CN218707760U - Solar energy online laying machine tilting tray feed mechanism - Google Patents

Abstract

The utility model discloses an online laying machine of solar energy tilting tray feed mechanism relates to solar cell panel production technical field, including the laying machine body and the subassembly of rectifying, laying machine body back fixed mounting has the scrolling motor, and the rotation transmission of scrolling motor output is connected with the tilting disk, the tilting disk exposes in the partial block of this external circumference of laying machine and installs the outer spool. The application provides a solar energy online laying machine tilting pan feed mechanism, at first, through the drive of the motor of turning over the carousel, after last first volume material, upset to inboard, second roll material more than the outside can, realize the material loading and do not shut down, secondly, through the real time monitoring of the probe of rectifying, the discovery notacoria unreels the skew that the in-process takes place and in time corrects, and at last, through the pulling of spring to the bull stick, make the pinch roller laminate in the solar cell body all the time, guarantee the inseparable laminating between notacoria and body, and certain practicality is possessed.

Description

Solar energy online laying machine tilting tray feed mechanism

Technical Field

The utility model relates to a solar cell panel production technical field specifically is a solar energy online laying machine tilting tray feed mechanism.

Background

The packaging of the solar panel needs to stack a plurality of materials together, the materials are heated and cured in a laminating machine to be formed into the solar panel, and a back film needs to be laid on the solar panel after the solar panel is formed to protect the solar panel, so that the solar panel packaging machine needs to be applied to the solar laying machine.

Firstly, the feeding mechanism of the solar paving machine in the current market is in a single-roll mode, roll changing is carried out after the roll feeding is finished, and then a second roll of material is fed, so that the time is wasted in feeding and discharging, and the capacity is influenced; secondly, the existing laying machine lacks of monitoring in the unreeling process, and the deviation of materials is difficult to correct in time; finally, the existing paving machine usually realizes traction and attachment of materials through a swing arm, and the attachment degree between the back film and the solar cell body is poor, so that the quality of a finished product is influenced.

In view of the above, research and improvement are made to overcome the defects of the conventional structure, and a tray-turning and feeding mechanism of a solar online laying machine is provided.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a solar energy online laying machine tilting tray feed mechanism to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: including the laying machine body and the subassembly of rectifying, laying machine body back fixed mounting has the scrolling motor, and scrolling motor output end rotation transmission is connected with the carousel that turns over, the carousel that turns over exposes to install the outer spool in this external circumference part block of laying machine, and the carousel that turns over hides and installs the inner reel in this internal circumference part block of laying machine, outer spool circumference cover is equipped with the notacoria, and is equipped with the splicer that is fixed in laying machine body top on the outer spool for the material unreels and prevents the skew the subassembly of rectifying locates laying machine body top middle-end.

Furthermore, the deviation rectifying assembly comprises a support and a deviation rectifying probe, the support is of an L-shaped structure, and the deviation rectifying probe is attached to the right side of the top of the support.

Furthermore, the deviation rectifying assembly further comprises a transition roller and a deviation rectifying frame, the transition roller is arranged at the top of the support in a rotating mode, and the deviation rectifying frame is arranged on the right side of the support in a sliding mode.

Furthermore, the deviation rectifying assembly further comprises a guide roller and a deviation rectifying actuator, the guide roller is rotatably mounted at the upper end and the lower end of the deviation rectifying frame, and the deviation rectifying actuator is arranged on one side, facing the support, of the deviation rectifying frame.

Further, the right side of the top of the laying machine body is fixedly provided with an unreeling traction motor, and the lower end of the unreeling traction motor is provided with a laying component for laying and pressing materials.

Further, lay the subassembly and include frame and pinch roll, the frame gomphosis is fixed in laying machine body right side recess, and both ends all rotate about the frame middle part and install the pinch roll.

Further, lay the subassembly and still include carry over pinch rolls and bull stick, frame left side top is rotated and is installed the carry over pinch rolls, and frame right side middle part is rotated and is connected with the bull stick.

Furthermore, lay the subassembly and still include spring and pinch roller, the bull stick middle part passes through spring and frame right wall elastic connection, and the bull stick end is rotated and is installed the pinch roller.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model provides an online laying machine tilting pan feed mechanism of solar energy, at first, through the drive of the motor antiport carousel of turning over, after last first roll material, upset to inboard, second roll material more than the outside can, realize the material loading and do not shut down, secondly, through the real time monitoring of the probe of rectifying, the discovery notacoria unreels the skew that the in-process takes place and in time corrects, and at last, through the pulling of spring to the bull stick, make the pinch roller laminate in solar cell body all the time, guarantee the inseparable laminating between notacoria and body.

