CN109572169A

CN109572169A - A kind of screen process press

Info

Publication number: CN109572169A
Application number: CN201910105178.5A
Authority: CN
Inventors: 陈善跑; 陈寿闯
Original assignee: Individual
Current assignee: Chen Meizhu; Chen Shan Pao; Chen Shouchuang
Priority date: 2019-02-01
Filing date: 2019-02-01
Publication date: 2019-04-05

Abstract

The invention discloses a kind of screen processes press, including printing machine ontology and drying system；Drying system includes cabinet, guidance set, driving member and driving device；Printing machine ontology is fixedly connected with cabinet, and printing machine ontology is located above cabinet；Guidance set includes interior guidance set, and interior guidance set includes centripetal roller group, critical guide roller and centrifugation roller group；Cloth is along direction of transfer successively by centripetal roller group, critical guide roller and centrifugation roller group series connection；Successively after centripetal roller group, critical guide roller and centrifugation roller group rotate in around coil configuration, the number of plies of coiling at least has two layers cloth, has gap between adjacent two layers cloth；Input port and delivery outlet are offered on cabinet, cloth penetrates cabinet inside from input port, and cloth is pierced by cabinet from delivery outlet；Driving member is used to be driven between driving device and guidance set, its advantage is that: compact-sized to occupy little space, work efficiency is high, and energy consumption is few at low cost.

Description

Screen printing machine

Technical Field

The invention relates to the technical field of printing, in particular to a screen printing machine.

Background

The screen printing machine is a machine for printing by using screen printing plate, belonging to one kind of printing machine.

Current screen printing machine includes material feeding unit, printing machine body, drying device and material collecting device in proper order along cloth processing step direction, and material feeding unit sends the printing machine body with the cloth, and the printing machine body prints the pattern on the cloth, and the cloth of printing the pattern is conveyed to drying device in, and drying device dries the cloth, makes the pigment on the cloth dried the back, and material collecting device again carries out the rolling to the cloth.

In order to improve the working efficiency, the printing speed and the transmission speed of the cloth are high, but the drying device needs enough time in the process of drying the pigment on the cloth, therefore, the drying device usually adopts a mode of prolonging the stroke, namely, the linear conveyor belt and the oven are adopted, the conveyor belt is positioned in the oven, the stroke of the conveyor belt usually exceeds 9 meters, therefore, the length of the oven also exceeds 9 meters, the whole occupied space of the printing machine is large, the area of the oven expanded in the space is large, more heat is radiated to the air, the energy loss is large, and the production cost is improved.

Disclosure of Invention

The embodiment of the invention aims to provide a screen printing machine, which is used for reducing the production cost, improving the working efficiency and reducing the space occupied by the printing machine.

In order to achieve the purpose, the technical scheme of the embodiment of the invention is as follows:

a screen printing machine comprises a printing machine body and a drying system;

the drying system comprises a case, a guide assembly, a transmission piece and a driving device;

the printer body is fixedly connected with the case, and the printer body is positioned above the case;

the guide assembly comprises an inner guide assembly, and the inner guide assembly comprises a centripetal roller set, a critical guide roller and a centrifugal roller set;

sequentially connecting the centripetal roller set, the critical guide roller and the centrifugal roller set in series along the conveying direction;

the cloth is in a winding structure after sequentially passing through the centripetal roller group, the critical guide roller and the centrifugal roller group, the number of winding layers is at least two, and a gap is reserved between two adjacent layers of cloth;

an input port and an output port are formed in the case, cloth penetrates into the case from the input port, and the cloth penetrates out of the case from the output port;

the transmission piece is used for transmitting the transmission between the driving device and the guide assembly.

The embodiment of the invention is further provided with: the critical guide roller is rotationally connected with the case;

the centripetal roller set consists of at least five centripetal guide rollers, and the fabric is sequentially wound and connected on the centripetal guide rollers along the conveying direction;

the centripetal guide roller is rotationally connected with the case;

along the conveying direction of the cloth, the area of a triangle formed by connecting lines between two adjacent centripetal guide rollers and the centers of the centripetal roller sets is gradually reduced;

the centrifugal roller group consists of at least five centrifugal guide rollers, and the cloth is sequentially wound on the centrifugal guide rollers;

the centrifugal guide roller is rotationally connected with the case;

the number of the centrifugal guide rollers is at most four more than that of the centripetal guide rollers;

along the conveying direction of the cloth, the area of a triangle formed by connecting lines between the two adjacent centrifugal guide rollers and the centers of the centrifugal roller sets is gradually increased;

the cloth is respectively wound on the centripetal guide roller, the critical guide roller and the centrifugal guide roller;

and along the cloth conveying direction, the adjacent centripetal guide rollers, the last centripetal guide roller and the critical roller, the critical roller and the first centrifugal guide roller and the adjacent centrifugal guide rollers are respectively connected through cloth transmission.

