CN220068136U - Remote operation and maintenance terminal for photovoltaic module - Google Patents

Abstract

The utility model discloses a remote operation and maintenance terminal of a photovoltaic module, which relates to the field of operation and maintenance terminals, and comprises an operation and maintenance terminal server box, a plurality of ventilation shelf main bodies, a plurality of terminal servers and two groups of liquid cooling and heat dissipation mechanisms; the operation and maintenance terminal server box comprises a server box outer shell and a server box inner shell; the plurality of ventilated shelf bodies are arranged in the inner shell of the server box at preset intervals; the terminal servers are correspondingly arranged on the ventilation shelf main bodies; the two sets of liquid cooling heat dissipation mechanisms are arranged between the operation and maintenance terminal server box and the plurality of ventilation shelf main bodies in a staggered mode. Through set up a plurality of ventilation shelves between fortune dimension terminal server and server box, cooperation liquid cooling mechanism and forced air cooling mechanism provide two kinds of combination heat dissipation modes for fortune dimension terminal server for improve fortune dimension terminal server's heat dispersion and efficiency, reduce the emergence of the untimely etc. circumstances of heat dissipation, thereby protect photovoltaic module long-range fortune dimension terminal data's normal storage etc..

Description

Remote operation and maintenance terminal for photovoltaic module

Technical Field

The utility model relates to the field of operation and maintenance terminals, in particular to a remote operation and maintenance terminal for a photovoltaic module.

Background

The solar photovoltaic module is a core part of a solar power generation system, converts solar energy into electric energy, transmits the electric energy to a storage battery for storage or pushing a load, and generally has the service life of more than 25 years, but only has operation and maintenance work, the normal operation of the module can be ensured, and the generated energy of a photovoltaic power station is ensured.

At present, a remote operation and maintenance mode of a photovoltaic module is generally to monitor the condition of the photovoltaic module by using front-end sensing equipment, front-end monitoring equipment and the like, monitor data, images and the like are sent to a terminal, and the terminal is responsible for collecting, storing, analyzing and the like related data and images and feeding back the front-end equipment so as to facilitate finding out problems and timely processing.

However, the existing remote operation and maintenance terminal of the photovoltaic module still has some problems, such as: the large amount of data collected and stored by the terminal usually needs to be recorded in the terminal server, but the traditional terminal server is arranged in the cabinet, but the existing server cabinet has poor heat dissipation due to no redundant space, so that the heat dissipation of the server is easily influenced after long-time use, the data storage efficiency of the server is influenced, and the like, and a certain defect exists.

Disclosure of Invention

The utility model aims to: the utility model aims at the defects and provides a remote operation and maintenance terminal of a photovoltaic module so as to solve the problems in the prior art.

The technical scheme is as follows: the photovoltaic module remote operation and maintenance terminal comprises an operation and maintenance terminal server box, a plurality of ventilation shelf main bodies, a plurality of terminal servers and two groups of liquid cooling and heat dissipation mechanisms;

the operation terminal server box comprises a server box outer shell and a server box inner shell arranged in the server box outer shell; a plurality of ventilated shelf bodies mounted in the server box inner case at predetermined intervals; the terminal servers are correspondingly arranged on the ventilation shelf main bodies and are used for storing terminal data; the two groups of liquid cooling heat dissipation mechanisms are arranged between the operation and maintenance terminal server box and the plurality of ventilation shelf main bodies in a staggered mode and are used for carrying out liquid cooling heat dissipation on the terminal server.

In a further embodiment, a plurality of air cooling through grooves are formed in the outer shell of the server box in a penetrating manner, an air cooling heat dissipation mechanism is arranged on the air cooling through grooves, and a plurality of air inlet grooves, air ventilation grooves and air outlet grooves are formed in the inner shell of the server box, the ventilation shelf main body and the outer shell of the server box respectively and are used for carrying out air cooling heat dissipation on a terminal server in cooperation with the air cooling heat dissipation mechanism.

In a further embodiment, a heat dissipation arrangement cavity is formed between the outer casing of the server box and the inner casing of the server box, and the inner casing of the server box and the plurality of ventilation shelf main bodies are respectively and correspondingly provided with a matching pipe groove and a main pipe groove which are communicated with the heat dissipation arrangement cavity in a penetrating manner, so that the heat dissipation arrangement is performed by the liquid cooling heat dissipation mechanism.

