CN217671633U - Be applied to multilayer laminator of a transmission control system - Google Patents

Abstract

The utility model provides a be applied to transmission control system of multilayer laminator, include: the multilayer laminating machine comprises a multilayer laminating machine body, a feeding level, a discharging level, a feeding level monitoring module, a laminating level monitoring module, a discharging level monitoring module and a control module, wherein the feeding level is arranged on the right side of the multilayer laminating machine body, the discharging level is arranged on the right side of the multilayer laminating machine body, the feeding level monitoring module is arranged on the feeding level, the laminating level monitoring module is arranged on the multilayer laminating machine body, the discharging level monitoring module is arranged on the discharging level, and the feeding level, the multilayer laminating machine body, the discharging level, the feeding level monitoring module, the laminating level monitoring module and the discharging level monitoring module are electrically connected with the control module. The utility model provides a be applied to transmission control system of multilayer laminator, simple structure is convenient for realize, can realize transmission system's automated control, and the lamination operation of being convenient for has improved work efficiency, has reduced workman's the amount of labour.

Description

Transmission control system applied to multilayer laminating machine

Technical Field

The utility model relates to a solar energy component encapsulates technical field, especially relates to a be applied to transmission control system of multilayer laminator.

Background

The laminator mainly comprises a transmission system, a feeding stage, a laminating stage and a discharging stage. The working process is as follows: the solar cell module is sent to a laminating stage from a feeding stage, a heating system conducts heat through a stainless steel heat conducting plate to preheat the module, the module is preheated and then laminated by adopting a vacuum hot pressing method and an advanced staged packaging process, then curing operation is carried out, and finally a finished product is sent out from a discharging stage. At present, the multi-layer laminated main bodies are independently controlled without interference, a plurality of vacuum and heating systems are required to be arranged on a plurality of laminated main bodies, and the logic of a transmission control system is relatively complex. And the control system of conveying often needs manual operation, can't realize automated control, is inconvenient to use. Therefore, it is necessary to design a new transmission control system for a multi-layer laminating machine.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a be applied to transmission control system of multilayer laminator, simple structure is convenient for realize, can realize transmission system's automated control, and the lamination operation of being convenient for has improved work efficiency, has reduced workman's the amount of labour.

In order to achieve the above object, the utility model provides a following scheme:

a drive control system for use in a multi-layer lamination press comprising: a multi-layer lamination machine, comprising: the multilayer laminating machine comprises a feeding stage, a discharging stage, a feeding stage monitoring module, a laminating stage monitoring module, a discharging stage monitoring module and a control module, wherein the multilayer laminating machine is arranged on the right side of the feeding stage, the discharging stage is arranged on the right side of the multilayer laminating machine, the feeding stage monitoring module is arranged on the feeding stage, the laminating stage monitoring module is arranged on the multilayer laminating machine, the discharging stage monitoring module is arranged on the discharging stage, and the feeding stage, the multilayer laminating machine, the discharging stage, the feeding stage monitoring module, the laminating stage monitoring module and the discharging stage monitoring module are electrically connected with the control module;

the feeding level monitoring module comprises a feeding level material-containing photoelectric sensor, the feeding level material-containing photoelectric sensor is arranged at one end of the feeding level close to the multilayer laminating machine, and the feeding level material-containing photoelectric sensor is electrically connected with the control module;

the lamination level monitoring module comprises a lamination level stop position inductive proximity switch, an open cover position inductive proximity switch, a close cover position inductive proximity switch, a lamination level deceleration position inductive proximity switch and a lamination level feed position inductive proximity switch, wherein the lamination level stop position inductive proximity switch is arranged at one end, close to the feed level, of each layer of the multilayer laminating machine, the lamination level deceleration position inductive proximity switch is arranged at one end, close to the discharge level, of each layer of the multilayer laminating machine, the lamination level feed position inductive proximity switch is arranged between the lamination level deceleration position inductive proximity switch and the lamination level feed position inductive proximity switch, the open cover position inductive proximity switch is arranged at the top of the multilayer laminating machine and used for detecting whether the multilayer laminating machine is open or not, the close cover position inductive proximity switch is arranged at the bottom of the multilayer laminating machine and used for detecting whether the multilayer laminating level is closed or not, and the lamination level stop position inductive proximity switch, the open cover position inductive proximity switch, the close cover position inductive proximity switch, the lamination level deceleration position inductive proximity switch and the lamination level feed position inductive proximity switch are electrically connected with the lamination level control module;

the discharge level monitoring module comprises a discharge level discharge photoelectric position sensor and a discharge level charged photoelectric sensor, the discharge level is arranged at one end close to the multilayer laminating machine, the discharge level discharge position photoelectric sensor is arranged at the other end of the multilayer laminating machine, and the discharge level discharge position photoelectric sensor and the discharge level charged photoelectric sensor are electrically connected with the control module.

