CN214384965U - Layer cabinet-type air conditioner is gathered in wind-powered electricity generation centralized control operation - Google Patents

Abstract

The utility model relates to the technical field of wind power generation centralized control, in particular to a wind power centralized control operation collection layer cabinet machine, which comprises a cabinet, an exhaust fan set arranged at the top of the cabinet and a water storage tank arranged at the bottom of the cabinet; a plurality of air inlets convenient for ventilation are arranged on two sides of the top of the cabinet; the front part of the cabinet is provided with a control panel and an openable cabinet door; a circulating water pump is integrated in the water storage tank; the bottom of the cabinet is provided with a bottom plate, and the bottom plate is provided with a plurality of openings; the bottom plate is provided with an installation platform; a mounting plate is arranged on a back plate of the cabinet, and equipment in the cabinet is fixedly mounted with the mounting plate; the mounting plate is hollow to form an air duct; a plurality of groups of thermoelectric generation pieces are embedded in the inner wall of one side of the air duct facing the equipment; a plurality of groups of heat exchange pieces are arranged in the air duct; the left side and the right side of the back plate are provided with storage battery packs; the utility model dissipates heat through air cooling and exchanges heat through combining water cooling, thereby ensuring the heat exchange efficiency; the influence of water-cooling water leakage on the operation of the equipment is avoided.

Description

Layer cabinet-type air conditioner is gathered in wind-powered electricity generation centralized control operation

Technical Field

The utility model relates to a wind power generation centralized control technical field especially relates to a layer cabinet-type air conditioner is gathered in wind-powered electricity generation centralized control operation.

Background

The centralized monitoring system for the wind power plant refers to a system for monitoring and controlling the running state (parameters) of each wind turbine generator in a wind power plant main control room (or a remote place). The wind power plant centralized monitoring system has a specific structure, a unified and centralized whole is formed through the layered structures, the monitoring of the wind power plant is completed, and the safety and the stability of the power generation equipment are realized. The following structures are mainly layered: the system comprises a top data source layer, a middle layer data acquisition layer and a bottom layer network data layer, wherein the middle data acquisition layer is mainly responsible for realizing data acquisition aiming at the data source in the upper layer structure, and the data are collected and then collected to a centralized control center through an internal interface protocol, and meanwhile, a control instruction of the centralized control center is sent to a specific wind power plant through the interface protocol.

Because the data acquisition layer is data acquisition in the superstructure, and the retransmission after gathering gathers to the centralized control center, consequently the work load of the data acquisition equipment on data acquisition layer is great, and this also leads to data acquisition equipment to produce a large amount of heats at the during operation, if these heats can not in time be discharged, can make equipment be in a high temperature operational environment, and serious meeting leads to equipment paralysis, influences data acquisition.

In order to solve the problems, the application provides a wind power centralized control operation acquisition layer cabinet machine.

SUMMERY OF THE UTILITY MODEL

Objects of the invention

In order to solve the technical problems existing in the background technology, the utility model provides a wind power centralized control operation collection layer cabinet machine, which has the advantages that the heat dissipation is carried out through air cooling, and the heat exchange is carried out in combination with the water cooling, so that the heat exchange efficiency is ensured; the influence of water-cooling water leakage on the operation of the equipment is avoided.

(II) technical scheme

In order to solve the technical problem, the utility model provides a wind power centralized control operation collection layer cabinet machine, which comprises a cabinet, an exhaust fan set arranged at the top of the cabinet and a water storage tank arranged at the bottom of the cabinet;

a plurality of air inlet holes convenient for ventilation are formed in two sides of the top of the cabinet, and a dustproof net covers the air inlet holes; the front part of the cabinet is provided with a control panel and an openable cabinet door;

a water inlet pipe and a water outlet pipe are arranged on one side of the water storage tank facing the cabinet back plate; a circulating water pump is integrated in the water storage tank, and a water cooling pipe is arranged in the water storage tank; the circulating water pump drives cooling water to circularly flow in the water storage tank;

the bottom of the cabinet is provided with a bottom plate, and the bottom plate is provided with a plurality of openings; the opening is communicated with one end of a water-cooled tube of the water storage tank; the bottom plate is provided with an installation platform which is communicated with the other end of the water-cooled tube; the back plate of the cabinet is provided with an installation plate, and equipment in the cabinet is fixedly installed with the installation plate and carries out heat exchange; the mounting plate is hollow to form an air duct; the air duct of the mounting plate is communicated with the output end of the mounting platform through a hose; the other end of the air duct is communicated with an exhaust fan group;

a plurality of groups of thermoelectric generation pieces are embedded in the inner wall of one side of the air duct, which faces the equipment installation, and the thermoelectric generation pieces are distributed in a matrix array; a plurality of groups of heat exchange pieces are arranged in the air duct; storage battery sets are installed on the left side and the right side of the back plate and are electrically connected with the thermoelectric generation pieces.