In a further embodiment, each group of the liquid cooling heat dissipation mechanisms comprises a plurality of liquid cooling conduits, a plurality of liquid inlet ends, a plurality of liquid outlet ends and a plurality of one-way valves;

the liquid cooling ducts are arranged in an arrangement channel formed between the heat dissipation arrangement cavity and the main pipe grooves in a preset shape, the liquid cooling ducts are attached to the outer wall of the inner shell of the server box and the inner walls of the main pipe grooves, and the two ends of the liquid cooling ducts penetrate through the outer shell of the server box and are respectively connected with a liquid inlet end and a liquid outlet end; the check valves are correspondingly arranged on the liquid inlet ends and the liquid outlet ends and are used for controlling liquid inlet and liquid outlet of the liquid inlet ends and the liquid outlet ends.

In a further embodiment, a plurality of upper mounting holes and a plurality of lower mounting holes are respectively formed in the preset positions of the server box shell, and the plurality of upper mounting holes are located on the upper sides of the lower mounting holes and are used for respectively mounting a plurality of liquid inlet ends and a plurality of liquid outlet ends.

In a further embodiment, a box door is cooperatively arranged at one side of the operation and maintenance terminal server box, a sealing ring is arranged at the joint of the operation and maintenance terminal server box and the box door, and a transparent observation plate is embedded on the box door.

The beneficial effects are that: the utility model discloses a remote operation and maintenance terminal of a photovoltaic module, which is characterized in that a plurality of ventilation shelves are arranged between an operation and maintenance terminal server and a server box, and a liquid cooling heat dissipation mechanism and an air cooling heat dissipation mechanism are matched to provide two combined heat dissipation modes for the operation and maintenance terminal server, so that the heat dissipation performance and efficiency of the operation and maintenance terminal server are improved, the occurrence of untimely heat dissipation and other conditions is reduced, and the normal storage of remote operation and maintenance terminal data of the photovoltaic module is protected.

Drawings

Fig. 1 is a schematic diagram of the overall structure of the present utility model.

Fig. 2 is a schematic diagram of a cross-sectional structure of an operation and maintenance terminal server box according to the present utility model.

Fig. 3 is a schematic diagram of a combination structure of a ventilation rack main body and a liquid cooling heat dissipation mechanism according to the present utility model.

Fig. 4 is a schematic structural diagram of a single liquid-cooled heat dissipation mechanism according to the present utility model.

The reference numerals in the drawings are as follows: 1. the operation and maintenance terminal server box, 101, server box outer shell, 102, server box inner shell, 103, heat dissipation arrangement cavity, 104, air cooling through groove, 105, air inlet groove, 106, upper mounting hole, 107, matched pipe groove, 108, lower mounting hole, 109, air outlet groove, 2, box door, 3, air cooling heat dissipation mechanism, 4, ventilation shelf main body, 401, main pipe groove, 402, ventilation groove, 5, liquid cooling heat dissipation mechanism, 501, liquid cooling guide pipe, 502, liquid inlet end, 503, liquid outlet end and 504, one-way valve.

Detailed Description

In the following description, numerous specific details are set forth in order to provide a more thorough understanding of the present utility model. It will be apparent, however, to one skilled in the art that the utility model may be practiced without one or more of these details. In other instances, well-known features have not been described in detail in order to avoid obscuring the utility model.

The applicant believes that a large amount of data collected and stored by the existing photovoltaic module remote operation and maintenance terminal is usually required to be recorded in a terminal server, but most of the traditional terminal servers are arranged in a cabinet, but the existing server cabinet has poor heat dissipation due to no redundant space, so that after long-time use, the heat dissipation of the server is easily influenced, the data storage efficiency of the server is influenced, and the like, and a certain defect exists.

To this end, the applicant proposes a photovoltaic module remote operation and maintenance terminal, as shown in fig. 1 to 4, comprising an operation and maintenance terminal server box 1, a plurality of ventilated shelf bodies 4, a plurality of terminal servers and two sets of liquid-cooled heat dissipation mechanisms 5.

The operation and maintenance terminal server box 1 comprises a server box outer shell 101 and a server box inner shell 102 arranged in the server box outer shell 101, wherein a plurality of ventilation shelf main bodies 4 are arranged in the server box inner shell 102 at preset intervals, a plurality of terminal servers are correspondingly arranged on the ventilation shelf main bodies 4 and used for storing terminal data, and two groups of liquid cooling heat dissipation mechanisms 5 are arranged between the operation and maintenance terminal server box 1 and the ventilation shelf main bodies 4 in a staggered mode and used for carrying out liquid cooling heat dissipation on the terminal servers.

