CN220991581U

CN220991581U - High-efficient glue supply device of photovoltaic module processing

Info

Publication number: CN220991581U
Application number: CN202322547857.2U
Authority: CN
Inventors: 陈晓峰; 许国忠; 吴杨飞; 李纲; 胡青; 唐江; 陈华龙
Original assignee: Suzhou Zhuozhao Dispensing Co Ltd
Current assignee: Suzhou Zhuozhao Dispensing Co Ltd
Priority date: 2023-09-20
Filing date: 2023-09-20
Publication date: 2024-05-24
Anticipated expiration: 2033-09-20

Abstract

The utility model discloses a high-efficiency glue supply device for processing a photovoltaic module, which comprises the following components: the first A glues bucket, second A glues bucket, A glues and supplies gluey chamber, first B glues bucket, second B glues bucket and B glues and supplies gluey chamber, first A glues bucket, second A glues bucket, first B glues bucket, second B glues the bucket in all being provided with a pivot, the lower extreme of pivot extends to first A glues bucket, second A glues bucket, first B glues bucket, second B glues the bottom of bucket and installs a stirring leaf, first A glues bucket, second A glues bucket, first B glues bucket, the respective upper surface of second B glues the bucket and all installs an adapter, the other end and the vacuum pump of adapter are connected. The utility model can not only carry out vacuum defoamation on the glue solution before glue is supplied outwards, but also realize the time of waiting for the replenishment of the glue solution and carrying out vacuum defoamation on the glue solution without stopping, ensure the continuity of glue supply, the mixing proportion of the glue solution and the stability of the quality of the mixed glue solution, thereby improving the production efficiency and the quality of glue dispensing.

Description

High-efficient glue supply device of photovoltaic module processing

Technical Field

The utility model relates to the technical field of photovoltaic glue, in particular to a high-efficiency glue supply device for photovoltaic module processing.

Background

The photovoltaic module is required to be installed with the frame after being glued on the frame, and in order to improve the performance of glue solution, the glue is dispensed after the two-component glue solution is mixed.

The two-component glue usually needs to be mixed before dispensing, and then can be used. The dispensing device is generally matched with corresponding glue supply device to realize continuous dispensing, and after the glue solution is used, the glue supply device needs to supplement new glue solution, and then the glue supply device is continuously supplied with glue.

At present, when the glue supply equipment supplements new glue solution, the glue supply equipment needs to be stopped, then the new glue solution is waited to be supplemented, in the process, the stop of the glue supply equipment not only wastes time, but also can not ensure the continuity of glue supply, and bubbles easily exist in the supplemented glue solution, so that the quality of glue supply is easily reduced by directly supplying the glue, and the quality of glue dispensing is affected.

Disclosure of utility model

The utility model aims to solve the technical problem of providing the high-efficiency glue supply device for processing the photovoltaic module, which can not only carry out vacuum defoaming on glue solution before glue is supplied outwards, but also realize the time of waiting for glue solution replenishment and vacuum defoaming on the glue solution without stopping, and ensure the continuity of glue supply, the mixing proportion of the glue solution and the stability of the quality of the mixed glue solution, thereby improving the production efficiency and the quality of dispensing glue.

In order to solve the technical problems, the utility model adopts the following technical scheme: an efficient glue supply device for photovoltaic module processing, comprising: the device comprises a first glue barrel A, a second glue barrel A, a glue supplying cavity A, a first glue barrel B, a second glue barrel B and a glue supplying cavity B, wherein the glue supplying cavities A and B are communicated with a glue mixing valve through pipelines;

The utility model discloses a vacuum pump, including first A glue bucket, second A glue bucket, first B glue bucket, second B glue bucket, all be provided with a rotation axis in the first A glue bucket, second A glue bucket, first B glue bucket, the output shaft transmission of the motor of second B glue bucket top is connected with setting up in first A glue bucket, second A glue bucket, first B glue bucket, second B glue bucket's bottom and install a stirring leaf, a plurality of arc via hole has been seted up on the upper portion of stirring leaf that radially axis of rotation both sides extend, first A glue bucket, second A glue bucket, first B glue bucket, the respective upper surface of second B glue bucket all installs an adapter, the one end and the inside intercommunication of glue bucket of adapter, the other end and a vacuum pump of adapter are connected.