The embodiment of the invention is further provided with: the transmission part is a transmission belt, and the driving device is a motor;

the output shaft of the motor, at least one centripetal guide roller and at least one centrifugal guide roller are respectively and fixedly connected with a driving wheel;

the transmission belt is in a closed loop structure and sequentially connects the transmission wheels in series;

the transmission belt is wound on the transmission wheel and is in transmission connection with the transmission wheel;

the driving belt drives the driving wheel to rotate in the same direction as the corresponding centripetal guide roller and the corresponding centrifugal guide roller along the cloth conveying direction.

The embodiment of the invention is further provided with: the transmission belt is a chain, the transmission wheel is a chain wheel, and the chain is in meshing transmission connection with the chain wheel;

or the transmission belt is a belt and the transmission wheel is a belt pulley, and the belt is in transmission connection with the belt pulley.

The embodiment of the invention is further provided with: the drying system further comprises a hot air circulating system, the hot air circulating system comprises a heating device and a blowing device, the heating device heats air, and the blowing device blows the heated air to the cloth inside the case.

The embodiment of the invention is further provided with: the hot air circulating system further comprises a hot air conveying pipe, one end of the hot air conveying pipe is communicated with an air outlet of the blowing device, and a port at the other end of the hot air conveying pipe is located in the case and faces the cloth in the case.

The embodiment of the invention is further provided with: the ports of the hot air delivery pipes are distributed in the gaps between the adjacent cloth layers.

The embodiment of the invention is further provided with: the centripetal roller set consists of five centripetal guide rollers;

the centripetal guide rollers are respectively a guide roller d, a guide roller e, a guide roller f, a guide roller g and a guide roller h along the cloth conveying direction.

The embodiment of the invention is further provided with: the centrifugal roller group consists of eight centrifugal guide rollers;

the centrifugal guide rollers are respectively a guide roller j, a guide roller k, a guide roller l, a guide roller m, a guide roller n, a guide roller o, a guide roller p and a guide roller q along the cloth conveying direction.

The embodiment of the invention is further provided with: the cloth is wound inside the case in a rectangular spiral shape.

The embodiment of the invention has the advantages that: the cloth is at the inside stroke of rolling up the multilayer in order to prolong the cloth conveying of machine incasement, extension cloth stoving time, compact structure and have the clearance between the adjacent cloth layer and be convenient for the air to flow through from the cloth surface, improve drying efficiency, because the space reduces, the heat can be at quick-witted incasement portion cyclic utilization among the drying process, reduce the heat and scatter and disappear in the outside air, reduce the heat loss, reduction in production cost, it is more energy-conserving for current open stoving mode, the whole space that occupies of drying-machine has been reduced, through the length extension stoving time of rolling up of change cloth, after improving cloth transfer rate, the extension cloth that corresponds can realize improving production efficiency under the prerequisite that satisfies drying quality at the length of the machine incasement portion of rolling up.

Drawings

FIG. 1 is a schematic structural view of example 1;

FIG. 2 is a schematic structural view of example 2.

Wherein,

11. a printer body;

21. a chassis; 22. an input port; 23. an output port; 24. a critical guide roll; 25. a fan; 26. an electric heating tube; 27. an air blowing port; 28. a linkage wheel; 29. a linkage belt; 210. an electric motor; 211. a supporting strip; 212. a reverse wheel; 213. a transmission belt;

31. a motor;

41. a feeding drum;

51. a material receiving reel;

61. and (4) distributing.

Detailed Description

The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

Example 1

A screen printing machine, as shown in fig. 1, includes a printing machine body 11, and further includes a drying system; the drying system comprises a case 21, a guide component, a transmission part and a driving device; the printer body 11 is fixedly connected with the chassis 21, and the printer body 11 is positioned above the chassis 21; the guide assembly comprises an inner guide assembly, and the inner guide assembly comprises a centripetal roller set, a critical guide roller 24 and a centrifugal roller set; the fabric 61 is sequentially connected with the centripetal roller set, the critical guide roller 24 and the centrifugal roller set in series along the conveying direction; the cloth 61 is in a winding structure after sequentially passing through the centripetal roller group, the critical guide roller 24 and the centrifugal roller group, the number of winding layers is at least two, and a gap is formed between every two adjacent layers of cloth 61; an input port 22 and an output port 23 are formed in the case 21, the cloth 61 penetrates into the case 21 from the input port 22, and the cloth 61 penetrates out of the case 21 from the output port 23; the transmission piece is used for transmitting the transmission between the driving device and the guide assembly.