Preferably, a touch screen and a plurality of groups of control buttons are integrated on the control panel; an electric control lock is integrated on the control panel.

Preferably, a handle is arranged on the cabinet door, and an observation window is integrated on the cabinet door.

Preferably, a temperature sensor and a liquid level sensor are arranged in the water storage tank, and a temperature and humidity sensor for monitoring temperature and humidity is arranged in the cabinet.

Preferably, the storage battery supplies power for the temperature sensor, the liquid level sensor and the temperature and humidity sensor; the temperature sensor, the liquid level sensor and the temperature and humidity sensor are in signal connection with the control panel.

Preferably, the observation window is a toughened glass panel, and the seam of observation window and cabinet door sets up high temperature resistant joint strip.

The above technical scheme of the utility model has following profitable technological effect:

1. outside gas enters the inside of the cabinet through the air inlet, enters the water storage tank through the opening in the bottom plate after circulating in the cabinet, and is discharged out of the cabinet through the mounting table and the air duct after heat exchange.

2. The equipment in the cabinet is fixedly installed with the installation plate, and heat exchange is carried out; the temperature of the air flowing through the air duct is lower after the heat exchange of the cooling water of the water storage tank; temperature difference is formed on the left side and the right side of the temperature difference power generation sheet, so that power generation is carried out; the generated energy is converted to charge the storage battery pack. The multiple groups of heat exchange pieces arranged in the air duct perform sufficient heat exchange with air passing through the air duct, so that the temperature difference at two ends of the temperature difference power generation sheet is increased, and the power generation efficiency is improved.

3. The utility model dissipates heat through air cooling and exchanges heat through combining water cooling, thereby ensuring the heat exchange efficiency; the influence of water-cooling water leakage on the operation of the equipment is avoided.

Drawings

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

fig. 2 is a schematic view of the internal structure of the cabinet of the present invention;

FIG. 3 is a schematic structural view of the middle back plate and the mounting plate of the present invention;

fig. 4 is a schematic view of the internal structure of the middle mounting plate of the present invention.

Reference numerals:

1. a cabinet; 2. an air inlet; 3. an air extractor unit; 4. a cabinet door; 5. an observation window; 6. a touch screen; 7. a handle; 8. a control panel; 9. a back plate; 10. mounting a plate; 101. an air duct; 102. a heat exchange member; 103. a thermoelectric power generation sheet; 11. a battery pack; 12. an installation table; 13. a base plate; 14. a water storage tank.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in detail with reference to the accompanying drawings. It should be understood that the description is intended to be illustrative only and is not intended to limit the scope of the present invention. Moreover, in the following description, descriptions of well-known structures and techniques are omitted so as to not unnecessarily obscure the concepts of the present invention.

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

as shown in fig. 1, the utility model provides a wind power centralized control operation collection layer cabinet machine, which comprises a cabinet 1, an exhaust fan set 3 arranged at the top of the cabinet 1, and a water storage tank 14 arranged at the bottom of the cabinet 1;

in the embodiment, a plurality of air inlets 2 convenient for ventilation are arranged on two sides of the top of the cabinet 1; the front part of the cabinet 1 is provided with a control panel 8 and an openable cabinet door 4; the control panel 8 is integrated with a touch screen 6 and a plurality of groups of control buttons; an electric control lock is integrated on the control panel 8; the cabinet door 4 is provided with a handle 7, and the cabinet door 4 is integrated with an observation window 5.

It should be noted that the air inlet 2 is covered with a dust screen; the dust screen can effectively filter dust, and the dust is prevented from entering the cabinet 1 and attaching to the air duct 101 and the inner wall of the cabinet 1, so that the heat dissipation efficiency is prevented from being affected; an electric control lock on the control panel 8 controls the opening and closing of the cabinet door 4.

In the embodiment, as shown in fig. 1, a water inlet pipe and a water outlet pipe are arranged on one side of the water storage tank 14 facing the back plate 9 of the cabinet 1; a circulating water pump is integrated in the water storage tank 14, and a water cooling pipe is arranged in the water storage tank 14.

It should be noted that the circulating water pump drives the cooling water to flow in the water storage tank 14 in a circulating manner, so as to improve the heat dissipation efficiency.