Optionally, the feeding stage includes a plurality of feeding transmission parts and a feeding motor, the feeding transmission parts correspond to the setting of the multilayer laminating machine, the feeding motor is connected to the feeding transmission parts in a driving manner, the feeding stage material-containing photoelectric sensors are provided in a plurality of positions corresponding to the feeding transmission parts, the feeding transmission parts are provided with the feeding stage material-containing photoelectric sensors at one end close to the multilayer laminating machine, and the feeding motor is electrically connected to the control module.

Optionally, each layer of the multilayer laminating machine is provided with a laminating transmission component and a laminating motor, the laminating motor is connected to the laminating transmission component in a driving manner, one end of the laminating transmission component close to the feeding stage is provided with the laminating stage stop position inductive proximity switch, one end of the laminating transmission component close to the discharging stage is provided with the laminating stage speed reduction position inductive proximity switch, and the laminating motor is electrically connected to the control module.

Optionally, the ejection of compact level includes a plurality of ejection of compact transmission parts and ejection of compact motor, ejection of compact transmission parts corresponds lamination transmission parts sets up, ejection of compact motor drive connects ejection of compact transmission parts, ejection of compact transmission parts is close to lamination transmission parts's one end sets up ejection of compact level ejection of compact position photoelectric sensor, and the other end sets up ejection of compact level has material photoelectric sensor, ejection of compact motor electric connection control module.

Optionally, the control module includes a PLC controller and a touch display screen, and the feeding stage, the multilayer laminator, the discharging stage, the feeding stage monitoring module, the laminating stage monitoring module, the discharging stage monitoring module, and the touch display screen are electrically connected to the PLC controller.

According to the utility model provides a concrete embodiment, the utility model discloses a following technological effect: the utility model provides a be applied to transmission control system of multilayer laminator, this transmission control system sets up pan feeding level and ejection of compact level as the multilayer structure corresponding with multilayer laminator, can realize the same business of subassembly with advancing with going out, the waiting material time has been reduced, the work efficiency is improved, this transmission system is provided with pan feeding level monitoring module, lamination level monitoring module and ejection of compact level monitoring module, be provided with a plurality of sensors, can detect the transmission position of subassembly, can realize multilayer laminator, the automatic control of pan feeding level and ejection of compact level according to detecting the position, in addition multilayer laminator, the position of pan feeding level and ejection of compact level corresponds the setting, can realize automatic transmission, need not the workman to carry, the amount of labour of workman has been reduced; the system is also provided with a touch display screen, the PLC can be controlled through the touch display screen, detection information of each sensor is displayed, and workers can check or use the system conveniently.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive labor.

FIG. 1 shows an embodiment of the present invention applied to multiple layers the structure schematic diagram of a transmission control system of the laminating machine;

fig. 2 is a schematic diagram of PLC controller connections.

Reference numerals: 1. a feeding-level material-containing photoelectric sensor; 2. a lamination level stop position inductive proximity switch; 3. a cover opening in-place sensor; 4. a laminating machine deceleration position inductance type approach switch; 5. closing the cover to the position to obtain an inductive proximity switch; 6. the discharging level is a discharging position inductance type approach switch; 7. a material feeding position inductive proximity switch of a laminating machine; 8. a feeding motor; 9. a discharging-level material-containing photoelectric sensor; 10. a laminated motor; 11. discharging material a motor; 12. a feeding transmission part; 13. a laminated transmission member; 14. a discharge transmission part; 15. and a pneumatic valve.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts all belong to the protection scope of the present invention.

The utility model aims at providing a be applied to transmission control system of multilayer laminator, simple structure is convenient for realize, can realize transmission system's automated control, and the lamination operation of being convenient for has improved work efficiency, has reduced workman's the amount of labour.

