CN212100829U - Automatic operation system of template machine - Google Patents

Abstract

The utility model discloses an automatic operation system of a template machine, which comprises a first conveyer belt, a second conveyer belt, a plurality of template machines and a plurality of template transfer mechanisms; the first conveying belt is used for conveying the template to be processed along the longitudinal direction; the second conveyer belt is used for longitudinally conveying the processed template, and the first conveyer belt and the second conveyer belt are arranged in an up-and-down opposite mode; the plurality of template machines are distributed on at least one side of the first conveying belt and the second conveying belt along the conveying direction of the first conveying belt and the second conveying belt; the template transfer mechanisms are distributed along the conveying directions of the first conveying belt and the second conveying belt and are arranged corresponding to the template machines, and the template transfer mechanisms are respectively used for transferring templates to be processed on the first conveying belt to the corresponding template machines and transferring processed templates on the corresponding template machines to the second conveying belt. The utility model discloses template machine automatic operation system can promote the efficiency of template processing, can reduce area and required manpower moreover.

Description

Automatic operation system of template machine

Technical Field

The utility model relates to a template processing technology field especially relates to an automatic operating system of template machine.

Background

The existing template machine mainly has two configuration forms when processing templates. A template machine operating system which is configured in a square shape, uses a mechanical arm to grab templates to be processed on each template machine and feeds and unloads processed templates from each template machine, but the template machine operating system configured in the mode has the defect that when one template machine fails, all the templates need to be stopped, so that the processing efficiency is influenced. The other method is to arrange each template machine to each production line, and the arrangement mode has the defects of wide occupied area and high labor consumption.

Therefore, there is a need for an automatic operation system for a template machine, which can improve the efficiency of template processing and reduce the occupied area and the required manpower.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an automatic operating system of template machine can promote the efficiency of template processing, can reduce area and required manpower moreover.

In order to achieve the above object, the utility model provides an automatic operation system of a template machine, which comprises a first conveyer belt, a second conveyer belt, a plurality of template machines and a plurality of template transfer mechanisms; the first conveying belt is used for conveying the template to be processed along the longitudinal direction; the second conveyer belt is used for longitudinally conveying the processed template, and the first conveyer belt and the second conveyer belt are arranged in an up-and-down opposite mode; the plurality of template machines are distributed on at least one side of the first conveying belt and the second conveying belt along the conveying direction of the first conveying belt and the second conveying belt; the template transfer mechanisms are distributed along the conveying directions of the first conveying belt and the second conveying belt and are arranged corresponding to the template machines, and the template transfer mechanisms are respectively used for transferring templates to be processed on the first conveying belt to the corresponding template machines and transferring processed templates on the corresponding template machines to the second conveying belt.

Preferably, the template transferring mechanism comprises a mounting bracket, a first slide rail and a second slide rail are transversely arranged on the mounting bracket, the first slide rail is partially positioned right above the first conveyor belt, the second slide rail is partially positioned right above the operation platform of the template machine, a first moving arm for transferring the template to be processed from the first conveyor belt to the operation platform of the template machine is arranged on the first slide rail in a sliding manner, the first moving arm can move to a position corresponding to the operation platform of the first conveyor belt or the template machine by transverse movement of the first moving arm along the first slide rail, the second slide rail is partially positioned right above the second conveyor belt, the second moving arm is partially positioned right above the operation platform of the template machine, a second moving arm for transferring the processed template from the operation platform of the template machine to the second conveyor belt is arranged on the second slide rail in a sliding manner, and transverse movement of the second moving arm along the second slide rail can move to a position corresponding to the operation platform of the second conveyor belt or the template machine.

Preferably, the first conveyor belt is located right below the second conveyor belt, the height of the working platform of the template machine is substantially the same as that of the first conveyor belt, the first slide rail is located between the first conveyor belt and the second conveyor belt, and the second movable arm is capable of extending and retracting up and down to be capable of downwardly grabbing the processed template located on the working platform of the template machine and transferring the template onto the second conveyor belt located above the working platform of the template machine.

Preferably, the plurality of stencil machines are distributed on both lateral sides of the first conveyor belt and the second conveyor belt in the conveying direction thereof.

Preferably, the work platforms of at least some of the template machines on one side of the first conveyor belt and the second conveyor belt and the work platforms of at least some of the template machines on the other side of the first conveyor belt and the second conveyor belt are arranged in a one-to-one opposite manner, and two ends of the first slide rail and the second slide rail of at least some of the template transfer mechanisms are respectively located right above the work platforms of the two template machines arranged in an opposite manner, so that the first movable arm can move to a position corresponding to the first conveyor belt and the two work platforms arranged in an opposite manner along the first slide rail and the second movable arm can move to a position corresponding to the second conveyor belt and the two work platforms arranged in an opposite manner along the second slide rail.