In the utility model, the terminal server plays roles of storing and recording data of the operation and maintenance terminal, and is very important equipment in the remote operation and maintenance terminal, of course, the remote operation and maintenance terminal of the photovoltaic component not only comprises the data storage equipment, but also comprises data analysis equipment, data feedback equipment, a data analysis system, a data feedback system and the like, and the remote operation and maintenance terminal consists of a plurality of hardware and software.

Aiming at the condition that the traditional operation and maintenance terminal server has single heat radiation mode and low heat radiation efficiency, the utility model provides an air cooling and liquid cooling combined heat radiation mode for radiating the operation and maintenance terminal server, and the air cooling and liquid cooling are mutually staggered by arranging the components such as the ventilation shelf main body 4 and the like, so that the heat radiation efficiency of the operation and maintenance terminal server can be greatly improved, and the long-term normal storage of operation and maintenance terminal data is protected.

As shown in fig. 1-2, a plurality of air cooling through slots 104 are formed in the server box outer shell 101 in a penetrating manner, an air cooling heat dissipation mechanism 3 is mounted on the air cooling through slots 104, a plurality of air inlet slots 105, air ventilation slots 402 and air outlet slots 109 are respectively formed in the server box inner shell 102, the ventilation shelf main body 4 and the server box outer shell 101 and are used for carrying out air cooling heat dissipation on a terminal server in cooperation with the air cooling heat dissipation mechanism 3, a heat dissipation arrangement cavity 103 is formed between the server box outer shell 101 and the server box inner shell 102, and a matching pipe slot 107 and a main pipe slot 401 which are correspondingly formed in the server box inner shell 102 and the plurality of ventilation shelf main bodies 4 in a penetrating manner and are communicated with the heat dissipation arrangement cavity 103 are used for carrying out heat dissipation arrangement of the liquid cooling heat dissipation mechanism 5.

According to the utility model, the air cooling and radiating mechanism 3 can select a fan, an air cooling radiator and other devices, through the arrangement of the air cooling through groove 104, the air inlet groove 105, the ventilation groove 402 and the air outlet groove 109, the top-down air cooling and radiating of the terminal servers on the ventilation shelf main body 4 in the server box outer shell 101 can be realized, meanwhile, the radiating arrangement cavity 103, the matching pipe groove 107 and the main pipe groove 401 which are matched, the two groups of liquid cooling and radiating mechanisms 5 can be alternately inserted between the server box outer shell 101 and the server box inner shell 102 and between the ventilation shelf main body 4, the top-down liquid cooling and radiating of the terminal servers on the ventilation shelf main body 4 in the server box outer shell 101 can be realized, and a large amount of heat generated by the terminal servers in the server box outer shell 101 can be taken away by matching with the air cooling and radiating, so that the radiating efficiency of the operation and maintenance terminal servers is greatly improved, and the long-term normal storage of operation and maintenance terminal data is protected.

In addition, the heat dissipation arrangement cavity 103, the matching pipe groove 107, the main pipe groove 401 are communicated with the air cooling through groove 104, the air inlet groove 105, the ventilation groove 402, the air outlet groove 109 and the like, so that air cooling and liquid cooling are mutually staggered and contacted, and the heat dissipation efficiency is further improved.

As shown in fig. 3-4, each group of liquid cooling mechanism 5 includes a plurality of liquid cooling pipes 501, a plurality of liquid inlet ends 502, a plurality of liquid outlet ends 503 and a plurality of check valves 504.

Wherein, several liquid cooling pipe 501 is the predetermined shape and sets up in the passageway of arranging that forms between cavity 103 and a plurality of main pipe groove 401 is arranged in the heat dissipation, and several liquid cooling pipe 501 all is laminated with server case inner shell 102 outer wall and a plurality of main pipe groove 401 inner wall, and several liquid cooling pipe 501 both ends all run through server case shell 101 setting and are connected with feed liquor end 502 and play liquid end 503 respectively, and several check valve 504 corresponds to be installed on several feed liquor end 502 and play liquid end 503 for control feed liquor end 502 and play liquid end 503's feed liquor and play liquid.

Meanwhile, a plurality of upper mounting holes 106 and a plurality of lower mounting holes 108 are respectively formed at predetermined positions on the server box casing 101, and the plurality of upper mounting holes 106 are respectively located at upper sides of the lower mounting holes 108 and are used for respectively mounting a plurality of liquid inlet ends 502 and a plurality of liquid outlet ends 503.