In order to make the aforementioned objects, features and advantages of the present invention more comprehensible, the present invention is described in detail with reference to the accompanying drawings and the following detailed description.

As shown in fig. 1 and fig. 2, an embodiment of the present invention provides a transmission control system for a multilayer laminator, including: the multilayer laminating machine comprises a multilayer laminating machine, a feeding stage, a discharging stage, a feeding stage monitoring module, a laminating stage monitoring module, a discharging stage monitoring module and a control module, wherein the multilayer laminating machine is arranged on the right side of the feeding stage, the discharging stage is arranged on the right side of the multilayer laminating machine, the feeding stage monitoring module is arranged on the feeding stage, the laminating stage monitoring module is arranged on the multilayer laminating machine, the discharging stage monitoring module is arranged on the discharging stage, and the feeding stage, the multilayer laminating machine, the discharging stage, the feeding stage monitoring module, the laminating stage monitoring module and the discharging stage monitoring module are electrically connected with the control module;

the feeding-level monitoring module comprises a feeding-level material-containing photoelectric sensor 1, the feeding-level material-containing photoelectric sensor 1 is arranged at one end of the feeding level close to the multilayer laminating machine, and the feeding-level material-containing photoelectric sensor 1 is electrically connected with the control module;

the laminating level monitoring module comprises a laminating level stop position inductive proximity switch 2, an uncovering-in-place inductive proximity switch 3, a closing-in-place inductive proximity switch 5, a laminating level deceleration position inductive proximity switch 4 and a laminating level inlet position inductive proximity switch 7, wherein the laminating level stop position inductive proximity switch 2 is arranged at one end, close to the inlet level, of each layer of the multilayer laminating machine, the laminating level deceleration position inductive proximity switch 4 is arranged at one end, close to the outlet level, of each layer of the multilayer laminating machine, the laminating level inlet position inductive proximity switch 7 is arranged between the laminating level deceleration position inductive proximity switch 4 and the laminating level stop position inductive proximity switch 2, the uncovering-in-place inductive proximity switch 3 is arranged at the top of the multilayer laminating machine and used for detecting whether the multilayer laminating machine is uncovered in place or not, the closing-in-place inductive proximity switch 5 is arranged at the bottom of the multilayer laminating machine and used for detecting whether the closing-in-place inductive proximity switch 2, the uncovering-in-place inductive proximity switch 3, the closing-in-place inductive proximity switch 5 and the laminating level stop position inductive proximity switch 7 are electrically connected with the laminating level inductive proximity switch control module;

the multilayer laminating machine of the utility model adopts the prior art, each layer of the multilayer laminating machine is wrapped with the laminating transmission part, and the transmission of materials can be realized;

the discharging level monitoring module comprises a discharging level discharging position photoelectric sensor 6 and a discharging level charging photoelectric sensor 9, the discharging level is close to one end of the multilayer laminating machine and is provided with the discharging level discharging position photoelectric sensor 6, the other end of the multilayer laminating machine is provided with the discharging level charging photoelectric sensor 9, and the discharging level discharging position photoelectric sensor 6 and the discharging level charging photoelectric sensor 9 are electrically connected with the control module.

The feeding stage comprises a plurality of feeding transmission parts 12 and a feeding motor 8, the feeding transmission parts 12 correspond to the multilayer laminating machine, the feeding motor 8 is in driving connection with the feeding transmission parts 12, the feeding stage material photoelectric sensors 1 correspond to the feeding transmission parts 12, the feeding transmission parts 12 are close to one end of the multilayer laminating machine and are provided with the feeding stage material photoelectric sensors 1, and the feeding motor 8 is electrically connected with the control module.

Each layer of the multilayer laminating machine is provided with a laminating transmission part 13 and a laminating motor 10, the laminating motor 10 is in driving connection with the laminating transmission part 13, one end, close to the feeding stage, of the laminating transmission part 13 is provided with the laminating stage stop position inductive proximity switch 2, one end, close to the discharging stage, of the laminating transmission part 13 is provided with the laminating stage stop position inductive proximity switch 4, the laminating motor 10 and a pneumatic valve 15 of the multilayer laminating machine are electrically connected with a control module, and the pneumatic valve 15 is used for opening and closing the cover of the multilayer laminating machine.

