CN211854380U - Industrial air conditioner control module - Google Patents

Abstract

The utility model discloses an industrial air conditioner control module, which relates to the field of air conditioners and comprises an air conditioner control panel and a mounting box for placing the air conditioner control panel, wherein the air conditioner control panel is provided with a control chip, an electronic element and a storage battery, the air conditioner control panel is provided with a heat dissipation module for dissipating heat generated by the electronic element, and also comprises a defrosting module for automatic defrosting, the defrosting module is arranged outdoors, the heat dissipation module and the defrosting module are respectively connected with the air conditioner control panel, the utility model has the advantages of fast heat dissipation, accurate judgment of frosting condition and automatic defrosting, the storage battery is used for providing power for the heat dissipation module, the heat dissipation module is used for dissipating heat generated by the electronic element, the utility model can more accurately judge whether the outdoor heat exchanger is frosted by detecting and judging temperature and air pressure difference, the false defrosting phenomenon of the air conditioner is reduced, the actual heating operation perimeter of the air conditioner is increased, and the heating effect of the air conditioner is improved.

Description

Industrial air conditioner control module

Technical Field

The utility model relates to an air conditioner field, in particular to industry air conditioner control module.

Background

The air conditioner control panel is mainly used on an air conditioner and is used as a control system of the air conditioner to carry out mode control such as refrigeration, heating ventilation, defrosting and the like on a room, along with the increasing development of science and technology, the performance requirements of people on the air conditioner are higher and higher, the existing air conditioner control panel is not ideal enough in the aspect of heat dissipation, so that the heat on electronic elements of the control panel cannot be processed in time, and the electronic elements are easily burnt;

when the air conditioner operates in a heating mode, if the outdoor environment is low in temperature and high in humidity and generally operates for a period of time, the heat exchanger of the outdoor unit frosts, the frost is thicker and thicker, the outdoor heat exchanger is finally completely blocked, and the heating effect is reduced, so that defrosting is needed.

SUMMERY OF THE UTILITY MODEL

The utility model provides a technical problem provide an industrial air conditioner that heat dissipation is fast, accurate defrosting.

The utility model provides a technical scheme that its technical problem adopted is: the utility model provides an industry air conditioner control module, includes air conditioner control panel and the mounting box that is used for placing air conditioner control panel, be provided with control chip, electronic component and storage battery on the air conditioner control panel, be provided with on the air conditioner control panel and be used for giving off the radiating module that electronic component produced heat, still including the defrosting module that is used for automatic defrosting, defrosting module sets up outdoors, radiating module and defrosting module are connected with the air conditioner control panel respectively, the air conditioner control panel is used for controlling the air conditioner, the mounting box is used for placing the air conditioner control panel, storage battery is used for providing power for radiating module, radiating module is used for giving off the heat that electronic component produced, defrosting module is used for automatic defrosting, improves the efficiency of heating of air conditioner.

Further, the method comprises the following steps: the heat dissipation module comprises a heat conduction plate arranged above an air conditioner control plate, a heat dissipation assembly piece and a turbofan are arranged on the heat conduction plate, the turbofan is arranged on one side of the heat dissipation assembly piece and is connected with a storage battery pack, the heat conduction plate is used for transferring heat generated by an electronic element to the heat dissipation assembly piece, the heat dissipation assembly piece is used for dissipating heat, and the turbofan is used for accelerating the heat dissipation speed.

Further, the method comprises the following steps: the mounting box includes bottom plate, two long boards and two short boards, be provided with a plurality of air intake on one of them long board, the position of air intake corresponds with turbofan's position, be provided with a plurality of air outlet on another long board, the position of air outlet is corresponding with the position of cooling group piece, thereby air intake and air outlet make the inside and outside circulation of air of mounting box accelerate radiating speed.

Further, the method comprises the following steps: the control chip, the electronic element and the storage battery pack are symmetrically provided with heat conducting rods, the top ends of the heat conducting rods are connected with the heat conducting plate, and the heat conducting rods are used for conducting heat on the control chip, the electronic element and the storage battery pack out of the heat conducting plate, so that the heat radiating speed is accelerated.

Further, the method comprises the following steps: the defrosting module comprises an outdoor heat exchanger, a temperature sensor for detecting temperature and air pressure difference sensors for detecting air pressure on two sides of the outdoor heat exchanger, the temperature sensor is arranged on a hairpin tube change head of the outdoor heat exchanger, two probes of the air pressure difference sensors are respectively positioned on two sides of the outdoor heat exchanger, the temperature sensor and the air pressure difference sensors are respectively connected with an air conditioner control panel, the outdoor heat exchanger is used for transferring heat from hot fluid to cold fluid, the temperature sensor is used for detecting temperature, and the air pressure difference sensors are used for detecting air pressure on two sides of the outdoor heat exchanger.