Preferably, the mounting bracket is of a frame structure and comprises supporting legs which are respectively arranged on the two transverse sides of the first conveying belt and the second conveying belt, two top beams which are respectively connected to the tops of the supporting legs on the two transverse sides, and two middle beams which are respectively connected to the middle parts of the supporting legs on the two transverse sides, the second sliding rail is mounted on the two top beams, and the first sliding rail is mounted on the two middle beams.

Preferably, a transversely-arranged guide sliding seat is fixedly arranged on a working platform of the template machine, a positioning piece corresponding to a positioning notch on the template is arranged on the guide sliding seat in a sliding manner, the positioning piece can move between a first position close to the first conveying belt and the second conveying belt and a second position far away from the first conveying belt and the second conveying belt along the guide sliding seat, the positioning piece is used as a positioning reference point of the template to be processed and placed on the working platform when being positioned at the first position, the positioning piece and the positioning notch of the template to be processed can make the guide sliding seat guide the transverse movement of the template on the working platform after being butted, and the template machine further comprises a working arm used for processing the template to be processed on the working platform.

Preferably, the first moving arm is configured to drive the positioned template to be processed to move longitudinally along the guiding slide so that the positioning member is in butt joint with the positioning notch of the template to be processed and the template to be processed can move transversely along the guiding slide.

Preferably, the plurality of stencil machines are divided into at least two different types of stencil machines for processing different types of stencils, respectively.

Preferably, the automatic operation system of the template machine further comprises a control system, the control system is in communication connection with the plurality of template machines, and the control system shields the template machine with a fault when receiving fault information of any template machine.

Preferably, the first conveyor belt and the second conveyor belt are U-shaped or L-shaped.

Compared with the prior art, the utility model discloses the automatic operating system of template machine utilizes and is about just bringing the template of waiting to process the template and processing completion to the first conveyer belt and the second conveyer belt that set up respectively to it has a plurality of templates machine and a plurality of template transfer mechanism to distribute along the direction of delivery of first conveyer belt and second conveyer belt, thereby can utilize a plurality of template transfer mechanisms will wait to process the template and shift to the template that processes on the corresponding template machine and will correspond from first conveyer belt and process the template that the processing on the template machine was accomplished and shift to the second conveyer belt and export. The utility model discloses a template machine automatic operation system only needs to set up its control system in advance when using, when certain template machine breaks down, can shield the template machine that breaks down automatically, can not influence the processing operation of other template machines, is favorable to promoting the efficiency of template processing. Furthermore, the utility model discloses first conveyer belt of a plurality of template machine sharing and the second conveyer belt of template machine automatic operation system are favorable to reducing whole area and required manpower on the basis that promotes machining efficiency. In addition, when a plurality of template machines include the template machine of two kinds at least different grade types, as long as the height and the size of the different grade type template of processing are unanimous, carry out simple setting through the control system to template machine automatic operation system and can realize carrying out the purpose of processing the template of different grade type through the template machine that corresponds, and then realized compounding production.

Drawings

Fig. 1 is a schematic perspective view of an automatic operation system of a template machine according to an embodiment of the present invention.

Fig. 2 to 7 are schematic partial structural views of an automatic operation system of a stencil making machine according to an embodiment of the present invention, which sequentially show various states of a stencil transferred between a first conveyor belt, a side stencil making machine, and a second conveyor belt, wherein:

figure 2 shows the first transfer arm transferring the template to be machined onto the work platform.

Fig. 3 shows that the first moving arm pushes the template to be processed to the guiding slide, and the positioning notch of the template to be processed is butted with the positioning piece on the guiding slide.

Figure 4 shows the template to be machined being moved laterally under the work arm.

Fig. 5 shows the stencil after the stencil has been machined back to a position adjacent the first conveyor and the second conveyor.

Fig. 6 shows the second movable arm extended downward to the retracted finished stencil.

Fig. 7 shows the completed template transferred to the second conveyor belt by the second moving arm.

Fig. 8 to 13 are schematic partial structural views of another angle of the automatic operation system of the template machine according to the embodiment of the present invention, which sequentially show various states of the template transferred between the first conveyor belt, the other side template machine and the second conveyor belt, wherein:

figure 8 shows the first transfer arm transferring the template to be machined onto the work platform.