The discharging stage comprises a plurality of discharging transmission parts 14 and a discharging motor 11, the discharging transmission parts 14 correspond to the lamination transmission parts 13, the discharging motor 11 is in driving connection with the discharging transmission parts 14, one end, close to the lamination transmission parts 13, of the discharging transmission parts 14 is provided with the discharging stage discharging position photoelectric sensor 6, the other end is provided with the discharging stage material photoelectric sensor 9, and the discharging motor 11 is electrically connected with the control module.

The transmission part can adopt a form that the conveying belt is matched with the motor, and can also adopt other parts capable of realizing the transmission function.

The control module comprises a PLC controller and a touch display screen, and the feeding stage, the multilayer laminating machine, the discharging stage, the feeding stage monitoring module, the laminating stage monitoring module, the discharging stage monitoring module and the touch display screen are electrically connected with the PLC controller.

The system is also provided with a communication module and an upper computer, the PLC is electrically connected with the upper computer through the communication module, the communication module can adopt a WIFI module and the like, the upper computer adopts a Siemens industrial personal computer Siemens, the industrial personal computer adopts a new-generation processor, the calculation function is strong, the data processing capacity is very high, the PLC is suitable for serving as a server of an industrial workstation or a control room and a design center, the PLC is a lower computer Schneider Modicon M241 programmable controller, a Schneider PLCM241 series programmable controller based on a SoMachine V4 platform is suitable for controlling a high-speed dual-core CPU processor through a high-performance machine with a motion control function, the performance can get away from the market, logic setting is carried out according to the prior art, sensor acquisition and controller output are realized, and the functions of the system are realized.

The specific working process of the system is as follows: when the inductive proximity switch detects that the closing cover is in place, the PLC controls the material feeding motor to be turned on, AND further drives the material feeding transmission part to carry out transmission, when the inductive proximity switch detects that the material feeding level of the laminating machine is opened, the PLC controls the material feeding motor to be turned off, AND simultaneously controls the material feeding motor AND the laminating motor to be turned on, AND simultaneously drives the material feeding transmission part AND the laminating transmission part to carry out transmission, when the inductive proximity switch detects that the material is closed, the PLC controls the laminating motor AND the material feeding motor to be decelerated, when the sensor detects that the material completely passes through, the PLC controls the material feeding motor AND the laminating motor to be turned off, AND simultaneously controls the laminating machine to close the cover, when the inductive proximity switch detects that the closing cover is in place, the PLC controls the laminating motor to carry out laminating action, wherein each layer of detection switches in the operation process is in AND relation, plate collision is prevented, when the laminating machine finishes discharging, the PLC controls the motor to start, the transmission motor drives the laminating motor to carry out transmission, AND controls the laminating motor to carry out the material discharging when the laminating transmission part detects that the material is closed, AND the laminating motor controls the laminating motor to carry out the discharging, AND when the laminating transmission part detects that the material discharging motor is closed, AND the laminating motor controls the laminating motor to carry out the laminating transmission, AND controls the laminating motor to carry out the discharging process.

The PLC controls each motor through the speed regulator, and can realize the forward and reverse rotation and multi-stage speed control of the motors.

The utility model provides a be applied to transmission control system of multilayer laminator, this transmission control system sets up pan feeding level and ejection of compact level as the multilayer structure corresponding with multilayer laminator, can realize the same business of subassembly with advancing with going out, the waiting material time has been reduced, the work efficiency is improved, this transmission system is provided with pan feeding level monitoring module, lamination level monitoring module and ejection of compact level monitoring module, be provided with a plurality of sensors, can detect the transmission position of subassembly, can realize multilayer laminator, the automatic control of pan feeding level and ejection of compact level according to detecting the position, in addition multilayer laminator, the position of pan feeding level and ejection of compact level corresponds the setting, can realize automatic transmission, need not the workman to carry, the amount of labour of workman has been reduced; the system is also provided with a touch display screen, the PLC can be controlled through the touch display screen, detection information of each sensor is displayed, and workers can check or use the system conveniently.

The principle and the implementation of the present invention are explained herein by using specific examples, and the above description of the embodiments is only used to help understand the method and the core idea of the present invention; meanwhile, for the general technical personnel in the field, according to the idea of the present invention, there are changes in the concrete implementation and the application scope. In summary, the content of the present specification should not be construed as a limitation of the present invention.