The further improved scheme in the technical scheme is as follows:

1. In the above scheme, the upper surfaces of the first A glue barrel, the second A glue barrel, the first B glue barrel and the second B glue barrel are respectively connected with a bearing seat in a sealing way, a switching shaft is rotatably installed in the bearing seat, the upper end of the switching shaft vertically extends is connected with the output shaft of the motor, and the lower end of the switching shaft penetrates into the first A glue barrel, the second A glue barrel, the first B glue barrel and the second B glue barrel and is connected with the upper end of the rotating shaft.

2. In the scheme, at least one universal plug ring is arranged between the outer surface of the adapter shaft and the inner wall of the lower end of the bearing seat.

3. In the above scheme, the adapter is a three-way joint, the third end of the adapter is connected with a negative pressure meter, when the liquid level value obtained by the liquid level sensor on the first glue barrel A is lower than a set threshold value and the negative pressure meter on the second glue barrel A meets the set threshold value, the second valve is opened and the first valve is closed, when the liquid level value obtained by the liquid level sensor on the second glue barrel A is lower than the set threshold value and the negative pressure meter on the first glue barrel A meets the set threshold value, the first valve is opened and the second valve is closed, and when the liquid level value obtained by the liquid level sensor on the first glue barrel B is lower than the set threshold value and the negative pressure meter on the second glue barrel B meets the set threshold value, the fourth valve is opened and the third valve is closed, and when the liquid level value obtained by the liquid level sensor on the second glue barrel B is lower than the set threshold value and the negative pressure meter on the first glue barrel B meets the set threshold value.

4. In the above scheme, the exhaust pipe is arranged on the upper surfaces of the first glue barrel, the second glue barrel, the first glue barrel B and the second glue barrel B, and the exhaust valve is arranged on the exhaust pipe, the lower end of which is communicated with the inside of the glue barrel.

5. In the scheme, the liquid level sensors are respectively arranged on the side walls of the rubber barrels.

Due to the application of the technical scheme, compared with the prior art, the utility model has the following advantages:

According to the high-efficiency glue supply device for processing the photovoltaic module, the first glue barrel A, the second glue barrel A, the first glue barrel B and the second glue barrel B are respectively internally provided with the rotating shafts, the upper ends of the rotating shafts which extend vertically are in transmission connection with the output shafts of motors arranged above the glue barrels A, B, and B, the lower ends of the rotating shafts extend to the bottoms of the glue barrels A, B and are provided with the stirring blades, the upper parts of the stirring blades which extend towards the two sides of the rotating shafts in the radial direction are provided with the arc-shaped through holes, the upper surfaces of the glue barrels A, B and B are respectively provided with the rotating joints, one ends of the rotating joints are communicated with the inside of the glue barrels, and the other ends of the rotating joints are connected with the vacuum pump.

Drawings

FIG. 1 is a schematic diagram of the overall structure of a high-efficiency glue supply device for processing a photovoltaic module;

FIG. 2 is a schematic diagram of a partial structure of a high-efficiency glue supply device for processing a photovoltaic module according to the present utility model;

FIG. 3 is a schematic diagram of a local structure of the efficient glue supply device for processing the photovoltaic module;

FIG. 4 is a schematic cross-sectional view taken along line A-A of FIG. 3;

FIG. 5 is a schematic diagram of a local structure of a high-efficiency glue supply device for processing a photovoltaic module according to the present utility model;

FIG. 6 is a schematic cross-sectional view taken along line B-B of FIG. 5;

fig. 7 is an enlarged schematic view at C in fig. 6.

In the above figures: 1. a first glue barrel A; 2. a second glue barrel A; 3. a glue supplying cavity; 41. a glue supply pipeline; 42. a glue supply pipeline B; 51. a first valve; 52. a second valve; 53. a third valve; 54. a fourth valve; 6. a liquid level sensor; 71. a rubber inlet pipe; 72. a conical hopper; 73. a cover plate; 74. a seal ring; 81. a through hole; 82. light-transmitting glass; 83. an annular groove; 84. a compression ring; 9. a rotating shaft; 10. a motor; 11. stirring the leaves; 12. arc-shaped via holes; 13. an adapter; 14. a vacuum pump; 151. a bearing seat; 152. a transfer shaft; 153. a plug ring; 16. a negative pressure meter; 171. an exhaust pipe; 172. an exhaust valve; 21. a first glue barrel B; 22. a second glue barrel B; 23. and B, glue supplying the glue cavity.

Description of the embodiments

The present patent will be further understood by the specific examples given below, which are not intended to be limiting.