In the present embodiment, as shown in fig. 2, a bottom plate 13 is disposed at the bottom of the cabinet 1, and a plurality of openings are disposed on the bottom plate 13; the opening is communicated with one end of a water-cooled tube of the water storage tank 14; the bottom plate 13 is provided with an installation platform 12, and the installation platform 12 is communicated with the other end of the water-cooled tube; a mounting plate 10 is arranged on a back plate 9 of the cabinet 1, and equipment in the cabinet 1 is fixedly mounted with the mounting plate 10 and carries out heat exchange; the mounting plate 10 is hollow to form an air duct 101; the air duct 101 of the mounting plate 10 is communicated with the output end of the mounting table 12 through a hose; the other end of the air duct 101 is communicated with the exhaust fan group 3;

it should be noted that, the external air enters the inside of the cabinet 1 through the air inlet 2, enters the water storage tank 14 through the opening on the bottom plate 13 after circulating in the cabinet 1, passes through the mounting table 12 and the air duct 101 after heat exchange, and is discharged outside the cabinet 1 by the exhaust fan set 3.

In the present embodiment, as shown in fig. 3-4, a plurality of groups of thermoelectric generation sheets 103 are embedded in an inner wall of the side of the air duct 101 facing the equipment installation, and the thermoelectric generation sheets 103 are distributed in a matrix array; a plurality of groups of heat exchange pieces 102 are arranged in the air duct 101; the storage battery packs 11 are mounted on the left side and the right side of the back plate 9, and the storage battery packs 11 are electrically connected with the thermoelectric generation sheet 103.

It should be noted that the equipment in the cabinet 1 is fixedly installed with the installation plate 10, and performs heat exchange; after the air flowing through the air duct 101 exchanges heat with the cooling water in the water storage tank 14, the temperature is lower; a temperature difference is formed at the left and right sides of the thermoelectric generation piece 103, thereby generating electricity; the generated energy is converted to charge the battery pack 11. The multiple groups of heat exchange pieces 102 arranged in the air duct 101 perform sufficient heat exchange with air passing through the air duct 101, so that the temperature difference between two ends of the thermoelectric generation piece 103 is increased, and the power generation efficiency is improved.

In this embodiment, a temperature sensor and a liquid level sensor are disposed in the water storage tank 14, and a temperature and humidity sensor for monitoring temperature and humidity is disposed inside the cabinet 1; the storage battery pack 11 supplies power to the temperature sensor, the liquid level sensor and the temperature and humidity sensor; the temperature sensor, the liquid level sensor and the temperature and humidity sensor are in signal connection with the control panel 8.

It should be noted that the temperature sensor detects the temperature of the water in the reservoir 14; the water is fed back to the control panel 8 in real time, the control panel 8 controls the circulating water pump to work to change water, so that the water temperature is kept at a lower temperature level, and heat exchange and cooling are performed; the bottom plate 13 is not in contact with the equipment installed in the cabinet 1; when the water-cooling pipe is damaged due to water leakage, the liquid level height rapidly drops, and the control panel 8 controls the circulating water pump to rapidly drain water; and meanwhile, the water inlet pipe is closed, so that water is prevented from invading into the cabinet 1. In winter with lower air temperature, the control panel 8 controls the water quantity in the water storage tank 14 and keeps lower liquid level height so as to prevent the water storage tank 14 from being damaged due to freezing of cooling water; meanwhile, the control panel 8 controls the air pumping unit 3 to stop, so that the temperature of the cabinet 1 is ensured to rise rapidly, and normal operation of equipment in the cabinet 1 is prevented from being influenced by low temperature.

The utility model discloses a theory of operation and use flow: when the temperature is high, the equipment in the cabinet 1 needs to be blown for heat dissipation when running; external air enters the cabinet 1 through the air inlet 2, and the dust screen on the air inlet 2 can effectively filter dust, so that the dust is prevented from entering the cabinet 1 and attaching to the air duct 101 and the inner wall of the cabinet 1, and the heat dissipation efficiency is prevented from being affected; the air suction fan unit 3 works, and negative pressure is formed in the air duct 101; the air entering the cabinet 1 runs in the cabinet 1 from top to bottom, all equipment in the whole cabinet 1 is blown to dissipate heat, and the heated air enters the opening of the bottom plate 13 and then enters the water cooling pipe of the water storage tank 14 to exchange heat and cool; then enters the air channel 101 and is discharged out of the cabinet 1 through the air suction fan unit 3; the air cooling and heat dissipation are carried out at the same time; the heat generated by the equipment during working exchanges heat with the mounting plate 10; a plurality of groups of thermoelectric generation pieces 103 are embedded in the inner wall of the side, facing the equipment installation, of the air duct 101, and the thermoelectric generation pieces 103 are distributed in a matrix array; after the air flowing through the air duct 101 exchanges heat with the cooling water in the water storage tank 14, the temperature is lower; a temperature difference is formed at the left and right sides of the thermoelectric generation piece 103, thereby generating electricity; the generated energy is converted to charge the battery pack 11. The storage battery pack 11 supplies power to the temperature sensor, the liquid level sensor and the temperature and humidity sensor;

