of the plate groove 34, and the movable end 352 of the rebound part 35 is in contact with the bottom surface of the cloth 1.

The cloth taking and bonding device 61 is a cloth taking glue layer, the cloth remaining and bonding device 21 is a cloth remaining glue layer, and the bonding force of the cloth taking glue layer is smaller than that of the cloth remaining glue layer.

The drive unit 7 includes the dull and stereotyped 71 of transmission, the lift unit 8 includes preceding elevator motor 81 and back elevator motor 82, the middle part of the dull and stereotyped 71 of transmission is connected with drive belt 51, and the preceding of the dull and stereotyped 71 of transmission, back both ends are connected with preceding elevator motor 81, back elevator motor 82 respectively, and the output of back elevator motor 82 is passed behind the dull and stereotyped 71 of transmission and is connected with the back roller end 63 of spreading cloth roller 6, and the output of preceding elevator motor 81 is passed behind the dull and stereotyped 71 of transmission and is connected with the front roll end 62 of spreading cloth roller 6, and is connected with the rolling motor 64 on the front roll end 62.

The lifting unit 8 further comprises a front vertical plate 83, a rear vertical plate 84 and a middle transverse plate 85, the bottom end of the front vertical plate 83 is connected with the front roller end 62, the top end of the front vertical plate 83 is connected with the output end of the front lifting motor 81, the middle part of the front vertical plate 83 is connected with the middle part of the rear vertical plate 84 through the middle transverse plate 85, the bottom end of the rear vertical plate 84 is connected with the rear roller end 63, the top end of the rear vertical plate 84 is connected with the output end of the rear lifting motor 82, a cloth spreading roller 6 parallel to the middle transverse plate 85 is arranged under the middle transverse plate 85, and the front roller end 62 penetrates through the front vertical plate 83 and then is connected with the output end of.

The lifting unit 8 also comprises a longitudinal automatic adjusting part 9 with a consistent structure, the longitudinal automatic adjusting part 9 comprises an inner adjusting vertical plate 91, a middle adjusting horizontal plate 92, an outer adjusting vertical plate 93 and an adjusting spring 94, the inner side surface of the inner adjusting vertical plate 91 is connected with the output end of the front lifting motor 81 or the rear lifting motor 82, the top end of the inner adjusting vertical plate 91 is connected with the top end of the outer adjusting vertical plate 93 through the middle adjusting transverse plate 92, the inner adjusting vertical plate 91, the middle adjusting transverse plate 92 and the outer adjusting vertical plate 93 are clamped together to form a longitudinal adjusting cavity 95 with a downward unidirectional opening, an adjusting spring 94 is arranged in the longitudinal adjusting cavity 95, the top end of the adjusting spring 94 is connected with the bottom surface of the middle adjusting plate 92 through a fixing column 96, the bottom end of the adjusting spring 94 is connected with the top end of the front vertical plate 83 or the rear vertical plate 84, and the bottom end of the front vertical plate 83 or the rear vertical plate 84 extends to the outside of the longitudinal adjusting cavity 95 and then is correspondingly connected with the front roller end 62 or the rear roller end 63.

The transmission unit 7 comprises a transmission flat plate 71, a transmission seat 72 and a sealing clamping plate 73, two ends of the transmission flat plate 71 are connected with the lifting unit 8, the middle of the transmission flat plate 71 is connected with the bottom surface of the transmission seat 72, a sealing groove 74 is formed in the top surface of the transmission seat 72, the top surface of the sealing groove 74 is in sealing fit with the side wall of the sealing clamping plate 73, the bottom surface of the sealing clamping plate 73 is connected with a transmission belt 51, and the transmission belt 51 penetrates through a sealing cavity 75 formed by the sealing groove 74 and the sealing clamping plate 73.

The transmission unit 7 further comprises a sliding rail plate 76, the middle of the sliding rail plate 76 is connected with the top surface of the transmission seat 72, the sealing clamping plate 73 is clamped between the sliding rail plate 76 and the transmission seat 72, two ends of the sliding rail plate 76 are respectively in sliding fit with the top of the front rail 77 and the top of the rear rail 78, and the front rail 77, the rear rail 78 and the transmission belt 51 are parallel to each other pairwise.

