RU181307U1 - Explosion-proof solar module - Google Patents

Abstract

Utility model explosion-proof solar module refers to autonomous renewable energy sources for operation in explosive atmospheres. Explosion-proof solar modules are intended, for example, for autonomous telemetry and telemechanics complexes at linear and site facilities of the oil and gas and chemical industries, including in hazardous areas of classes 1 and 2 according to GOST 60079-10-1-2011. Explosion protection level Gb. Explosion-proof solar module containing an explosion-proof junction box attached to the rear wall of the solar panel, in which cables are connected from the solar panel to consumers, characterized in that it is equipped with an explosion-proof terminal box containing an explosion-proof junction box, both boxes are attached side by side and connected by explosion-proof cable glands, the cable connection from the solar panel is carried out in a junction box with cable connected through an explosion-proof cable passage to the connection block, to which consumers are connected on the other hand through an explosion-proof cable entry, while in the connection box there is a one-piece cable connection (joint), which is filled with a compound, the connection to the connection block in the terminal box is detachable . The proposed explosion-proof solar module provides advantages in universality of application for different consumers for work in explosive atmospheres with the required level of explosion protection. 2 s.p. f-ly, 5 ill.

Description

Explosion-proof solar module refers to autonomous renewable energy sources for operation in explosive atmospheres.

Explosion-proof solar modules are designed for use in places dangerous for explosive gas environments, in places where the atmosphere may contain impurities of other combustible gases in hazardous areas, for example, for autonomous telemetry and telemechanics complexes at linear and site facilities of the oil and gas and chemical industries, including in hazardous areas of class 1 and 2 according to GOST 60079-10-1-2011. Explosion protection level Gb.

A wide variety of patents is known relating to autonomous power supplies operating under ordinary conditions, namely, solar modules, their components, including junction boxes through which energy is transferred from the solar panel to consumers. However, there is very little information on explosion-proof solar modules that can operate in explosive atmospheres.

Known Chinese patent CN 103681917 "Anti-explosive solar cell" (publication date 03/26/2014, IPC H01L31 / 048, H01L31 / 049, application 2013106893436.9 of 12.16.2013) for a similar device, the description of which also confirmed the lack of information about explosion-proof solar modules .

 According to the Chinese patent, the solar module is used as an autonomous power source for monitoring the safety of railway tankers that transport flammable, explosive, corrosive, toxic and other dangerous products. In this patent, technical solutions are aimed at obtaining a device designed for a specific task with specific power characteristics, namely, for railway tanks.

 "Anti-explosive solar cell" according to patent CN 103681917 (publication date 03/26/2014, IPC H01L31 / 048, H01L31 / 049, application 2013106893436.9 dated 12.16.2013) are taken as a prototype.

The solar panel is made in anti-vandal explosion-proof design. An explosion-proof junction box is mounted on the rear wall of the solar panel, in which consumers are connected to the cable from the solar panel through an explosion-proof cable entry, including an explosion-proof connector, a connection sleeve and a seal.

"Anti-Explosive Solar Cell" has limitations when used in explosive atmospheres due to deficiencies.

The cable connection in the junction box of the solar panel for power consumers is made one-piece. Damage to the cable results in repairs to the entire solar panel.

The Anti-Explosive Solar Cell device is designed for a predetermined consumer with a predetermined power and remote at a fixed distance.

The objectives of this utility model is to create a solar module that works as a stand-alone power source from renewable energy sources, made in an explosion-proof version for operation in explosive atmospheres with universal application for various power consumers with an explosion protection level of Gb.

The proposed device "Solar module in explosion-proof execution" allows to achieve a technical result, consisting in the fact that it is possible explosion-proof connection of consumers with a range of required power from 40 to 200 watts of direct current at the level of explosion protection Gb for operation in explosive atmospheres.

To solve this problem and achieve a technical result, an explosion-proof solar module is proposed, containing an explosion-proof junction box attached to the rear wall of the solar panel, in which cables from the solar panel are connected

characterized in that

equipped with an explosion-proof terminal box containing an explosion-proof connection block,

the terminal box is attached, for example, with glue to the rear wall of the solar panel next to the junction box,

junction and terminal boxes are connected by connecting cable via explosion-proof cable passage,

the explosion-proof cable from the solar panel in the junction box is connected to the jumper cable by a permanent connection, for example, by soldering,

after that, the connection box is filled with a compound,

then the jumper cable from the junction box is connected to the junction box of the terminal box on one side through an explosion-proof cable passage,

on the other hand, consumers are connected to the terminal block terminal block by a detachable connection via an explosion-proof cable entry.

The proposed explosion-proof solar module differs from the prototype in that it is equipped with an explosion-proof terminal box that is connected on one side to a junction box, and consumers are connected to it through a junction box on the other side.

The junction and terminal boxes are attached to the rear wall of the solar module, for example, with glue.

The connection and terminal boxes are connected by a connection cable through an explosion-proof cable passage.