Example 1: an efficient glue supply device, comprising: the first glue barrel 1, the second glue barrel 2, the glue supplying cavity 3 of A, the first glue barrel 21 of B, the second glue barrel 22 of B and the glue supplying cavity 23 of B are all communicated with a glue mixing valve through a pipeline, the glue supplying pipelines 41 of the glue supplying cavities 3 of A and second glue barrels 1, 2 of B are respectively provided with glue inlets at the upper parts of the glue supplying barrels 21 of A and second glue barrels 22 of B, glue outlets of the glue supplying cavities 1 of A and second glue barrels 2 of A are respectively provided with glue outlets, the glue outlets of the glue supplying cavities of A and second glue barrels 2 of A are all communicated with the glue supplying cavity 3 of A through a glue supplying pipeline 41 of A, the glue supplying pipelines 41 of B and B of the glue supplying cavities 23 of B are respectively communicated with the glue supplying cavity 23 of B, the glue supplying pipelines 41 of A and A of the glue supplying cavities 1 of A are respectively provided with a first valve 51, the glue supplying pipelines of A and 2 of A are respectively communicated with the glue supplying cavity 2 of A, the glue supplying pipelines of B and the glue supplying cavities of B are respectively provided with a glue supplying pipeline 41 of B, the glue supplying pipeline of B is respectively provided with a glue supplying pipeline of B and a glue supplying cavity of B, the glue supplying pipeline of B is respectively provided with a glue valve of B and a glue supplying pipeline of B is respectively provided with a glue supplying pipeline of B, the glue supplying pipeline of B and a glue supplying pipeline of B is respectively communicated with a glue supplying 3 of B, the glue supplying pipeline of B and B of B is respectively provided with a glue supplying glue B, and a glue pipeline of B is respectively communicated with a glue supplying pipeline of B, and B glue valve of B is respectively;

When the high-efficiency glue supply device for processing the photovoltaic module is adopted, the first valve, the second valve, the third valve and the fourth valve are all in a closed state;

A rotating shaft 9 is arranged in each of the first glue barrel 1, the second glue barrel 2, the first glue barrel 21 and the second glue barrel 22, the upper ends of the vertically extending rotating shafts 9 are in transmission connection with an output shaft of a motor 10 arranged above the first glue barrel 1, the second glue barrel 2, the first glue barrel 21 and the second glue barrel 22, the lower ends of the rotating shafts 9 extend to the bottoms of the first glue barrel 1, the second glue barrel 2, the first glue barrel 21 and the second glue barrel 22 and are provided with a stirring blade 11, a plurality of arc-shaped through holes 12 are formed in the upper parts of the stirring blades 11 extending along the two sides of the radial rotating shafts 9, a rotary joint 13 is arranged on the upper surfaces of each of the first glue barrel 1, the second glue barrel 2, the first glue barrel 21 and the second glue barrel 22, one end of the rotary joint 13 is communicated with the inside of the glue barrel, and the other end of the rotary joint 13 is connected with a vacuum pump 14;

After enough glue is added into the first glue barrel A and the first glue barrel B through the conical hopper, corresponding cover plates on the glue barrel A and the glue barrel B can be closed to enable the glue barrel A and the glue barrel B to be in a closed state, then a motor on the cover plates is started to drive a rotating shaft and a stirring blade to rotate, a vacuum pump is started to discharge gas in the glue barrel A and the glue barrel B outwards until a negative pressure meter monitors that negative pressure values in the glue barrel A and the glue barrel B reach a set threshold value, then the first valve and the third valve are opened, and a set component of glue A and a set component of glue B are respectively fed into the glue mixing valve through 2 glue feeding cavities;

in the process of outwards supplying glue of the first A glue barrel and the first B glue barrel, opening corresponding cover plates on the second A glue barrel and the second B glue barrel, adding enough glue into the second A glue barrel and the second B glue barrel through the conical hopper, closing corresponding cover plates on the second A glue barrel and the second B glue barrel to enable the second A glue barrel and the second B glue barrel to be in a closed state, then starting a motor on the second A glue barrel and the second B glue barrel to drive a rotating shaft and a stirring blade to rotate, and simultaneously starting a vacuum pump to outwards discharge gas in the second A glue barrel and the second B glue barrel until a negative pressure meter monitors that negative pressure values in the second A glue barrel and the second B glue barrel reach a set threshold value.