1. The utility model, through the arrangement of the turning disc, the turning disc is driven by the turning motor to turn over the first roll of material to the inner side, and the second roll of material can be turned over from the outer side, so that the feeding is not stopped;

2. the utility model finds the deviation generated in the back film unreeling process and corrects the deviation correcting frame in time by pushing the deviation correcting actuator through the deviation correcting probe through the real-time monitoring of the deviation correcting probe by the arrangement of the deviation correcting component so as to ensure that the back film always moves forward along a straight line;

3. the utility model discloses a lay the setting of subassembly, the carry over pinch rolls realizes that the notacoria material unreels the tensioning of in-process, through the pulling of spring to the bull stick for the pinch roller is laminated in the solar cell body all the time, ensures the inseparable laminating between notacoria and body.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a front view structural diagram of the deviation rectifying assembly of the present invention;

fig. 3 is a front view structure diagram of the laying assembly of the utility model.

In the figure: 1. a paver body; 2. a roll-over motor; 3. turning over the turntable; 4. an outer reel; 5. an inner reel; 6. a back film; 7. a splicer; 8. a deviation rectifying component; 801. a support; 802. a deviation rectifying probe; 803. a transition roller; 804. a deviation rectifying frame; 805. a guide roller; 806. a deviation correcting actuator; 9. unwinding a traction motor; 10. laying a component; 1001. a frame; 1002. a nip roll; 1003. a traction roller; 1004. a rotating rod; 1005. a spring; 1006. and (4) pressing the wheel.

Detailed Description

The following describes embodiments of the present invention in further detail with reference to the accompanying drawings and examples. The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention.

As shown in fig. 1, a turning motor 2 is fixedly installed on the back of a laying machine body 1, the output end of the turning motor 2 is connected with a turning disc 3 in a rotating transmission manner, the circumferential part of the turning disc 3 exposed out of the laying machine body 1 is clamped with an outer reel 4, the circumferential part of the turning disc 3 hidden in the laying machine body 1 is clamped with an inner reel 5, the turning disc 3 is driven by the turning motor 2 to turn to the inner side after the outer reel 4 is fed with material, the inner reel 5 can be fed with the material outside, the feeding is stopped, a back film 6 is sleeved on the circumference of the outer reel 4, and a splicer 7 fixed on the top of the laying machine body 1 is arranged at the upper end of the outer reel 4;

as shown in fig. 2, the deviation rectifying assembly 8 for preventing deviation of material unwinding is arranged at the middle end of the top of the laying machine body 1, the deviation rectifying assembly 8 comprises a support 801 and a deviation rectifying probe 802, the support 801 is in an L-shaped structure, the deviation rectifying probe 802 is attached to the right side of the top of the support 801, the deviation rectifying assembly 8 further comprises a transition roller 803 and a deviation rectifying frame 804, the transition roller 803 is rotated at the top of the support 801, the deviation rectifying frame 804 slides in parallel at the right side of the support 801, the deviation rectifying assembly 8 further comprises a guide roller 805 and a deviation rectifying actuator 806, the guide rollers 805 are rotatably arranged at the upper end and the lower end of the deviation rectifying frame 804, the deviation rectifying frame 804 is provided with the deviation rectifying actuator 806 facing the side of the support 801, the back film 6 enters the guide rollers 805 at the upper end and the lower end of the deviation rectifying frame 804 through the transition roller 803, and is led into the unwinding traction motor 9, the deviation rectifying probe 802 monitors the unwinding process of the back film 6 in real time, and pushes the deviation rectifying frame 804 through the actuator 806 to ensure that the back film 6 always moves along a straight line, and prevents deviation during unwinding process;

as shown in fig. 3, the top right side fixed mounting of the laying machine body 1 has an unreeling traction motor 9, and the lower end of the unreeling traction motor 9 is provided with a laying assembly 10 for laying and pressing materials, the laying assembly 10 comprises a frame 1001 and a clamping roller 1002, the frame 1001 is embedded and fixed in a groove on the right side of the laying machine body 1, the upper end and the lower end of the middle part of the frame 1001 are both rotatably provided with the clamping roller 1002, the laying assembly 10 further comprises a traction roller 1003 and a rotating rod 1004, the top on the left side of the frame 1001 is rotatably provided with the traction roller 1003, the middle part of the right side of the frame 1001 is rotatably connected with the rotating rod 1004, the laying assembly 10 further comprises a spring 1005 and a pressing wheel 1006, the middle part of the rotating rod 1004 is elastically connected with the right wall of the frame 1005 through the spring 1005, the pressing wheel 1006 is rotatably provided at the tail end of the rotating rod 1004, the back film 6 finally realizes a laying process with a battery body through the laying assembly 10, the back film 6 firstly obtains flattening and guiding of the clamping roller 1003, and pulling the rotating rod 1004 through the spring 1005, so that the rotating rod 1006 can be always attached to the solar battery body, and close attachment between the back film 6 and the body can be ensured.