Fig. 9 shows the first moving arm pushing the template to be processed to the guiding slide, and the positioning notch of the template to be processed is butted with the positioning piece on the guiding slide.

Figure 10 shows the template to be machined being moved laterally under the work arm.

Fig. 11 shows the stencil after the stencil has been machined back to a position adjacent to the first conveyor and the second conveyor.

Fig. 12 shows the second movable arm extended downward to the retracted finished template.

Fig. 13 shows the completed template transferred to the second conveyor belt by the second moving arm.

Detailed Description

In order to explain the contents, structural features, and objects and effects of the present invention in detail, the following description is given in conjunction with the embodiments and the accompanying drawings.

Referring to fig. 1 to 13, the present invention discloses an automatic operation system of a template machine, which comprises a first conveyor belt 1, a second conveyor belt 2, a plurality of template machines 3 and a plurality of template transfer mechanisms 4; the first conveying belt 1 is used for conveying templates to be processed along the longitudinal direction; the second conveyer belt 2 is used for longitudinally conveying the processed template, and the first conveyer belt 1 and the second conveyer belt 2 are arranged in a vertically opposite mode; a plurality of template machines 3 are distributed on at least one side of the first conveying belt 1 and the second conveying belt 2 along the conveying direction; the template transfer mechanisms 4 are distributed along the conveying directions of the first conveying belt 1 and the second conveying belt 2 and are arranged corresponding to the template machines 3, and are respectively used for transferring templates to be processed on the first conveying belt 1 to the corresponding template machines 3 and transferring processed templates on the corresponding template machines 3 to the second conveying belt 2. Particularly, be equipped with the loading attachment of material loading treating processing template at the front end of first conveyer belt 1, be equipped with the unloader of the template that unloading processing was accomplished in the rear end of second conveyer belt 2, because loading attachment and unloader with the utility model discloses an improve the degree of association not big, do not show in the drawing. In addition, the molder 3 does not show its entire structure.

The utility model discloses a template machine automatic operation system only needs to set up its control system in advance when using, when certain template machine 3 breaks down, can shield the template machine 3 that breaks down automatically, can not influence the processing operation of other template machines 3, is favorable to promoting the efficiency of template processing. Furthermore, the utility model discloses a plurality of template machines 3 of automatic operating system of template machine share first conveyer belt 1 and second conveyer belt 2, on the basis that promotes machining efficiency, are favorable to reducing whole area and required manpower.

Referring to fig. 2, in some embodiments, the template transferring mechanism 4 includes a mounting bracket 40, a first slide rail 41 and a second slide rail 42 are mounted on the mounting bracket 40, the first slide rail 41 is partially located directly above the first conveyor belt 1 and partially located directly above the working platform 30 of the template machine 3, a first moving arm 43 for transferring the template to be processed from the first conveyor belt 1 to the working platform 30 of the template machine 3 is slidably disposed on the first slide rail 41, the first moving arm 43 can be moved to a position corresponding to the first conveyor belt 1 or the working platform 30 of the template machine 3 by the lateral movement of the first moving arm 43 along the first slide rail 41, the second slide rail 42 is partially located directly above the second conveyor belt 2 and partially located directly above the working platform 30 of the template machine 3, the second slide rail 42 is provided with a second moving arm 44 for transferring the processed template from the working platform 30 of the template machine 3 to the second conveyor belt 2, the lateral movement of the second moving arm 44 along the second slide rail 42 may move the second moving arm 44 to a position corresponding to the second conveyor belt 2 or the work platform 30 of the stencil printer 3. Through the above design, the utility model discloses template machine automatic operation system will treat when processing the template and shift to the operation platform 30 of template machine 3 from first conveyer belt 1, can utilize first carriage arm 43 to realize horizontal transfer along the slip of first slide rail 41, when the template that will process the completion shifts to second conveyer belt 2 from the operation platform 30 of template machine 3, can utilize second carriage arm 44 to realize horizontal transfer along the slip of second slide rail 42, be favorable to guaranteeing the accuracy that the template shifted. Regarding the specific form of the first moving arm 43 and the second moving arm 44, various forms can be adopted according to different considerations, the present invention is not limited thereto, as long as the present invention can play the role of grasping, placing and transferring the template; for example, in some examples, the first moving arm 43 and the second moving arm 44 may grip the template by using a suction cup or a magnetic attraction, and at least one of the first moving arm 43 and the second moving arm 44 may be extended and contracted up and down as a whole to facilitate the gripping and releasing of the template (e.g., a telescopic cylinder may be used). In addition, the first moving arm 43 and the second moving arm 44 may be slidably connected to the corresponding first sliding rail 41 and the second sliding rail 42 through sliding blocks, and accordingly, the first sliding rail 41 and the corresponding sliding block and the second sliding rail 42 and the corresponding sliding block may constitute a linear module.