The upper surfaces of the first glue barrel 1, the second glue barrel 2, the first glue barrel 21 and the second glue barrel 22 are respectively connected with a bearing seat 151 in a sealing way, a transfer shaft 152 is rotatably installed in the bearing seat 151, the upper end of the transfer shaft 152 which extends vertically is connected with the output shaft of the motor 10, and the lower end of the transfer shaft 152 penetrates into the first glue barrel 1, the second glue barrel 2, the first glue barrel 21 and the second glue barrel 22 and is connected with the upper end of the rotating shaft 9.

At least one universal plug ring 153 is disposed between the outer surface of the adapter shaft 152 and the inner wall of the lower end of the bearing block 151.

The adapter 13 is a three-way joint, and a third end of the adapter is connected with a negative pressure meter 16, when the liquid level value obtained by the liquid level sensor 6 on the first glue barrel 1 is lower than a set threshold value and the negative pressure meter 16 on the second glue barrel 2 meets the set threshold value, the second valve 52 is opened and the first valve 51 is closed, when the liquid level value obtained by the liquid level sensor 6 on the second glue barrel 2 is lower than the set threshold value and the negative pressure meter 16 on the first glue barrel 1 meets the set threshold value, the first valve 51 is opened and the second valve 52 is closed, and when the liquid level value obtained by the liquid level sensor 6 on the first glue barrel 21 is lower than the set threshold value and the negative pressure meter 16 on the second glue barrel 22 meets the set threshold value, the fourth valve 54 is opened and the third valve 53 is closed, and when the liquid level value obtained by the liquid level sensor 6 on the second glue barrel 22 is lower than the set threshold value and the negative pressure meter 16 on the first glue barrel 21 meets the set threshold value, the fourth valve 54 is opened and the fourth valve 54 is closed.

The first glue barrel 1, the second glue barrel 2, the first glue barrel 21 and the second glue barrel 22 are respectively provided with an exhaust pipe 171 on the upper surface, and an exhaust valve 172 is arranged on the exhaust pipe 171 with the lower end communicated with the inside of the glue barrel.

The liquid level sensors 6 are respectively arranged on the side walls of the rubber barrels.

Example 2: an efficient glue supply device for photovoltaic module processing, comprising: the first glue barrel 1, the second glue barrel 2, the glue supplying cavity 3 of A, the first glue barrel 21 of B, the second glue barrel 22 of B and the glue supplying cavity 23 of B are all communicated with a glue mixing valve through a pipeline, the glue supplying pipelines 41 of the glue supplying cavities 3 of A and second glue barrels 1, 2 of B are respectively provided with glue inlets at the upper parts of the glue supplying barrels 21 of A and second glue barrels 22 of B, glue outlets of the glue supplying cavities 1 of A and second glue barrels 2 of A are respectively provided with glue outlets, the glue outlets of the glue supplying cavities of A and second glue barrels 2 of A are all communicated with the glue supplying cavity 3 of A through a glue supplying pipeline 41 of A, the glue supplying pipelines 41 of B and B of the glue supplying cavities 23 of B are respectively communicated with the glue supplying cavity 23 of B, the glue supplying pipelines 41 of A and A of the glue supplying cavities 1 of A are respectively provided with a first valve 51, the glue supplying pipelines of A and 2 of A are respectively communicated with the glue supplying cavity 2 of A, the glue supplying pipelines of B and the glue supplying cavities of B are respectively provided with a glue supplying pipeline 41 of B, the glue supplying pipeline of B is respectively provided with a glue supplying pipeline of B and a glue supplying cavity of B, the glue supplying pipeline of B is respectively provided with a glue valve of B and a glue supplying pipeline of B is respectively provided with a glue supplying pipeline of B, the glue supplying pipeline of B and a glue supplying pipeline of B is respectively communicated with a glue supplying 3 of B, the glue supplying pipeline of B and B of B is respectively provided with a glue supplying glue B, and a glue pipeline of B is respectively communicated with a glue supplying pipeline of B, and B glue valve of B is respectively;

When the liquid level sensors on the first glue barrel A and the first glue barrel B send out alarms due to the fact that the detected liquid level values are too low, negative pressure values in the second glue barrel A and the second glue barrel B reach a set threshold value, and the second valve and the fourth valve are electrically controlled or manually and the first valve and the third valve are closed, so that enough glue which is subjected to vacuum defoaming in the second glue barrel A and the second glue barrel B can be continuously fed into the glue mixing valve through the 2 glue feeding cavities respectively by set components;

in the process of supplying glue outwards from the second glue barrel A and the second glue barrel B, firstly, the first glue barrel A and the second glue barrel B are opened, the exhaust valve on the exhaust pipe on the first glue barrel B breaks the vacuum state in the first glue barrel A and the first glue barrel B, then the cover plate on the first glue barrel A is opened, the first glue barrel A and the first glue barrel B are filled with enough glue again, and the glue solution is circulated in sequence, so that the glue solution can be subjected to vacuum defoamation before being supplied outwards from the glue supply cavity to improve the quality of subsequent glue solution mixing and glue dispensing, the continuous outwards supply of the double-component glue solution without bubbles from the glue supply cavity can be realized, and the time for waiting for replenishing the glue solution and carrying out vacuum defoamation on the glue solution is not needed.