Further, the method comprises the following steps: and the two sides of the air conditioner control panel in the mounting box are provided with static eliminating modules for eliminating static electricity, and the static eliminating modules are used for eliminating static electricity in the mounting box.

Further, the method comprises the following steps: the static electricity eliminating module comprises a static electricity eliminating rod, and the static electricity eliminating rod is used for eliminating static electricity in the mounting box.

The utility model has the advantages that: the utility model discloses the heat dissipation is fast, can accurately judge the condition of frosting and defrost automatically, the air conditioner control panel is used for controlling the air conditioner, the mounting box is used for placing the air conditioner control panel, storage battery is used for providing power for heat radiation module, heat radiation module is used for distributing the heat that electronic component produced, defrosting module is used for automatic defrosting, improves the efficiency of heating of air conditioner, the utility model discloses a detection and the judgement to temperature and air pressure differential make the judgement whether frosting to outdoor heat exchanger more accurate, have reduced the emergence of the false defrosting phenomenon of air conditioner, have increased the actual operation girth that heats of air conditioner, have improved the effect of heating of air conditioner.

Drawings

FIG. 1 is a schematic diagram of a portion of an industrial air conditioning control module;

fig. 2 is a schematic structural diagram of a heat dissipation module;

FIG. 3 is a schematic view of the defrost module;

labeled as: 1. an air-conditioning control panel; 2. mounting a box; 3. a control chip; 4. an electronic component; 5. a battery pack; 6. a heat dissipation module; 8. an air inlet; 9. an air outlet; 10. a static elimination bar; 61. a heat conducting plate; 62. a heat dissipation assembly; 63. a turbo fan; 64. a heat conducting rod; 71. an outdoor heat exchanger; 72. a temperature sensor; 73. an air pressure difference sensor.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the following detailed description.

An industrial air conditioner control module as shown in fig. 1, including air conditioner control panel 1 and the mounting box 2 that is used for placing air conditioner control panel 1, be provided with control chip 3, electronic component 4 and storage battery 5 on the air conditioner control panel 1, be provided with the thermal module 6 that is used for giving off electronic component 4 and produces heat on the air conditioner control panel 1, still including the defrosting module that is used for automatic defrosting, defrosting module sets up outdoors, thermal module 6 and defrosting module are connected with air conditioner control panel 1 respectively, air conditioner control panel 1 is used for controlling the air conditioner, mounting box 2 is used for placing air conditioner control panel 1, storage battery 5 is used for providing power for thermal module 6, thermal module 6 is used for giving off the heat that electronic component 4 produced, defrosting module is used for automatic defrosting, improves the heating efficiency of air conditioner.

On the basis, as shown in fig. 2, the heat dissipation module 6 includes a heat conduction plate 61 disposed above the air conditioner control panel 1, a heat dissipation assembly sheet 62 and a turbine fan 63 are disposed on the heat conduction plate 61, the turbine fan 63 is disposed on one side of the heat dissipation assembly sheet 62, the turbine fan 63 is connected to the battery pack 5, the heat conduction plate 61 is used for transferring heat generated by the electronic component 4 to the heat dissipation assembly sheet 62, the heat dissipation assembly sheet 62 is used for dissipating heat, and the turbine fan 63 is used for accelerating heat dissipation speed.

On the basis, the mounting box 2 comprises a bottom plate, two long plates and two short plates, wherein one long plate is provided with a plurality of air inlets 8, the positions of the air inlets 8 correspond to the position of the turbofan 63, the other long plate is provided with a plurality of air outlets 9, the positions of the air outlets 9 correspond to the positions of the radiating fins 62, and the air inlets 8 and the air outlets 9 enable the air inside and outside the mounting box 2 to circulate and accelerate the radiating speed.

On the basis, the control chip 3, the electronic element 4 and the storage battery pack 5 are symmetrically provided with heat conducting rods 64, the top ends of the heat conducting rods 64 are connected with the heat conducting plate 61, and the heat conducting rods 64 are used for guiding heat on the control chip 3, the electronic element 4 and the storage battery pack 5 out of the heat conducting plate 61, so that the heat dissipation speed is accelerated.