Referring to fig. 2, as a preferred embodiment, the first conveyor belt 1 is located right below the second conveyor belt 2, the height of the work platform 30 of the stencil making machine 3 is substantially the same as the height of the first conveyor belt 1, the first slide rail 41 is located between the first conveyor belt 1 and the second conveyor belt 2, and the second moving arm 44 is extendable and retractable up and down to be able to downwardly grasp a finished stencil on the work platform 30 of the stencil making machine 3 and transfer the finished stencil onto the second conveyor belt 2 located above the work platform 30 of the stencil making machine 3. Through the design, the first moving arm 43 only needs to move transversely when the template is transferred, then the grabbing execution module can be used for grabbing the template, the whole up-and-down telescopic motion is not needed, the operation process is simplified, and the operation efficiency is improved. Specifically, the second moving arm 44 may be provided with a telescopic cylinder that allows it to be vertically telescopic.

Referring to fig. 1, as a preferred embodiment, a plurality of stencil making machines 3 are distributed on both lateral sides of the first conveyor belt 1 and the second conveyor belt 2 along the conveying direction thereof, so as to further improve the operation efficiency of the automatic stencil making machine operation system of the present invention.

Referring to fig. 1, 2 and 8, specifically, the work platforms 30 of at least some of the template machines 3 on one side of the first conveyor belt 1 and the second conveyor belt 2 and the work platforms 30 of at least some of the template machines 3 on the other side of the first conveyor belt 1 and the second conveyor belt 2 are disposed opposite to each other, and both ends of the first slide rail 41 and the second slide rail 42 of at least some of the template transfer mechanisms 4 are respectively located right above the work platforms 30 of the two template machines 3 disposed opposite to each other, so that the first moving arm 43 can move along the first slide rail 41 to a position corresponding to the first conveyor belt 1 and the two work platforms 30 disposed opposite to each other, and the second moving arm 44 can move along the second slide rail 42 to a position corresponding to the second conveyor belt 2 and the two work platforms 30 disposed opposite to each other. Through the above design, the utility model discloses template machine automatic operation system can utilize same first removal arm 43 to shift the template that corresponds from first conveyer belt 1 to two just operation platform 30 of template machine 3 respectively and utilize same second removal arm 44 to shift the template on the operation platform 30 on two just right template machines 3 to second conveyer belt 2 respectively, the effectual overall structure that has simplified. In the specific example shown in fig. 1, all the templates 3 on both sides of the first conveyor belt 1 and the second conveyor belt 2 are arranged in a one-to-one opposite arrangement.

Referring to fig. 2, more specifically, the mounting bracket 40 is of a frame structure, and includes supporting legs 401 respectively disposed at two lateral sides of the first conveyor belt 1 and the second conveyor belt 2, two top beams 402 respectively connected to tops of the supporting legs 401 at the two lateral sides, and two middle beams 403 respectively connected to middle portions of the supporting legs 401 at the two lateral sides, the second slide rail 42 is mounted on the two top beams 402, and the first slide rail 41 is mounted on the two middle beams 403. Through this design, the stability of first slide rail 41 and second slide rail 42 installation has effectively been guaranteed, and then has guaranteed the reliability of first moving arm 43 and second moving arm 44 when shifting the template.

Referring to fig. 2 to 8, in some embodiments, a transversely disposed guiding slide 31 is fixedly disposed on a work platform 30 of the template machine 3, a positioning member 32 corresponding to a positioning notch V on the template is slidably disposed on the guiding slide 31, the positioning member 32 can move along the guiding slide 31 between a first position close to the first conveyor belt 1 and the second conveyor belt 2 and a second position far from the first conveyor belt 1 and the second conveyor belt 2, the positioning member 32 is used as a positioning reference point for placing the template to be processed on the work platform 30 when located at the first position, the positioning member 32 can make the guiding slide 31 guide the template to move transversely on the work platform 30 after abutting against the positioning notch V of the template to be processed, and the template machine 3 further includes a work arm 33 for processing the template to be processed on the work platform 30. Through the arrangement of the guide sliding seat 31 and the positioning part 32, the positioning of the template to be processed on the operation platform 30 by the first moving arm 43 is facilitated, the template can be guided to move back and forth on the operation platform 30, and the template can be rapidly and accurately transferred and accurately processed. Specifically, one end of the work jib 33 is fixed to the guide carriage 31 to fix the work jib 33.