The glue inlets of the first glue barrel 1, the second glue barrel 2, the first glue barrel 21 and the second glue barrel 22 are respectively connected with a glue inlet pipe 71, the other end of the glue inlet pipe 71, one end of which is communicated with the glue inlet, is connected with a cone-shaped bucket 72, and a cover plate 73 is rotatably arranged on the open end of the cone-shaped bucket 72 opposite to the glue inlet pipe 71.

A sealing ring 74 is provided between the cover plate 73 and the cone 72.

The upper surfaces of the first glue barrel 1, the second glue barrel 2, the first glue barrel 21 and the second glue barrel 22 are respectively provided with a through hole 81, and the through holes 81 are connected with a transparent glass 82 in a sealing way.

The light-transmitting glass 82 is tempered glass.

An annular light source is disposed above the light-transmitting glass 82.

The upper surfaces of the first glue barrel 1, the second glue barrel 2, the first glue barrel 21 and the second glue barrel 22 are respectively provided with an annular groove 83 extending along the circumferential direction and positioned outside the through hole 81, the light-transmitting glass 82 is embedded into the annular groove 83, and a sealing ring is arranged between the lower surface of the light-transmitting glass 82 and the bottom surface of the annular groove 83.

The outer ring of the press ring 84 is connected with the upper surface of the glue barrel, and the inner ring of the press ring 84 is in press contact with the upper surface of the transparent glass 82.

The working principle of the utility model is as follows:

When large-size parts such as a photovoltaic module are subjected to glue spraying operation, the glue is required to be more, so that the glue is required to be continuously replaced at a glue supply end and a new barrel is fed in, the glue spraying operation is stopped, and the glue spraying efficiency and quality are affected;

In the process of outwards supplying glue to the first glue barrel A and the first glue barrel B, opening corresponding cover plates on the second glue barrel A and the second glue barrel B, adding enough glue into the second glue barrel A and the second glue barrel B through a conical hopper, closing the corresponding cover plates on the second glue barrel A and the second glue barrel B to enable the second glue barrel A and the second glue barrel B to be in a closed state, then starting a motor on the closed state to drive a rotating shaft and a stirring blade to rotate, and simultaneously starting a vacuum pump to outwards discharge gas in the second glue barrel A and the second glue barrel B until a negative pressure meter monitors that negative pressure values in the second glue barrel A and the second glue barrel B reach a set threshold value;

By adopting the high-efficiency glue supply device for processing the photovoltaic module, the glue solution can be subjected to vacuum defoamation before being supplied outwards by the glue supply cavity so as to improve the quality of subsequent glue solution mixing and dispensing, the continuous outwards supply of the bubble-free double-component glue solution by the glue supply cavity can be realized, the time of stopping for waiting for supplementing the glue solution and vacuum defoamation of the glue solution is not required, the continuity of glue supply, the glue solution mixing proportion and the stability of the quality of the mixed glue solution are ensured, and therefore, the production efficiency and the dispensing quality are improved.

The above embodiments are provided to illustrate the technical concept and features of the present utility model and are intended to enable those skilled in the art to understand the content of the present utility model and implement the same, and are not intended to limit the scope of the present utility model. All equivalent changes or modifications made in accordance with the spirit of the present utility model should be construed to be included in the scope of the present utility model.