The working principle is as follows: when the turnover disc feeding mechanism of the solar online laying machine is used, a turnover motor 2 drives a turnover rotary disc 3 to turn over an outer winding shaft 4 after materials are fed, the turnover rotary disc is turned to the inner side, inner winding shaft 5 materials can be fed outside, the feeding is not stopped, a back film 6 enters guide rollers 805 at the upper end and the lower end of a deviation correction frame 804 through transition rollers 803, an unwinding traction motor 9 is introduced, a deviation correction probe 802 monitors the unwinding process of the back film 6 in real time, the deviation correction frame 804 is pushed through a deviation correction actuator 806 to ensure that the back film 6 always advances along a straight line, the deviation in the unwinding process of the back film 6 is prevented, the back film 6 is finally laid with a battery body through a laying assembly 10, the back film 6 is firstly leveled and guided through a clamping roller after passing through a traction roller 1003, and a pressing roller 1006 is always attached to the solar battery body through the pulling of a spring 1005 rotating rod 1004, and the tight attachment between the back film 6 and the body is ensured.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (8)

1. The utility model provides a solar energy online laying machine tilting tray feed mechanism, its characterized in that, includes laying machine body (1) and deviation correcting component (8), laying machine body (1) back fixed mounting has tilting motor (2), and tilting motor (2) output rotary drive is connected with tilting tray (3), tilting tray (3) expose and install outer spool (4) in the outer circumference part block of laying machine body (1), and tilting tray (3) hide circumference part block in laying machine body (1) and install interior spool (5), outer spool (4) circumference cover is equipped with notacoria (6), and is equipped with splicer (7) that are fixed in laying machine body (1) top on outer spool (4), is used for the material to unreel and prevents the skew correcting component (8) locate laying machine body (1) top middle-end.

2. The turnover feeding mechanism of the solar online laying machine according to claim 1, characterized in that the deviation rectifying component (8) comprises a bracket (801) and a deviation rectifying probe (802), the bracket (801) is of an L-shaped structure, and the deviation rectifying probe (802) is attached to the right side of the top of the bracket (801).

3. The turnover feeding mechanism of the solar online laying machine according to claim 2, characterized in that the deviation correcting component (8) further comprises a transition roller (803) and a deviation correcting frame (804), the transition roller (803) is rotated on the top of the bracket (801), and the deviation correcting frame (804) is slid in parallel on the right side of the bracket (801).

4. The turnover feeding mechanism of the solar online laying machine according to claim 3, characterized in that the deviation rectifying assembly (8) further comprises a guide roller (805) and a deviation rectifying actuator (806), the guide roller (805) is rotatably mounted at the upper end and the lower end of the deviation rectifying frame (804), and the deviation rectifying actuator (806) is arranged on one side of the deviation rectifying frame (804) facing the support (801).

5. The turnover feeding mechanism of the solar online laying machine according to claim 1, characterized in that an unreeling traction motor (9) is fixedly mounted on the right side of the top of the laying machine body (1), and a laying component (10) for laying and compacting materials is arranged at the lower end of the unreeling traction motor (9).

6. The turnover feeding mechanism of the solar online paving machine according to claim 5, wherein the paving component (10) comprises a frame (1001) and a clamping roller (1002), the frame (1001) is embedded and fixed in a groove on the right side of the paving machine body (1), and the clamping roller (1002) is rotatably mounted at the upper end and the lower end of the middle part of the frame (1001).

7. The turnover feeding mechanism of the solar on-line laying machine according to claim 6, characterized in that the laying assembly (10) further comprises a traction roller (1003) and a rotating rod (1004), the traction roller (1003) is rotatably mounted on the top of the left side of the frame (1001), and the rotating rod (1004) is rotatably connected to the middle of the right side of the frame (1001).

8. The turnover feeding mechanism of the solar energy online paving machine according to claim 7, characterized in that the paving assembly (10) further comprises a spring (1005) and a pressing wheel (1006), the middle part of the rotating rod (1004) is elastically connected with the right wall of the frame (1001) through the spring (1005), and the pressing wheel (1006) is rotatably mounted at the tail end of the rotating rod (1004).

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