The horizontal transmission device 5 comprises a transmission belt 51, a front transmission pulley 52 and a rear transmission pulley 53, two ends of the transmission belt 51 are respectively wound around the sides of the front transmission pulley 52 and the rear transmission pulley 53, the middle part of the front transmission pulley 52 is connected with the inner wall of a front pulley seat 54 embedded with the front transmission pulley 52, and the middle part of the rear transmission pulley 53 is connected with the inner wall of a rear pulley seat 55 embedded with the rear transmission pulley 53.

The front pulley seat 54 comprises a front upper wheel plate 541, a front lower wheel plate 542 and a front bottom wheel seat 543, the middle parts of the front upper wheel plate 541 and the front lower wheel plate 542 are connected with the two ends of the middle part of the front transmission pulley 52 clamped between the front upper wheel plate 541 and the front lower wheel plate 542, and the bottoms of the front upper wheel plate 541 and the front lower wheel plate 542 are connected with the top part of the front bottom wheel seat 543; the rear pulley seat 55 includes a rear upper wheel plate 551, a rear lower wheel plate 552, a rear side wheel plate 554 and a rear bottom wheel seat 553, the middle portions of the rear upper wheel plate 551 and the rear lower wheel plate 552 are connected with the two ends of the middle portion of the rear transmission pulley 53 clamped between the rear upper wheel plate 551 and the rear lower wheel plate 552, the side portions of the rear upper wheel plate 551 and the rear lower wheel plate 552 are connected with the rear side wheel plate 554, a convex vent 555 is arranged on the rear side wheel plate 554, and the bottoms of the rear upper wheel plate 551 and the rear lower wheel plate 552 are connected with the top portion of the rear bottom wheel seat 553.

The principle of the invention is illustrated as follows:

put the position of nearly indent arc board on the cloth board and seted up a board recess, be provided with a bounce-back spare in this board recess, the stiff end of this bounce-back spare is connected with the cell wall of board recess, and the expansion end of bounce-back spare contacts with the bottom surface of cloth, and during the application, the tail end that the bounce-back spare acted on the cloth plays the bounce-back effect to it to avoid its and the tight contact of mistake of putting the cloth board, do benefit to the winding of cloth roller to putting cloth on the cloth board and collect.

Preceding riser in the lift unit, the mutual article line of back riser, and simultaneously with the both ends of well diaphragm are connected perpendicularly, be provided with the shop cloth roller rather than paralleling under the well diaphragm, during the application, well diaphragm has the suppression effect to the cloth of winding on the shop cloth roller, no matter twine the cloth on the roll surface, still release the cloth that has twined from the roll surface, with laying on the stamp platen, well diaphragm can both avoid the fluffy of cloth, collect in case the cloth is irregular on the roll surface, can take place winding trouble with spare part even.

Transition adjustment is carried out at the concave arc plate to enable the cloth spreading roller to turn back and forth (the positions of the front roller end and the rear roller end are exchanged), namely: the spreading roller rotates clockwise when collecting cloth on the cloth placing plate, after collection is finished, the tail end of the original cloth faces outwards, the spreading roller is not favorable for obliquely placing the cloth on the printing table plate downwards, so that the front and the back of the spreading roller need to be adjusted, the positions of the front roller end and the back roller end of the spreading roller are changed, the orientation of the tail end of the original cloth is changed, at the moment, the spreading roller is favorably pulled downwards from the top end of the printing table plate in an oblique mode, and the cloth wound on the roller surface is laid on the printing table plate.