Claims

1. An efficient glue supply device for photovoltaic module processing, comprising: first A glues bucket (1), second A glues bucket (2), A glues and glues chamber (3), first B glues bucket (21), second B glues bucket (22) and B glues and supplies gluey chamber (23), the A glues and glues chamber (3) and B glues and supply gluey chamber (23) and all communicate through pipeline and a mixing glue valve, first A glues bucket (1), second A glues bucket (2), first B glues bucket (21), second B glues bucket (22) respective upper portion and is provided with into gluey mouth, respective bottom and is provided with out gluey mouth, its characterized in that: the glue outlets of the first glue barrel (1) and the second glue barrel (2) are communicated with the glue supplying cavity (3) through glue supplying pipelines (41), glue outlets of the first glue barrel (21) and the second glue barrel (22) are communicated with the glue supplying cavity (23) through glue supplying pipelines (42), a first valve (51) is arranged on the glue supplying pipelines (41) which are communicated with the glue supplying cavities (3) of the first glue barrel (1) and the glue supplying cavity (3), a second valve (52) is arranged on the glue supplying pipelines (41) which are communicated with the glue supplying cavities (3) of the second glue barrel (2) and the glue supplying cavity (3), a third valve (53) is arranged on the glue supplying pipelines (42) which are communicated with the glue supplying cavities (23) of the second glue barrel (2), a fourth valve (54) is arranged on the glue supplying pipelines (42) which are communicated with the glue supplying cavities (23) of the second glue barrel (2), and the glue level sensor (21) of the first glue barrel (21) and the second glue barrel (22) are arranged in real-time;

The utility model discloses a vacuum pump, including first A glues bucket (1), second A glues bucket (2), first B glues bucket (21), second B glues bucket (22) in all being provided with a rotation axis (9), vertical extension the upper end of axis of rotation (9) with set up in first A glues bucket (1), second A glues bucket (2), first B glues bucket (21), second B glues bucket (22) top motor (10) output shaft transmission connection, the lower extreme of axis of rotation (9) extends to first A glues bucket (1), second A glues bucket (2), first B glues bucket (21), second B glues bucket (22) the bottom and installs a stirring leaf (11), along radial to axis of rotation (9) both sides extend stirring leaf (11) upper portion seted up a plurality of arc through hole (12), first A glues bucket (1), second A glues bucket (2), first B glues bucket (21), second B glues bucket (22) each upper surface and all installs one end of turning joint (13), one end of being connected with one end of vacuum pump (13) is glued to the inside (13).

2. The efficient glue supply device for photovoltaic module processing according to claim 1, wherein: the plastic rubber is characterized in that the upper surfaces of the first A plastic barrel (1), the second A plastic barrel (2), the first B plastic barrel (21) and the second B plastic barrel (22) are respectively and hermetically connected with a bearing seat (151), a transfer shaft (152) is rotatably installed in the bearing seat (151), the upper end of the transfer shaft (152) which vertically extends is connected with an output shaft of the motor (10), and the lower end of the transfer shaft (152) penetrates into the first A plastic barrel (1), the second A plastic barrel (2), the first B plastic barrel (21) and the second B plastic barrel (22) and is connected with the upper end of the rotating shaft (9).

3. The efficient glue supply device for photovoltaic module processing according to claim 2, wherein: at least one universal plug ring (153) is arranged between the outer surface of the adapter shaft (152) and the inner wall of the lower end of the bearing seat (151).

4. The efficient glue supply device for photovoltaic module processing according to claim 1, wherein: the adapter (13) is a three-way joint, a third end of the adapter is connected with a negative pressure meter (16), when the liquid level value obtained by the liquid level sensor (6) on the first glue barrel (1) is lower than a set threshold value and the negative pressure meter (16) on the second glue barrel (2) meets the set threshold value, the second valve (52) is opened and the first valve (51) is closed, when the liquid level value obtained by the liquid level sensor (6) on the second glue barrel (2) is lower than the set threshold value and the negative pressure meter (16) on the first glue barrel (1) meets the set threshold value, the first valve (51) is opened and the second valve (52) is closed, when the liquid level value obtained by the liquid level sensor (6) on the first glue barrel (21) is lower than the set threshold value and the negative pressure meter (16) on the second glue barrel (22) meets the set threshold value, the fourth valve (54) is opened and the third valve (53) is closed, and when the liquid level value obtained by the liquid level sensor (6) on the second glue barrel (22) is lower than the set threshold value and the negative pressure meter (16) on the second glue barrel (22) meets the set threshold value.

5. The efficient glue supply device for photovoltaic module processing according to claim 1, wherein: the upper surfaces of the first glue barrel (1), the second glue barrel (2), the first glue barrel (21) and the second glue barrel (22) are respectively provided with an exhaust pipe (171), and the lower end of the exhaust pipe (171) communicated with the inside of the glue barrel is provided with an exhaust valve (172).

6. The efficient glue supply device for photovoltaic module processing according to claim 1, wherein: the liquid level sensors (6) are respectively arranged on the side walls of the rubber barrels.