The junction box is designed to connect the cable from the solar panel to the jumper cable, and the junction box to connect external consumers through the junction box. This gives a universal opportunity to connect consumers with the required different power.

The cable from the solar panel in the junction box is connected to the jumper cable, which is then connected via an explosion-proof cable junction to the junction box of the junction box.

In the junction box, a one-piece connection (joint) is performed, for example, by soldering, which eliminates its corrosion and temperature influence.

 The junction box is poured with a compound that provides heat dissipation, isolation of contacts and wires from external influences (water, dust, fire, shock).

In the terminal box, the connection cable is connected to the connection block on one side, to which consumers are connected on the other side via an explosion-proof cable entry. Due to the presence of a terminal box with a connection block, consumers of various capacities from 40 to 200 W can be connected.

The proposed explosion-proof solar module provides advantages in universality of application for different consumers for work in explosive atmospheres with the required level of explosion protection.

For the explanation of the described utility model drawings are given:

FIG. 1 is a general view of an explosion-proof solar module.

FIG. 2 is a general side view of the mounting of the junction and terminal boxes on the solar module;

FIG. 3 is a sectional side view of the connection and terminal boxes;

Figure 4 is a top view of the junction and terminal boxes in the context (copa not shown);

FIG. 5 - general view photograph

Explosion-proof solar module contains a connecting 1 and terminal 2 boxes, which are attached to the rear wall of the solar panel 3, for example, with glue. The junction and terminal box are explosion-proof.

The connecting and terminal boxes are connected by a connecting cable 8 through an explosion-proof cable passage 4.

Junction box 1 is used to connect the cable from the solar panel to jumper cable 8, and junction box to connect via junction block 5 on one side of jumper cable 8, on the other hand to external consumers through explosion-proof input 6. This gives universal possibility to connect consumers with the required different power .

The solar panel 3 is a photovoltaic generator consisting of a glass plate, on the back of which between two layers of a sealing (laminating) film solar cells are placed that are electrically connected to each other by metal buses. The back side of the panel is closed with a plate of heat-resistant, antistatic plastic.

The cable 7 from the solar panel 3 in the connecting box 1 is connected to the connecting cable 8 through a permanent connection (joint) 8, for example, by soldering, which eliminates its corrosion and temperature influence. The connecting 1 box is poured with compound 9, which provides heat dissipation, isolation of contacts and wires from external influences (water, dust, fire, shock).

The connecting cable 8 through the explosion-proof cable passage 4 is connected in the terminal 2 box on the one hand to the connecting block 5, to which on the other hand consumers are connected through the explosion-proof cable entry 6.

 Due to the presence of a terminal box with a connection block, consumers of various capacities from 40 to 200 W can be connected.

Using junction and terminal boxes allows installing them on solar panels of different sizes with a power range of 40, 75, 100, 150, 200.

The proposed solar module in explosion-proof execution works as follows.

On the back wall of the solar panel 3 is attached, for example, with glue connecting 1 and terminal 2 boxes made in explosion-proof execution.

Junction and terminal boxes are connected using an explosion-proof cable passage 4.

The cable 7 from the solar panel 3 in the connecting box 1 is connected to the connecting cable 8, making a permanent connection (joint) 8, for example, by soldering. Then the connecting 1 box is poured with compound 9.

The connection cable 8 from the connection box through the explosion-proof cable passage 4 is connected in the terminal 2 box on the one hand to the connection block 5, to which, on the other hand, consumers are connected through the explosion-proof cable entry 6.

Explosion-proof solar module has passed all the tests that are necessary for operation in explosive atmospheres. Production according to TU 27.90.11-001-32774720-2017. The finished product is shown in FIG. 5. Based on the test results, relevant certificates of conformity were issued confirming compliance with the requirements of the Technical Regulations of the Customs Union TR TS 012/2011 "On the safety of equipment for work in explosive atmospheres."

Thus, the explosion-proof solar module allows to obtain advantages in universality of application for various consumers working in explosive atmospheres, with the required different power with a range of 40, 75, 100, 150, 200 W at an explosion protection level of Gb.

Claims (3)

1. The explosion-proof solar module, comprising an explosion-proof junction box attached to the rear wall of the solar panel, in which cables are connected from the solar panel to consumers, characterized in that it is equipped with an explosion-proof terminal box containing an explosion-proof junction box, both boxes are attached side by side and connected explosion-proof cable glands, connecting the cable from the solar panel is performed in a junction box with a jumper cable, under Luciano via flameproof cable transition to a terminal block to which the other side is connected consumers through flameproof cable entry, with a connection box configured permanent connection (joint) cable, which is filled with compound, the connection to the terminal block in the terminal box detachably configured. 2. The explosion-proof solar module according to claim 1, characterized in that the junction and terminal boxes are mounted on the rear wall of the solar panel, for example, with glue. 3. The explosion-proof solar module according to claim 1, characterized in that the integral connection of the cables in the junction box is made, for example, by soldering.

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