CN212277213U - Solar cell module laminating machine convenient to transport - Google Patents

Abstract

The utility model discloses a solar battery component laminating machine convenient for conveying, relating to the technical field of solar battery component processing equipment, comprising a lower cavity with a downward opening and an upper cavity with an upward opening, wherein the upper cavity and the lower cavity are jointed to form a sealed cavity; the opening of the upper chamber is sealed by a rubber plate, and the upper chamber is lifted by a lifting mechanism; a plurality of heating pipes are laid in the upper cavity and the lower cavity, the heating pipes are supplied with heat by a heat-conducting oil circulation box, the inner cavities of the upper cavity and the lower cavity are respectively connected with a vacuum device, a conveying device is arranged in the lower cavity and is positioned above the heating pipes of the lower cavity, and the top surface of the conveying device is parallel to the top surface of the lower cavity; the conveying device consists of a pair of parallel rollers, a conveying belt connected with the rollers and a rotating motor driving the rollers to rotate. The laminating machine is scientific in structural design, convenient to use and capable of achieving synchronous conveying while meeting the sealing performance during laminating.

Description

Solar cell module laminating machine convenient to transport

Technical Field

The utility model relates to a solar module processing equipment technical field, in particular to solar module laminator convenient to carry.

Background

A solar cell module laminator is a machine or equipment for vacuum hot press molding of interconnected solar cells and packaging materials. The toughened glass, the adhesive film, the solar battery pack and the back plate are laminated in a certain sequence, enter a laminating machine cavity, and form a whole solar battery assembly through the processes of vacuumizing, heating, pressurizing, curing, cooling and the like, so that the laminating operation is completed. The laminator is one of the key devices for component packaging.

Along with the rapid development of the production technology of domestic solar cell modules, the scale is continuously enlarged, and more new products, such as double-glass modules and thin-film modules, appear. The requirement of the large-scale production of products on laminating machine equipment is higher and higher, and the laminating machine is required to have high reliability and higher production efficiency and automation level.

In the prior art, synchronous conveying is difficult to realize while the sealing performance during lamination is met, namely, the product cannot be conveyed backwards quickly, so that the production efficiency and the automation level of the solar cell module are obviously influenced.

Disclosure of Invention

An object of the utility model is to overcome the not enough of above-mentioned technique, provide a solar module laminator convenient to carry, when satisfying the lamination leakproofness, can realize synchronous transport.

In order to realize the purpose of the utility model, the utility model adopts the technical scheme that: a solar cell module laminating machine convenient for conveying comprises a lower cavity with a downward opening and an upper cavity with an upward opening, wherein the upper cavity and the lower cavity are jointed to form a sealed cavity; the opening of the upper chamber is sealed by a rubber plate, and the upper chamber is lifted by a lifting mechanism; the vacuum heat pump is characterized in that a conveying device is arranged in the lower cavity, the conveying device is positioned above the heating pipes of the lower cavity, and the top surface of the conveying device is parallel to the top surface of the lower cavity; the conveying device is composed of a pair of parallel rolling shafts, a conveying belt connected with the pair of rolling shafts and a rotating motor driving the rolling shafts to rotate.

Furthermore, the conveyer belt is the silica gel conveyer belt, can conduct heat well, guarantees that offset plate and just to the conveyer belt temperature of offset plate are unanimous.

Furthermore, a feeding conveyer belt and a discharging conveyer belt are respectively arranged on two sides of the lower chamber, the top surfaces of the feeding conveyer belt and the discharging conveyer belt are parallel to the top surface of the lower chamber, and the conveying directions of the feeding conveyer belt and the discharging conveyer belt are consistent with the conveying device.

Furthermore, the heating pipes of the upper cavity and the lower cavity are respectively embedded on the top surface in the upper cavity and the bottom surface in the lower cavity.

Furthermore, temperature monitors are respectively arranged at the positions, close to the rubber plate, in the upper chamber and at the positions, close to the top surface of the conveyor belt, in the lower chamber, and are used for monitoring the temperatures of the upper surface and the lower surface of the solar module in real time during lamination.

Furthermore, valves are respectively arranged on connecting pipelines of the heating pipes of the upper cavity and the lower cavity and the heat conduction oil circulation box, and the heating temperatures of the upper cavity and the lower cavity are respectively controlled by respectively adjusting the circulation of the heat conduction oil in the two pipelines.

The utility model has the advantages that: the lower chamber of the laminating machine is internally provided with the conveying device, so that the sealing performance during laminating can be met, and meanwhile, synchronous conveying can be realized; in addition, when the subassembly was arranged in the conveyer top surface, upper and lower cavity laminating heat supply respectively, heats the subassembly for the glued membrane in the subassembly is heated and is melted, and through the evacuation, the bubble that produces the lamination is taken away, and this laminator structural design science facilitates the use, and the finished product qualification rate improves more than 10% than ordinary laminator.