Cloth 61 is at the inside stroke of rolling up the multilayer in order to prolong cloth 61 conveying of quick-witted case 21, extension cloth 61 drying time, compact structure and have the clearance between the adjacent cloth 61 layer and be convenient for the air to flow through from cloth 61 surface, improve drying efficiency, because the space reduces, heat can be at the inside cyclic utilization of quick-witted case 21 in the drying process, reduce the heat and scatter and disappear in the outside air, reduce heat loss, reduce manufacturing cost, it is more energy-conserving for current open drying methods, the whole space that occupies of drying-machine has been reduced, through the length extension drying time of the book length that changes cloth 61, after improving cloth 61 transfer rate, the length that corresponding extension cloth 61 is rolled up inside quick-witted case 21 can realize improving production efficiency under the prerequisite that satisfies drying quality.

The method specifically comprises the following steps:

the critical guide roll 24 is rotationally connected with the case 21; the centripetal roller set consists of at least five centripetal guide rollers, and the cloth 61 is sequentially wound and connected on the centripetal guide rollers along the conveying direction; the centripetal guide roller is rotationally connected with the case 21; along the conveying direction of the cloth 61, the area of a triangle formed by connecting lines between two adjacent centripetal guide rollers and the centers of the centripetal roller sets is gradually reduced; the centrifugal roller group consists of at least five centrifugal guide rollers, and the cloth 61 is sequentially wound on the centrifugal guide rollers; the centrifugal guide roller is rotationally connected with the case 21; the number of the centrifugal guide rollers is at most four more than that of the centripetal guide rollers; along the conveying direction of the cloth 61, the area of a triangle formed by connecting lines between the two adjacent centrifugal guide rollers and the centers of the centrifugal roller sets is gradually increased; the cloth 61 is respectively wound on the centripetal guide roller, the critical guide roller 24 and the centrifugal guide roller; along the conveying direction of the cloth 61, the adjacent centripetal guide rollers, the last centripetal guide roller and the critical roller, the critical roller and the first centrifugal guide roller and the adjacent centrifugal guide rollers are respectively in transmission connection through the cloth 61.

The transmission part is a transmission belt 213, and the driving device is a motor 31; the output shaft of the motor 31, the at least one centripetal guide roller and the at least one centrifugal guide roller are respectively and fixedly connected with a driving wheel; the transmission belt 213 is in a closed loop structure, and the transmission wheels are sequentially connected in series by the transmission belt 213; the transmission belt 213 is wound on the transmission wheel and is in transmission connection with the transmission wheel; the driving belt 213 drives the driving wheel to rotate in the same direction as the corresponding centripetal guide roller and the corresponding centrifugal guide roller along the cloth 61 conveying direction.

The transmission belt 213 is a chain and the transmission wheel is a chain wheel, and the chain is engaged and connected with the chain wheel in a transmission way; or the transmission belt 213 is a belt and the transmission wheel is a belt pulley, and the belt is in transmission connection with the belt pulley.

The drying system further comprises a hot air circulating system, the hot air circulating system comprises a heating device and a blowing device, the heating device heats air, and the blowing device blows the heated air to the cloth 61 in the case 21.

The blowing device adopts a fan 25, the heating device adopts an electric heating tube 26, the electric heating tube 26 is fixedly installed on an air outlet of the fan 25, the electric heating tube 26 heats air blown out by the fan 25, the heated air is blown to the cloth 61 in the case 21, the drying of the pigment on the cloth 61 is accelerated, and the working efficiency is improved.

The hot air circulation system further comprises a hot air conveying pipe, the lines of the attached drawings are dense, the conveying pipe is not shown in the attached drawings for not influencing the illustration of the whole scheme, one end of the hot air conveying pipe is communicated with an air outlet of the blowing device, and the air blowing port 27 at the other end of the hot air conveying pipe is located inside the case 21 and faces the cloth 61 inside the case 21.

The fan 25 is fixedly arranged on the case 21, the blade rotating shaft of each fan 25 is fixedly connected with a linkage wheel 28, the linkage wheels 28 on two adjacent fans 25 are in transmission connection through linkage belts 29, the linkage shaft of one fan 25 is in transmission connection with a motor 210, and one motor 210 drives the plurality of fans 25 to operate simultaneously through the linkage wheels 28 and the linkage belts 29. The linkage wheel 28 and the linkage belt 29 are respectively a belt wheel and a belt or respectively a chain wheel and a chain.