in winter with lower air temperature, the control panel 8 controls the water quantity in the water storage tank 14 to keep a lower liquid level height so as to prevent the water storage tank 14 from being damaged due to freezing of cooling water; meanwhile, the control panel 8 controls the air pumping unit 3 to stop, so that the temperature of the cabinet 1 is ensured to rise rapidly, and normal operation of equipment in the cabinet 1 is prevented from being influenced by low temperature; after the temperature in the cabinet 1 rises, the exhaust fan group 3 works to blow and dissipate heat, so that the temperature in the cabinet 1 is ensured to be at the working temperature suitable for equipment. The utility model dissipates heat through air cooling and exchanges heat through combining water cooling, thereby ensuring the heat exchange efficiency; the influence of water-cooling water leakage on the operation of the equipment is avoided.

It is to be understood that the above-described embodiments of the present invention are merely illustrative of or explaining the principles of the invention and are not to be construed as limiting the invention. Therefore, any modification, equivalent replacement, improvement and the like made without departing from the spirit and scope of the present invention should be included in the protection scope of the present invention. Further, it is intended that the appended claims cover all such variations and modifications as fall within the scope and boundaries of the appended claims or the equivalents of such scope and boundaries.

Claims (6)

1. A wind power centralized control operation collection layer cabinet machine is characterized by comprising a cabinet (1), a draught fan set (3) arranged at the top of the cabinet (1) and a water storage tank (14) arranged at the bottom of the cabinet (1);

a plurality of air inlets (2) convenient for ventilation are arranged on two sides of the top of the cabinet (1), and dust screens cover the air inlets (2); the front part of the cabinet (1) is provided with a control panel (8) and an openable cabinet door (4);

a water inlet pipe and a water outlet pipe are arranged on one side of the water storage tank (14) facing the back plate (9) of the cabinet (1); a circulating water pump is integrated in the water storage tank (14), and a water cooling pipe is arranged in the water storage tank (14); the circulating water pump drives cooling water to circularly flow in the water storage tank (14);

a bottom plate (13) is arranged at the bottom of the cabinet (1), and a plurality of openings are formed in the bottom plate (13); the opening is communicated with one end of a water-cooling pipe of the water storage tank (14); the bottom plate (13) is provided with an installation platform (12), and the installation platform (12) is communicated with the other end of the water-cooled tube; a mounting plate (10) is arranged on a back plate (9) of the cabinet (1), and equipment in the cabinet (1) is fixedly mounted with the mounting plate (10) and performs heat exchange; the mounting plate (10) is hollow to form an air duct (101); the air duct (101) of the mounting plate (10) is communicated with the output end of the mounting table (12) through a hose; the other end of the air duct (101) is communicated with the air suction fan set (3);

a plurality of groups of thermoelectric generation pieces (103) are embedded in the inner wall of one side of the air duct (101) facing the equipment installation, and the thermoelectric generation pieces (103) are distributed in a matrix array; a plurality of groups of heat exchange pieces (102) are arranged in the air duct (101); storage battery packs (11) are mounted on the left side and the right side of the back plate (9), and the storage battery packs (11) are electrically connected with the thermoelectric generation sheets (103).

2. The cabinet machine with wind power centralized control, operation and collection layers as claimed in claim 1, wherein a touch screen (6) and a plurality of groups of control buttons are integrated on the control panel (8); an electric control lock is integrated on the control panel (8).

3. The wind power centralized control operation collection layer cabinet machine according to claim 1, characterized in that a handle (7) is arranged on the cabinet door (4), and an observation window (5) is integrated on the cabinet door (4).

4. The wind power centralized control operation collection layer cabinet machine according to claim 1, wherein a temperature sensor and a liquid level sensor are arranged in the water storage tank (14), and a temperature and humidity sensor for monitoring temperature and humidity is arranged inside the cabinet (1).

5. The wind power centralized control operation collection layer cabinet machine according to claim 1, wherein the storage battery pack (11) supplies power to a temperature sensor, a liquid level sensor and a temperature and humidity sensor; the temperature sensor, the liquid level sensor and the temperature and humidity sensor are in signal connection with the control panel (8).

6. The wind power centralized control operation collection layer cabinet machine according to claim 1, wherein the observation window (5) is a tempered glass panel, and a high temperature resistant sealing rubber strip is arranged at a joint of the observation window (5) and the cabinet door (4).

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