Example 1:

referring to fig. 1 to 7, a ladder-shaped integrated automatic cloth taking and leaving device comprises a printing table plate 2, a cloth placing plate 3, an inner concave arc plate 31, a cloth spreading device 4 and a horizontal transmission device 5, wherein the cloth spreading device 4 comprises a transmission unit 7, a lifting unit 8 and a cloth spreading roller 6; the printing table board 2 and the cloth placing board 3 are both obliquely arranged, the top end of the cloth placing board 3 is connected with the left board end 32 of the inner concave arc board 31, the right board end 33 of the inner concave arc board 31 is connected with the top end of the printing table board 2, the left board end 32 and the right board end 33 are positioned on the same horizontal line, the middle part of the downward concave arc board 31 is lower than the left board end 32 and the right board end 33, and the printing table board 2, the inner concave arc board 31 and the cloth placing board 3 form a ladder-shaped structure; the printing table board 2, the inner concave arc plate 31 and the cloth placing plate 3 are provided with the same horizontal transmission device 5 directly above, a transmission belt 51 in the horizontal transmission device 5 is in transmission fit with the middle of the transmission unit 7 in the horizontal direction, two ends of the transmission unit 7 are connected with the lifting unit 8, the output end of the lifting unit 8 is connected with two ends of the cloth spreading roller 6 below the lifting unit, a cloth taking bonding device 61 is arranged on the roller surface of the cloth spreading roller 6, and a cloth remaining bonding device 21 is arranged on the surface of the printing table board 2. Preferably, a plate groove 34 is formed on the cloth placing plate 3 near the inner concave arc plate 31, a rebound member 35 is arranged in the plate groove 34, a fixed end 351 of the rebound member 35 is connected with a groove wall of the plate groove 34, and a movable end 352 of the rebound member 35 is in contact with the bottom surface of the cloth 1.

Example 2:

the basic contents are the same as example 1, except that:

Example 3:

the basic contents are the same as example 1, except that:

the drive unit 7 includes the dull and stereotyped 71 of transmission, the lift unit 8 includes preceding elevator motor 81 and back elevator motor 82, the middle part of the dull and stereotyped 71 of transmission is connected with drive belt 51, and the preceding of the dull and stereotyped 71 of transmission, back both ends are connected with preceding elevator motor 81, back elevator motor 82 respectively, and the output of back elevator motor 82 is passed behind the dull and stereotyped 71 of transmission and is connected with the back roller end 63 of spreading cloth roller 6, and the output of preceding elevator motor 81 is passed behind the dull and stereotyped 71 of transmission and is connected with the front roll end 62 of spreading cloth roller 6, and is connected with the rolling motor 64 on the front roll end 62. The lifting unit 8 further comprises a front vertical plate 83, a rear vertical plate 84 and a middle transverse plate 85, the bottom end of the front vertical plate 83 is connected with the front roller end 62, the top end of the front vertical plate 83 is connected with the output end of the front lifting motor 81, the middle part of the front vertical plate 83 is connected with the middle part of the rear vertical plate 84 through the middle transverse plate 85, the bottom end of the rear vertical plate 84 is connected with the rear roller end 63, the top end of the rear vertical plate 84 is connected with the output end of the rear lifting motor 82, a cloth spreading roller 6 parallel to the middle transverse plate 85 is arranged under the middle transverse plate 85, and the front roller end 62 penetrates through the front vertical plate 83 and then is connected with the output end of. The lifting unit 8 also comprises a longitudinal automatic adjusting part 9 with a consistent structure, the longitudinal automatic adjusting part 9 comprises an inner adjusting vertical plate 91, a middle adjusting horizontal plate 92, an outer adjusting vertical plate 93 and an adjusting spring 94, the inner side surface of the inner adjusting vertical plate 91 is connected with the output end of the front lifting motor 81 or the rear lifting motor 82, the top end of the inner adjusting vertical plate 91 is connected with the top end of the outer adjusting vertical plate 93 through the middle adjusting transverse plate 92, the inner adjusting vertical plate 91, the middle adjusting transverse plate 92 and the outer adjusting vertical plate 93 are clamped together to form a longitudinal adjusting cavity 95 with a downward unidirectional opening, an adjusting spring 94 is arranged in the longitudinal adjusting cavity 95, the top end of the adjusting spring 94 is connected with the bottom surface of the middle adjusting plate 92 through a fixing column 96, the bottom end of the adjusting spring 94 is connected with the top end of the front vertical plate 83 or the rear vertical plate 84, and the bottom end of the front vertical plate 83 or the rear vertical plate 84 extends to the outside of the longitudinal adjusting cavity 95 and then is correspondingly connected with the front roller end 62 or the rear roller end 63.