The blowing openings 27 of the hot air delivery duct are distributed in the gaps between adjacent layers of cloth 61.

Further provided are:

the centripetal roller set consists of five centripetal guide rollers; the centripetal guide rollers are a guide roller d, a guide roller e, a guide roller f, a guide roller g, and a guide roller h, respectively, in the conveying direction of the fabric 61.

The centrifugal roller group consists of eight centrifugal guide rollers; the centrifugal guide rollers are a guide roller j, a guide roller k, a guide roller l, a guide roller m, a guide roller n, a guide roller o, a guide roller p, and a guide roller q, respectively, in the conveying direction of the fabric 61.

The inner guide roller assembly further includes a reversing wheel 212, the reversing wheel 212 being rotatably connected to the chassis 21.

The driving wheel fixed on the output shaft of the motor 31 is a driving wheel s, the other driving wheels are respectively and fixedly connected to the rotating shafts of the guide roller d, the guide roller n, the guide roller h and the guide roller j, and the driving belt 213 is sequentially wound on the driving wheels on the guide roller d, the guide roller n, the guide roller h and the guide roller j, the reversing wheel 212 and the driving wheel s along the conveying direction of the conveying belt. The driving wheel s provides rotating power for the guide roller d, the guide roller n, the guide roller h and the guide roller j, the reversing wheel 212 winds, folds and turns the transmission belt 213, the transmission belt 213 and the guide roller j can be stably wound and transmitted, the diameters of all the guide rollers are equal, the rotating speeds are the same, the cloth 61 can be stably transmitted in the case 21, and the pulling force between two adjacent guide rollers is basically equal.

Since the fabric 61 is wound in a rectangular spiral shape inside the casing 21, the rectangular spiral winding can improve the utilization rate of the internal space of the casing 21 because the casing 21 is a rectangular casing 21.

The guide assembly also comprises an outer guide assembly, and the outer guide assembly comprises a feeding end guide assembly and a receiving end guide assembly; the feeding end guide assembly comprises a tension roller a, a tension roller b and an input guide roller c, the tension roller a and the tension roller b are attached to each other, the cloth 61 sequentially winds the tension roller a and the tension roller b, the cloth 61 is located on the same straight line from the tension roller a, the tension roller b is located between the tension roller a and the tension roller c, the printing machine body 11 is located between the tension roller b and the tension roller c, the cloth 61 enters the printing machine body 11 to be printed after being transmitted from the tension roller b, the cloth 61 is transmitted from the printing machine body 11 after being printed and is wound on the input guide roller c, the cloth 61 enters the case 21 from the input port 22 after being wound by the guide roller c, and the tension roller a and the tension roller b are used for tensioning and straightening the cloth 61 located between the tension roller b and the input guide roller c so as to be printed.

The screen printing machine further comprises a feeding roller 41 and a receiving roller 51, wherein the feeding roller 41 is wound with a non-printed cloth 61, and the receiving roller 51 is used for winding the printed cloth 61. The feeding reel 41 and the receiving reel 51 are rotatably connected to both sides of the outside of the housing 21, respectively, and the cloth 61 is unwound from the feeding reel 41 and then wound around the tension roller a.

Receive material end guide assembly and include output guide roll and transition guide roll, the transition guide roll includes guide roll t and guide roll u, and cloth 61 spreads quick-witted case 21 back around connecing on the output guide roll from delivery outlet 23, also fixedly connected with guide roll on the output shaft of motor 31, along the direction of transfer of cloth 61, cloth 61 is around connecing on motor 31's guide roll, guide roll t, guide roll u and receiving on the feed cylinder in proper order.

The feeding cylinder, the printing machine body 11, the drying system and the material receiving cylinder are integrated into a whole, and the structure is compact.

Example 2

A screen printing machine is disclosed, as shown in fig. 2, an output port 23 is located at the bottom of a machine box 21, a supporting strip 211 is fixedly connected to the inner wall of the machine box 21, the supporting strip 211 is horizontally arranged, the upper surface of the supporting strip 211 is abutted to the lower surface of a cloth 61, the cloth 61 is divided into a horizontal part and a vertical part in the winding direction in the machine box 21, the horizontal winding direction keeps horizontal, and the supporting strip 211 is located below the center of the horizontal winding direction of the cloth 61.

The above-mentioned cloth 61 is not limited to the cloth 61 in the general sense of being woven (e.g., cotton cloth, woolen cloth, nonwoven fabric, etc.), and may be paper as long as it is a material for printing.

Although the invention has been described in detail above with reference to a general description and specific examples, it will be apparent to one skilled in the art that modifications or improvements may be made thereto based on the invention. Accordingly, such modifications and improvements are intended to be within the scope of the invention as claimed.