Drawings

Fig. 1 is a front view of the present invention.

Fig. 2 is a side view of the present invention.

In the figure: the device comprises a lower chamber 1, an upper chamber 2, a rubber plate 3, a lifting mechanism 4, a heating pipe 5, a heat-conducting oil circulation box 6, a vacuum device 7, a conveying device 8, a rolling shaft 81, a conveying belt 82, a rotating motor 83, a feeding conveying belt 9, a discharging conveying belt 10, a temperature monitor 11 and a valve 12.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings.

Example 1

As shown in fig. 1-2, a solar cell module laminating machine convenient for transportation comprises a lower chamber 1 opened downwards and an upper chamber 2 opened upwards, wherein the upper and lower chambers 1 are fitted to form a sealed cavity; the opening of the upper chamber 2 is sealed by a rubber plate 3, and the upper chamber 2 is lifted by a lifting mechanism 4; a plurality of heating pipes 5 are respectively paved in the upper cavity 2 and the lower cavity 1, the heating pipes 5 are supplied with heat by a heat conduction oil circulation box 6, inner cavities of the upper cavity 2 and the lower cavity 1 are respectively connected with a vacuum device 7, a conveying device 8 is arranged in the lower cavity 1, the conveying device 8 is positioned above the heating pipes 5 of the lower cavity 1, and the top surface of the conveying device 8 is parallel to the top surface of the lower cavity 1; the conveying device 8 is composed of a pair of mutually parallel rollers 81, a conveyor belt 82 connecting the pair of rollers 81, and a rotating motor 83 driving the rollers 81 to rotate; the conveyor belt 82 is a silica gel conveyor belt 82, so that heat can be well conducted, and the temperature of the rubber plate 3 is ensured to be consistent with that of the conveyor belt 82 facing the rubber plate 3; a feeding conveyer belt 9 and a discharging conveyer belt 10 are respectively arranged on two sides of the lower cavity 1, the top surfaces of the feeding conveyer belt 9 and the discharging conveyer belt 10 are parallel to the top surface of the lower cavity 1, and the conveying directions of the feeding conveyer belt 9 and the discharging conveyer belt 10 are consistent with that of the conveying device 8; the heating pipes 5 of the upper chamber 1 and the lower chamber 1 are respectively embedded on the inner top surface of the upper chamber 2 and the inner bottom surface of the lower chamber 1; the temperature monitors 11 are respectively arranged at the positions, close to the rubber plate 3, in the upper chamber 2 and the positions, close to the top surface of the conveyor belt 82, in the lower chamber 1 and are used for monitoring the temperatures of the upper surface and the lower surface in real time during the lamination of the solar module; valves 12 are respectively arranged on connecting pipelines of the heating pipe 5 and the heat conduction oil circulation box 6 of the upper and lower chambers 1, and the heating temperature of the upper and lower chambers 1 is respectively controlled by respectively adjusting the circulation amount of the heat conduction oil in the two pipelines.

The described embodiments are only some, but not all embodiments of the invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Claims (6)

1. A solar cell module laminating machine convenient for conveying comprises a lower cavity with a downward opening and an upper cavity with an upward opening, wherein the upper cavity and the lower cavity are jointed to form a sealed cavity; the opening of the upper chamber is sealed by a rubber plate, and the upper chamber is lifted by a lifting mechanism; the vacuum heat pump is characterized in that a conveying device is arranged in the lower cavity, the conveying device is positioned above the heating pipes of the lower cavity, and the top surface of the conveying device is parallel to the top surface of the lower cavity; the conveying device is composed of a pair of parallel rolling shafts, a conveying belt connected with the pair of rolling shafts and a rotating motor driving the rolling shafts to rotate.

2. The solar cell module laminator for facilitating transport of claim 1, wherein said conveyor belt is a silicone conveyor belt.

3. The solar cell module laminating machine convenient to convey of claim 1, wherein a feeding conveyer belt and a discharging conveyer belt are respectively arranged on two sides of the lower chamber, the top surfaces of the feeding conveyer belt and the discharging conveyer belt are parallel to the top surface of the lower chamber, and the conveying directions of the feeding conveyer belt and the discharging conveyer belt are consistent with that of the conveying device.

4. The solar cell module laminating machine facilitating transportation of claim 1, wherein the heating pipes of the upper and lower chambers are embedded in the upper surface of the upper chamber and the lower surface of the lower chamber, respectively.

5. The solar cell module laminating machine facilitating transportation of claim 1, wherein temperature monitors are respectively installed in the upper chamber near the rubber plate and the lower chamber near the top surface of the conveyor belt.

6. The conveniently-conveyed solar cell module laminating machine as claimed in claim 1, wherein valves are respectively installed on connecting pipelines of the heating pipes of the upper and lower chambers and the heat-conducting oil circulation box.

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