Example 4:

the basic contents are the same as example 1, except that:

the transmission unit 7 comprises a transmission flat plate 71, a transmission seat 72 and a sealing clamping plate 73, two ends of the transmission flat plate 71 are connected with the lifting unit 8, the middle of the transmission flat plate 71 is connected with the bottom surface of the transmission seat 72, a sealing groove 74 is formed in the top surface of the transmission seat 72, the top surface of the sealing groove 74 is in sealing fit with the side wall of the sealing clamping plate 73, the bottom surface of the sealing clamping plate 73 is connected with a transmission belt 51, and the transmission belt 51 penetrates through a sealing cavity 75 formed by the sealing groove 74 and the sealing clamping plate 73. The transmission unit 7 further comprises a sliding rail plate 76, the middle of the sliding rail plate 76 is connected with the top surface of the transmission seat 72, the sealing clamping plate 73 is clamped between the sliding rail plate 76 and the transmission seat 72, two ends of the sliding rail plate 76 are respectively in sliding fit with the top of the front rail 77 and the top of the rear rail 78, and the front rail 77, the rear rail 78 and the transmission belt 51 are parallel to each other pairwise.

Example 5:

the basic contents are the same as example 1, except that:

the horizontal transmission device 5 comprises a transmission belt 51, a front transmission pulley 52 and a rear transmission pulley 53, two ends of the transmission belt 51 are respectively wound around the sides of the front transmission pulley 52 and the rear transmission pulley 53, the middle part of the front transmission pulley 52 is connected with the inner wall of a front pulley seat 54 embedded with the front transmission pulley 52, and the middle part of the rear transmission pulley 53 is connected with the inner wall of a rear pulley seat 55 embedded with the rear transmission pulley 53. The front pulley seat 54 comprises a front upper wheel plate 541, a front lower wheel plate 542 and a front bottom wheel seat 543, the middle parts of the front upper wheel plate 541 and the front lower wheel plate 542 are connected with the two ends of the middle part of the front transmission pulley 52 clamped between the front upper wheel plate 541 and the front lower wheel plate 542, and the bottoms of the front upper wheel plate 541 and the front lower wheel plate 542 are connected with the top part of the front bottom wheel seat 543; the rear pulley seat 55 includes a rear upper wheel plate 551, a rear lower wheel plate 552, a rear side wheel plate 554 and a rear bottom wheel seat 553, the middle portions of the rear upper wheel plate 551 and the rear lower wheel plate 552 are connected with the two ends of the middle portion of the rear transmission pulley 53 clamped between the rear upper wheel plate 551 and the rear lower wheel plate 552, the side portions of the rear upper wheel plate 551 and the rear lower wheel plate 552 are connected with the rear side wheel plate 554, a convex vent 555 is arranged on the rear side wheel plate 554, and the bottoms of the rear upper wheel plate 551 and the rear lower wheel plate 552 are connected with the top portion of the rear bottom wheel seat 553.

The above description is only a preferred embodiment of the present invention, and the scope of the present invention is not limited to the above embodiment, but equivalent modifications or changes made by those skilled in the art according to the present disclosure should be included in the scope of the present invention as set forth in the appended claims.

Claims

1. The utility model provides a trapezoidal get cloth and stay cloth integration automatics, includes printing platen (2) and puts apron (3), printing platen (2) are corresponding with the silk screen printing device, it shelves cloth (1) that remain silk screen printing on apron (3), its characterized in that:

the integrated automatic device also comprises an inner concave arc plate (31), a cloth paving device (4) and a horizontal transmission device (5), and the cloth paving device (4) comprises a transmission unit (7), a lifting unit (8) and a cloth paving roller (6); the printing table board (2) and the cloth placing plate (3) are obliquely arranged, the top end of the cloth placing plate (3) is connected with the left plate end (32) of the inner concave arc plate (31), the right plate end (33) of the inner concave arc plate (31) is connected with the top end of the printing table board (2), the left plate end (32) and the right plate end (33) are located on the same horizontal line, the middle part of the downward concave arc plate (31) is lower than the left plate end (32) and the right plate end (33) and is arranged, and the printing table board (2), the inner concave arc plate (31) and the cloth placing plate (3) form a ladder-shaped structure; the cloth placing machine is characterized in that the same horizontal transmission device (5) is arranged right above the printing table plate (2), the inner concave arc plate (31) and the cloth placing plate (3), a transmission belt (51) in the horizontal transmission device (5) is in transmission fit with the middle of the transmission unit (7) in the horizontal direction, two ends of the transmission unit (7) are connected with the lifting unit (8), the output end of the lifting unit (8) is connected with two ends of a cloth laying roller (6) located below the lifting unit, a cloth taking bonding device (61) is arranged on the roller surface of the cloth laying roller (6), and a cloth remaining bonding device (21) is arranged on the surface of the printing table plate (2).

2. The ladder-type cloth taking and remaining integrated automatic device as claimed in claim 1, wherein: a plate groove (34) is formed in the part, close to the inner concave arc plate (31), of the cloth placing plate (3), a rebound part (35) is arranged in the plate groove (34), the fixed end (351) of the rebound part (35) is connected with the groove wall of the plate groove (34), and the movable end (352) of the rebound part (35) is in contact with the bottom surface of the cloth (1).

3. The ladder-type cloth taking and remaining integrated automatic device as claimed in claim 1 or 2, wherein: the cloth taking and bonding device (61) is a cloth taking glue layer, the cloth remaining and bonding device (21) is a cloth remaining glue layer, and the bonding force of the cloth taking glue layer is smaller than that of the cloth remaining glue layer.

4. The ladder-type cloth taking and remaining integrated automatic device as claimed in claim 1 or 2, wherein: the cloth spreading machine is characterized in that the transmission unit (7) comprises a transmission flat plate (71), the lifting unit (8) comprises a front lifting motor (81) and a rear lifting motor (82), the middle of the transmission flat plate (71) is connected with a transmission belt (51), the front end and the rear end of the transmission flat plate (71) are respectively connected with the front lifting motor (81) and the rear lifting motor (82), the output end of the rear lifting motor (82) penetrates through the transmission flat plate (71) and then is connected with the rear roller end (63) of the cloth spreading roller (6), the output end of the front lifting motor (81) penetrates through the transmission flat plate (71) and then is connected with the front roller end (62) of the cloth spreading roller (6), and the front roller end (62) is connected with a rolling motor (64).

5. The ladder-type cloth taking and remaining integrated automatic device as claimed in claim 4, wherein: the lifting unit (8) further comprises a front vertical plate (83), a rear vertical plate (84) and a middle transverse plate (85), the bottom end of the front vertical plate (83) is connected with the front roller end (62), the top end of the front vertical plate (83) is connected with the output end of a front lifting motor (81), the middle portion of the front vertical plate (83) is connected with the middle portion of the rear vertical plate (84) through the middle transverse plate (85), the bottom end of the rear vertical plate (84) is connected with the rear roller end (63), the top end of the rear vertical plate (84) is connected with the output end of the rear lifting motor (82), a cloth spreading roller (6) parallel to the middle transverse plate (85) is arranged under the middle transverse plate (85), and the front roller end (62) penetrates through the front vertical plate (83) and then is connected with the output end of a rolling motor (.