Referring to fig. 2 to 4, as a preferred embodiment, the first moving arm 43 is configured to drive the positioned template to be processed to move longitudinally to the guiding slide 31 so that the positioning member 32 is abutted to the positioning notch V of the template to be processed and the template to be processed can move transversely along the guiding slide 31. That is to say, when the first moving arm 43 places the template to be processed on the operation platform 30, the template to be processed and the positioning part 32 are arranged at intervals, and then the first moving arm 43 is reused to drive the template to be processed to move to the guide slide 31 so as to butt the positioning part 32 and the positioning notch V of the template to be processed, thereby avoiding the interference between the positioning part 32 and the template to be processed when the template to be processed is placed, and avoiding the damage caused by the template to be processed.

In some embodiments, the plurality of stencil machines 3 are divided into at least two different types of stencil machines 3 for processing different types of stencils, respectively. Through the design, as long as the height and the size of the different types of templates to be processed are consistent, the purpose of processing the different types of templates through the corresponding template machine 3 can be realized by simply setting the control system of the automatic operating system of the template machine, and then the material mixing production is realized.

In some embodiments, the automatic operation system of the stencil printer further includes a control system (not shown) communicatively connected to the plurality of stencil printers 3, the control system shielding a malfunctioning stencil printer 3 upon receiving a failure message from any of the stencil printers 3. That is to say, when a certain template machine 3 breaks down, the control system can automatically perform corresponding operation adjustment according to the fault information, so as to smoothly shield the template machine 3 which breaks down, thereby ensuring that the template machine automatic operation system can continue template processing.

In some embodiments, the first conveyor belt 1 and the second conveyor belt 2 are U-shaped or L-shaped. Because first conveyer belt 1 and second conveyer belt 2 adopt U-shaped or L shape design, when distributing a plurality of template machine 3 along the direction of delivery of first conveyer belt 1 and second conveyer belt 2, both do benefit to more template machines 3 of distribution, can further reduce whole area again.

With reference to fig. 2 to 7 or fig. 8 to 13, the following description will be made of specific working processes of the present invention by taking the specific example shown in the drawings as an example, which is only used for facilitating understanding of the present invention. In this example, the transfer of the templates between the first conveyor belt 1, the templates 3 and the second conveyor belt 2 is performed in the same manner.

Firstly, templates to be processed are sequentially fed onto the first conveying belt 1, and when the templates to be processed are conveyed to the position corresponding to the corresponding template machine 3 by the first conveying belt 1, the corresponding templates to be processed are grabbed from the first conveying belt 1 by the first moving arm 43 at the position; then, the first moving arm 43 drives the template to be processed to move transversely and move the template to be processed to the corresponding operation platform 30 by using the positioning of the positioning piece 32 and the positioning notch V; then, the first moving arm 43 drives the template to be processed to move longitudinally to the guiding slide 31 so that the template to be processed is attached to the guiding slide 31, and the positioning notch V of the template to be processed is butted to the positioning part 32; then, the template machine 3 drives the template to be processed to move transversely along the guide slide 31 so as to process the template to be processed by using the working arm 33; after the template to be processed is processed, the processed template is driven to return, and correspondingly, the positioning piece 32 returns to the first position from the second position; then, the second moving arm 44 is extended downward to grasp the finished template; after the grabbing action is completed, the second moving arm 44 retracts upwards and moves transversely to a position corresponding to the second conveyor belt 2 to release the processed template onto the second conveyor belt 2 for blanking, and then the second moving arm 44 returns to standby.

The above disclosure is only a preferred embodiment of the present invention, and the function is to facilitate the understanding and implementation of the present invention, which is not to be construed as limiting the scope of the present invention, and therefore, the present invention is not limited to the claims.

Claims (11)

1. An automatic operation system of a template machine is characterized by comprising:

the first conveying belt is used for conveying the template to be processed along the longitudinal direction;

the second conveying belt is used for conveying the processed template along the longitudinal direction, and the first conveying belt and the second conveying belt are arranged in an up-and-down opposite mode;

the plurality of template machines are distributed on at least one side of the first conveying belt and the second conveying belt along the conveying direction of the first conveying belt and the second conveying belt; and

the template transfer mechanisms are distributed along the conveying directions of the first conveying belt and the second conveying belt and are arranged corresponding to the template machines, and the template transfer mechanisms are respectively used for transferring a template to be processed on the first conveying belt to the corresponding template machine and transferring a processed template on the corresponding template machine to the second conveying belt.