In the utility model, the liquid inlet end 502 and the liquid outlet end 503 are both provided with threaded interfaces for connecting corresponding liquid supply equipment, liquid collecting equipment and the like, when in actual use, a liquid inlet and liquid delivery pipeline can be arranged at the top of the operation and maintenance terminal server room, the liquid inlet end 502 is connected with the liquid inlet and liquid delivery pipeline at the top of the machine room, the liquid inlet and delivery of water or professional cooling liquid is carried out, the one-way valve 504 on the liquid inlet end 502 is opened when in operation, the liquid outlet and liquid delivery pipeline can be correspondingly arranged on the ground or underground of the operation and maintenance terminal server room, the liquid outlet end 503 is connected with the liquid outlet and liquid delivery pipeline on the ground or underground of the machine room, the used water or professional cooling liquid can be used in a heating mode or a cooling mode due to higher temperature, and then the liquid inlet and the like is led into the liquid delivery pipeline for use, and the one-way valve 504 on the liquid outlet end 503 is opened when in operation.

In addition, operation and maintenance terminal server case 1 one side cooperation is provided with chamber door 2, and the sealing washer is installed to operation and maintenance terminal server case 1 and the junction of chamber door 2, inlays on the chamber door 2 and is equipped with transparent observation board.

As above, although the present utility model has been shown and described with reference to certain preferred embodiments, it is not to be construed as limiting the utility model itself. Various changes in form and details may be made therein without departing from the spirit and scope of the utility model as defined by the appended claims.

Claims (6)

1. Photovoltaic module long-range fortune dimension terminal, its characterized in that includes:

an operation and maintenance terminal server box comprising a server box outer shell and a server box inner shell arranged in the server box outer shell;

a plurality of ventilated shelf bodies installed in the server box inner case at predetermined intervals;

the terminal servers are correspondingly arranged on the ventilation shelf main bodies and are used for storing terminal data;

the two groups of liquid cooling heat dissipation mechanisms are arranged between the operation and maintenance terminal server box and the plurality of ventilation shelf main bodies in a staggered mode and used for carrying out liquid cooling heat dissipation on the terminal server.

2. The photovoltaic module remote operation terminal of claim 1, wherein: the server box comprises a server box shell, a plurality of air cooling through grooves, an air cooling heat dissipation mechanism, a plurality of air inlet grooves, a plurality of air ventilation grooves and a plurality of air outlet grooves, wherein the server box shell is penetrated and provided with the plurality of air cooling through grooves, the plurality of air cooling heat dissipation mechanisms are arranged on the air cooling through grooves, and the plurality of air inlet grooves, the plurality of air ventilation grooves and the plurality of air outlet grooves are respectively arranged on the server box inner shell, the plurality of air ventilation grooves and the plurality of server box outer shell and are used for carrying out air cooling heat dissipation on a terminal server in cooperation with the air cooling heat dissipation mechanism.

3. The photovoltaic module remote operation terminal of claim 1, wherein: the server box comprises a server box body and a plurality of ventilation shelf bodies, wherein a cooling arrangement cavity is formed between the server box body and the server box body, and a matching pipe groove and a main pipe groove which are correspondingly and respectively penetrated and communicated with the cooling arrangement cavity are formed in the server box body and the plurality of ventilation shelf bodies and are used for cooling arrangement of the liquid cooling heat dissipation mechanism.

4. A photovoltaic module remote operation terminal according to claim 3, characterized in that: each group of liquid cooling heat dissipation mechanisms comprises:

the liquid cooling guide pipes are arranged in an arrangement channel formed between the heat dissipation arrangement cavity and the main pipe grooves in a preset shape, the liquid cooling guide pipes are attached to the outer wall of the inner shell of the server box and the inner walls of the main pipe grooves, and the two ends of the liquid cooling guide pipes penetrate through the outer shell of the server box and are respectively connected with a liquid inlet end and a liquid outlet end;

and the check valves are correspondingly arranged on the liquid inlet ends and the liquid outlet ends and are used for controlling liquid inlet and liquid outlet of the liquid inlet ends and the liquid outlet ends.

5. The photovoltaic module remote operation terminal of claim 4, wherein: the server box comprises a server box shell, a plurality of upper mounting holes and a plurality of lower mounting holes are respectively formed in preset positions on the server box shell, and the upper mounting holes are respectively located on the upper sides of the lower mounting holes and are used for respectively mounting a plurality of liquid inlet ends and a plurality of liquid outlet ends.

6. The photovoltaic module remote operation terminal of claim 1, wherein: the operation and maintenance terminal server box is characterized in that a box door is arranged on one side of the operation and maintenance terminal server box in a matched mode, a sealing ring is arranged at the joint of the operation and maintenance terminal server box and the box door, and a transparent observation plate is embedded on the box door.