6. The ladder-type cloth taking and remaining integrated automatic device as claimed in claim 5, wherein: the lifting unit (8) also comprises two longitudinal automatic adjusting parts (9) with the same structure, the longitudinal automatic adjusting parts (9) comprise an inner adjusting vertical plate (91), a middle adjusting horizontal plate (92), an outer adjusting vertical plate (93) and an adjusting spring (94), the inner side surface of the inner adjusting vertical plate (91) is connected with the output end of a front lifting motor (81) or a rear lifting motor (82), the top end of the inner adjusting vertical plate (91) is connected with the top end of the outer adjusting vertical plate (93) through the middle adjusting horizontal plate (92), the inner adjusting vertical plate (91), the middle adjusting horizontal plate (92) and the outer adjusting vertical plate (93) are clamped into a longitudinal adjusting cavity (95) with a downward one-way opening, the adjusting spring (94) is arranged in the longitudinal adjusting cavity (95), the top end of the adjusting spring (94) is connected with the bottom surface of the middle adjusting horizontal plate (92) through a fixing column (96), and the bottom end of the adjusting spring (94) is connected with the top end of the front vertical plate (83) or, the bottom ends of the front vertical plates (83) or the rear vertical plates (84) extend downwards to the outside of the longitudinal adjusting cavity (95) and are correspondingly connected with the front roller ends (62) or the rear roller ends (63).

7. The ladder-type cloth taking and remaining integrated automatic device as claimed in claim 1 or 2, wherein: the transmission unit (7) comprises a transmission flat plate (71), a transmission seat (72) and a sealing clamping plate (73), two ends of the transmission flat plate (71) are connected with the lifting unit (8), the middle of the transmission flat plate (71) is connected with the bottom surface of the transmission seat (72), a sealing groove (74) is formed in the top surface of the transmission seat (72), the top surface of the sealing groove (74) is in sealing fit with the side wall of the sealing clamping plate (73), the bottom surface of the sealing clamping plate (73) is connected with a transmission belt (51), and the transmission belt (51) penetrates through the sealing groove (74) and a sealing cavity (75) formed by clamping of the sealing clamping plate (73).

8. The ladder-type cloth taking and remaining integrated automatic device as claimed in claim 7, wherein: the transmission unit (7) further comprises a sliding rail plate (76), the middle of the sliding rail plate (76) is connected with the top surface of the transmission seat (72), the sealing clamping plate (73) is clamped between the sliding rail plate (76) and the transmission seat (72), two ends of the sliding rail plate (76) are in sliding fit with the tops of the front rail (77) and the rear rail (78) respectively, and the front rail (77), the rear rail (78) and the transmission belt (51) are parallel to each other pairwise.

9. The ladder-type cloth taking and remaining integrated automatic device as claimed in claim 1 or 2, wherein: the horizontal transmission device (5) comprises a transmission belt (51), a front transmission pulley (52) and a rear transmission pulley (53), two ends of the transmission belt (51) are respectively wound with the side peripheries of the front transmission pulley (52) and the rear transmission pulley (53), the middle part of the front transmission pulley (52) is connected with the inner wall of a front pulley seat (54) embedded with the front transmission pulley (52), and the middle part of the rear transmission pulley (53) is connected with the inner wall of a rear pulley seat (55) embedded with the rear transmission pulley (53).

10. The ladder-type cloth taking and remaining integrated automatic device as claimed in claim 9, wherein: the front pulley seat (54) comprises a front upper wheel plate (541), a front lower wheel plate (542) and a front bottom wheel seat (543), the middle parts of the front upper wheel plate (541) and the front lower wheel plate (542) are connected with the two ends of the middle part of the front transmission pulley (52) clamped between the front upper wheel plate and the front lower wheel plate, and the bottoms of the front upper wheel plate (541) and the front lower wheel plate (542) are connected with the top of the front bottom wheel seat (543); the rear pulley seat (55) comprises a rear upper wheel plate (551), a rear lower wheel plate (552), a rear side wheel plate (554) and a rear bottom wheel seat (553), the middle parts of the rear upper wheel plate (551) and the rear lower wheel plate (552) are connected with the two ends of the middle part of a rear transmission pulley (53) clamped between the rear upper wheel plate and the rear lower wheel plate, the side parts of the rear upper wheel plate (551) and the rear lower wheel plate (552) are connected with the rear side wheel plate (554), a convex ventilation opening (555) is formed in the rear side wheel plate (554), and the bottoms of the rear upper wheel plate (551) and the rear lower wheel plate (552) are connected with the top part of the rear bottom wheel seat (553).