2. The automatic template machine operation system according to claim 1, wherein the template transfer mechanism comprises a mounting bracket on which a first slide rail and a second slide rail are mounted, the first slide rail being partially positioned directly above the first conveyor and partially positioned directly above the operation platform of the template machine, the first slide rail being slidably provided with a first moving arm for transferring a template to be processed from the first conveyor to the operation platform of the template machine, the first moving arm being movable by lateral movement along the first slide rail to a position corresponding to the first conveyor or the operation platform of the template machine, the second slide rail being partially positioned directly above the second conveyor and partially positioned directly above the operation platform of the template machine, the second slide rail being slidably provided with a second slide rail for transferring a processed template from the operation platform of the template machine to the operation platform of the template machine And the second moving arm can move to a position corresponding to the second conveyor belt or the working platform of the template machine by moving along the second slide rail transversely.

3. The automatic template machine operation system according to claim 2, wherein the first conveyor belt is positioned directly below the second conveyor belt, the height of the operation platform of the template machine is substantially the same as the height of the first conveyor belt, the first slide rail is positioned between the first conveyor belt and the second conveyor belt, and the second movable arm is extendable and retractable up and down to be able to grasp a finished template positioned on the operation platform of the template machine and transfer the finished template onto the second conveyor belt positioned above the operation platform of the template machine.

4. The automatic template machine operation system according to claim 2, wherein a plurality of the template machines are distributed on both lateral sides thereof in the conveying direction of the first conveyor belt and the second conveyor belt.

5. The automatic template machine operation system according to claim 4, wherein at least a part of the operation platforms of the template machine located on one side of the first conveyor belt and the second conveyor belt and at least a part of the operation platforms of the template machine located on the other side of the first conveyor belt and the second conveyor belt are arranged in a one-to-one opposite arrangement, and both ends of a first slide rail and a second slide rail of at least a part of the template transfer mechanism are respectively located right above the operation platforms of the two template machines arranged in an opposite arrangement so that the first moving arm can move to a position corresponding to the first conveyor belt and the two operation platforms arranged in an opposite arrangement along the first slide rail and the second moving arm can move to a position corresponding to the second conveyor belt and the two operation platforms arranged in an opposite arrangement along the second slide rail.

6. The automatic operation system of a formwork machine as claimed in claim 5, wherein the mounting bracket is of a frame structure and comprises supporting legs respectively disposed at two lateral sides of the first and second conveyer belts, two top beams respectively connected to tops of the supporting legs at the two lateral sides, and two middle beams respectively connected to middle portions of the supporting legs at the two lateral sides, the second slide rail is mounted on the two top beams, and the first slide rail is mounted on the two middle beams.

7. The automatic operation system of the template machine according to claim 1, wherein a transversely-arranged guide sliding seat is fixedly arranged on an operation platform of the template machine, a positioning piece corresponding to the positioning notch on the template is slidably arranged on the guide sliding seat, the positioning piece can move between a first position close to the first conveying belt and the second conveying belt and a second position far away from the first conveying belt and the second conveying belt along the guide sliding seat, the positioning piece is positioned at the first position and is used as a positioning reference point of the template to be processed on the operation platform, the positioning piece can make the guide sliding seat guide the template to transversely move on the operation platform after being butted with the positioning notch of the template to be processed, and the template machine further comprises an operation arm used for processing the template to be processed on the operation platform.

8. The automatic template machine operation system according to claim 7, wherein the first moving arm is configured to move the template to be machined after being positioned longitudinally toward the guide slide so that the positioning member is abutted against the positioning notches of the template to be machined and the template to be machined can move laterally along the guide slide.

9. The automatic work system of a stencil making machine according to claim 1, wherein a plurality of the stencil making machines are divided into at least two different types of stencil making machines for processing different types of stencils, respectively.

10. The automatic operation system of a stencil printer as claimed in claim 1, further comprising a control system, the control system being communicatively coupled to the plurality of stencil printers, the control system masking a malfunctioning stencil printer upon receiving a failure message from any of the stencil printers.

11. The automatic template machine operation system according to claim 1, wherein the first conveyor belt and the second conveyor belt are U-shaped or L-shaped.

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