On the basis, as shown in fig. 3, the defrosting module includes an outdoor heat exchanger 71, a temperature sensor 72 for detecting temperature, and a differential air pressure sensor 73 for detecting air pressure at two sides of the outdoor heat exchanger 71, the temperature sensor 72 is disposed on a hairpin tube transition of the outdoor heat exchanger 71, two probes of the differential air pressure sensor 73 are respectively located at two sides of the outdoor heat exchanger 71, the temperature sensor 72 and the differential air pressure sensor 73 are respectively connected to the air-conditioning control board 1, the outdoor heat exchanger 71 is used for transferring heat from a hot fluid to a cold fluid, the temperature sensor 72 is used for detecting temperature, the differential air pressure sensor 73 is used for detecting air pressure at two sides of the outdoor heat exchanger 71, firstly, a temperature value of the temperature sensor 72 and an air pressure difference value of the differential air pressure sensor 73 are preset on the air-conditioning control board 1, when a temperature value detected by the temperature sensor 72 reaches a, the air pressure difference sensor 73 detects the air pressure at two sides of the outdoor heat exchanger 71, when the air pressure difference at two sides of the outdoor heat exchanger 71 detected by the air pressure difference sensor 73 meets a preset pressure difference, the air conditioner automatically enters a defrosting mode, when the temperature value detected by the temperature sensor 72 reaches a preset temperature value, the air conditioner automatically ends the defrosting mode, the air conditioner enables the judgment of whether the outdoor heat exchanger 71 is frosted more accurately through the detection and judgment of the temperature and the air pressure difference, the occurrence of the false defrosting phenomenon of the air conditioner is reduced, the actual heating operation perimeter of the air conditioner is increased, the heating effect of the air conditioner is improved, the temperature sensor 72 can be PT100 or TS105, TS105 is selected in the embodiment,

on the basis, the two sides of the air conditioner control panel 1 in the mounting box 2 are provided with static eliminating modules for eliminating static, and the static eliminating modules are used for eliminating static in the mounting box 2.

On the basis, the static electricity eliminating module comprises a static electricity eliminating rod 10, and the static electricity eliminating rod 10 is used for eliminating static electricity in the mounting box 2.

The above-mentioned embodiments, further detailed description of the objects, technical solutions and advantages of the present invention, it should be understood that the above-mentioned embodiments are only specific embodiments of the present invention, and are not intended to limit the present invention, and any modifications, equivalent substitutions, improvements, etc. made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (7)

1. An industrial air conditioner control module, its characterized in that: including air conditioner control panel (1) and mounting box (2) that are used for placing air conditioner control panel (1), be provided with control chip (3), electronic component (4) and storage battery (5) on air conditioner control panel (1), be provided with on air conditioner control panel (1) and be used for giving off electronic component (4) and produce thermal heat radiation module (6), still including the defrosting module that is used for automatic defrosting, defrosting module sets up outdoors, heat radiation module (6) and defrosting module are connected with air conditioner control panel (1) respectively.

2. The industrial air conditioning control module of claim 1, wherein: the heat dissipation module (6) comprises a heat conduction plate (61) arranged above the air conditioner control panel (1), a heat dissipation assembly sheet (62) and a turbofan (63) are arranged on the heat conduction plate (61), the turbofan (63) is arranged on one side of the heat dissipation assembly sheet (62), and the turbofan (63) is connected with the storage battery pack (5).

3. The industrial air conditioning control module of claim 1, wherein: the mounting box (2) comprises a bottom plate, two long plates and two short plates, wherein a plurality of air inlets (8) are formed in one long plate, the positions of the air inlets (8) correspond to the positions of the turbofan (63), a plurality of air outlets (9) are formed in the other long plate, and the positions of the air outlets (9) correspond to the positions of the heat dissipation assembly pieces (62).

4. The industrial air conditioning control module of claim 1, wherein: the control chip (3), the electronic element (4) and the storage battery pack (5) are symmetrically provided with heat conducting rods (64), and the top ends of the heat conducting rods (64) are connected with the heat conducting plate (61).

5. The industrial air conditioning control module of claim 1, wherein: the defrosting module comprises an outdoor heat exchanger (71), a temperature sensor (72) for detecting temperature and an air pressure difference sensor (73) for detecting air pressure on two sides of the outdoor heat exchanger (71), wherein the temperature sensor (72) is arranged on a hairpin tube variable head of the outdoor heat exchanger (71), two probes of the air pressure difference sensor (73) are respectively positioned on two sides of the outdoor heat exchanger (71), and the temperature sensor (72) and the air pressure difference sensor (73) are respectively connected with an air-conditioning control panel (1).

6. The industrial air conditioning control module of claim 1, wherein: and the two sides of the air conditioner control panel (1) in the mounting box (2) are provided with static elimination modules for eliminating static electricity.

7. The industrial air conditioning control module of claim 6, wherein: the static electricity eliminating module comprises a static electricity eliminating rod (10).

Images