Claims

1. A screen printing machine, comprising a printing machine body (11), characterized in that: also comprises a drying system;

the drying system comprises a case (21), a guide component, a transmission part and a driving device;

the printer body (11) is fixedly connected with the chassis (21), and the printer body (11) is positioned above the chassis (21);

the guide assembly comprises an inner guide assembly, and the inner guide assembly comprises a centripetal roller set, a critical guide roller (24) and a centrifugal roller set;

the cloth (61) is sequentially connected with the centripetal roller group, the critical guide roller (24) and the centrifugal roller group in series along the conveying direction;

the cloth (61) is in a winding structure after sequentially passing through the centripetal roller group, the critical guide roller (24) and the centrifugal roller group, the number of winding layers is at least two, and a gap is reserved between every two adjacent layers of cloth (61);

an input port (22) and an output port (23) are formed in the case (21), the cloth (61) penetrates into the case (21) from the input port (22), and the cloth (61) penetrates out of the case (21) from the output port (23);

2. The screen printing machine of claim 1, wherein: the critical guide roller (24) is rotationally connected with the machine box (21);

the centripetal roller set consists of at least five centripetal guide rollers, and the cloth (61) is sequentially wound and connected on the centripetal guide rollers along the conveying direction;

the centripetal guide roller is rotationally connected with the case (21);

along the conveying direction of the cloth (61), the area of a triangle formed by connecting lines between two adjacent centripetal guide rollers and the centers of the centripetal roller sets is gradually reduced;

the centrifugal roller group consists of at least five centrifugal guide rollers, and the cloth (61) is sequentially wound on the centrifugal guide rollers;

the centrifugal guide roller is rotationally connected with the case (21);

along the conveying direction of the cloth (61), the area of a triangle formed by connecting lines between the two adjacent centrifugal guide rollers and the centers of the centrifugal roller sets is gradually increased;

the cloth (61) is respectively wound and connected on the centripetal guide roller, the critical guide roller (24) and the centrifugal guide roller;

along the conveying direction of the cloth (61), the adjacent centripetal guide rollers, the last centripetal guide roller and the critical roller, the critical roller and the first centrifugal guide roller and the adjacent centrifugal guide rollers are respectively in transmission connection through the cloth (61).

3. The screen printing machine of claim 2, wherein: the transmission piece is a transmission belt (213), and the driving device is a motor (31);

the output shaft of the motor (31), at least one centripetal guide roller and at least one centrifugal guide roller are respectively and fixedly connected with a driving wheel;

the transmission belt (213) is of a closed loop structure, and the transmission belts (213) sequentially connect the transmission wheels in series;

the transmission belt (213) is wound on the transmission wheel and is in transmission connection with the transmission wheel;

the driving belt (213) drives the driving wheel to rotate in the same direction as the corresponding centripetal guide roller and the corresponding centrifugal guide roller along the conveying direction of the cloth (61).

4. A screen printing machine according to claim 3, wherein: the transmission belt (213) is a chain, the transmission wheel is a chain wheel, and the chain is in meshing transmission connection with the chain wheel;

or the transmission belt (213) is a belt and the transmission wheel is a belt pulley, and the belt is in transmission connection with the belt pulley.

5. The screen printing machine of claim 2, wherein: the drying system further comprises a hot air circulating system, the hot air circulating system comprises a heating device and a blowing device, the heating device heats air, and the blowing device blows the heated air to the cloth (61) inside the case (21).

6. The screen printing machine of claim 5, wherein: the hot air circulating system further comprises a hot air conveying pipe, one end of the hot air conveying pipe is communicated with an air outlet of the blowing device, and a port at the other end of the hot air conveying pipe is located inside the case (21) and faces towards the cloth (61) inside the case (21).

7. The screen printing machine of claim 6, wherein: the ports of the hot air delivery pipes are distributed in the gaps between the adjacent cloth (61) layers.

8. The screen printing machine of claim 2, wherein: the centripetal roller set consists of five centripetal guide rollers;

the centripetal guide rollers are respectively a guide roller d, a guide roller e, a guide roller f, a guide roller g and a guide roller h along the conveying direction of the cloth (61).

9. The screen printing machine of claim 2, wherein: the centrifugal roller group consists of eight centrifugal guide rollers;

the centrifugal guide rollers are respectively a guide roller j, a guide roller k, a guide roller l, a guide roller m, a guide roller n, a guide roller o, a guide roller p and a guide roller q along the conveying direction of the cloth (61).

10. The screen printing machine of claim 2, wherein: the cloth (61) is wound inside the casing (21) in a rectangular spiral shape.