Claims (5)

1. A drive control system for use in a multi-layer lamination press comprising: a multi-layer lamination press, comprising: the multilayer laminating machine comprises a feeding stage, a discharging stage, a feeding stage monitoring module, a laminating stage monitoring module, a discharging stage monitoring module and a control module, wherein the multilayer laminating machine is arranged on the right side of the feeding stage, the discharging stage is arranged on the right side of the multilayer laminating machine, the feeding stage monitoring module is arranged on the feeding stage, the laminating stage monitoring module is arranged on the multilayer laminating machine, the discharging stage monitoring module is arranged on the discharging stage, and the feeding stage, the multilayer laminating machine, the discharging stage, the feeding stage monitoring module, the laminating stage monitoring module and the discharging stage monitoring module are electrically connected with the control module;

the feeding-level monitoring module comprises a feeding-level material-containing photoelectric sensor, the feeding-level material-containing photoelectric sensor is arranged at one end of the feeding level close to the multilayer laminating machine, and the feeding-level material-containing photoelectric sensor is electrically connected with the control module;

the lamination level monitoring module comprises a lamination level stop position inductive proximity switch, an open cover position inductive proximity switch, a close cover position inductive proximity switch, a lamination level deceleration position inductive proximity switch and a lamination level feed position inductive proximity switch, wherein the lamination level stop position inductive proximity switch is arranged at one end, close to the feed level, of each layer of the multilayer laminating machine, the lamination level deceleration position inductive proximity switch is arranged at one end, close to the discharge level, of each layer of the multilayer laminating machine, the lamination level feed position inductive proximity switch is arranged between the lamination level deceleration position inductive proximity switch and the lamination level feed position inductive proximity switch, the open cover position inductive proximity switch is arranged at the top of the multilayer laminating machine and used for detecting whether the multilayer laminating machine is open or not, the close cover position inductive proximity switch is arranged at the bottom of the multilayer laminating machine and used for detecting whether the multilayer laminating level is closed or not, and the lamination level stop position inductive proximity switch, the open cover position inductive proximity switch, the close cover position inductive proximity switch, the lamination level deceleration position inductive proximity switch and the lamination level feed position inductive proximity switch are electrically connected with the lamination level control module;

the discharge level monitoring module comprises a discharge level discharge position photoelectric sensor and a discharge level charged photoelectric sensor, the discharge level is close to one end of the multilayer laminating machine and is provided with the discharge level discharge position photoelectric sensor, the other end of the multilayer laminating machine is provided with the discharge level charged photoelectric sensor, and the discharge level discharge position photoelectric sensor and the discharge level charged photoelectric sensor are electrically connected with the control module.

2. The transmission control system for the multi-layer laminating machine according to claim 1, wherein the feeding stage includes a plurality of feeding transmission members and a feeding motor, the feeding transmission members are disposed corresponding to the multi-layer laminating machine, the feeding motor is drivingly connected to the feeding transmission members, the feeding stage material photoelectric sensors are disposed in a plurality corresponding to the feeding transmission members, the feeding transmission members are disposed near one end of the multi-layer laminating machine, the feeding stage material photoelectric sensors are disposed, and the feeding motor is electrically connected to the control module.

3. The transmission control system for the multi-layer laminating machine according to claim 1, wherein each layer of the multi-layer laminating machine is provided with a lamination transmission component and a lamination motor, the lamination motor is in driving connection with the lamination transmission component, one end of the lamination transmission component close to the feeding stage is provided with the lamination stage stop position inductive proximity switch, one end of the lamination transmission component close to the discharging stage is provided with the lamination stage deceleration position inductive proximity switch, and the lamination motor is electrically connected with the control module.

4. The transmission control system for the multi-layer laminating machine according to claim 3, wherein the discharging stage comprises a plurality of discharging transmission members and a discharging motor, the discharging transmission members are disposed corresponding to the laminating transmission members, the discharging motor is drivingly connected to the discharging transmission members, one end of the discharging transmission members near the laminating transmission members is disposed with the discharging stage discharging position photoelectric sensor, the other end is disposed with the discharging stage charged photoelectric sensor, and the discharging motor is electrically connected to the control module.

5. The transmission control system for multi-layer laminating machine according to claim 1, wherein the control module comprises a PLC controller and a touch display screen, and the input stage, multi-layer laminating machine, output stage, input stage monitoring module, lamination stage monitoring module, output stage monitoring module and touch display screen are electrically connected to the PLC controller.

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