CN212320116U - Cooling machine for controlling wind speed of fan through cooling temperature - Google Patents

Abstract

The utility model relates to a refrigeration plant provides a cooler of controlling fan wind speed through cooling temperature, its characterized in that: the device comprises a compressor, an evaporation chamber, a radiating pipe, a liquid storage chamber, a flow control switch, a temperature sensor, a fan and a fan controller; the compressor, the evaporation chamber, the radiating pipe and the liquid storage chamber are connected through the guide pipe, cooling liquid flows in the guide pipe, the cooling liquid flows out of the evaporation chamber and then enters the compressor, the cooling liquid flows out of the compressor and then enters the radiating pipe, and finally flows into the liquid storage chamber and then enters the evaporation chamber; the fan and the fan controller are combined together and placed in a box body, and the box body is arranged in the middle of the cooler; the utility model discloses the cooler can realize that the fan comes frequency conversion work according to the evaporation indoor temperature, can reduce the power consumption of cooler, can improve the life of fan simultaneously.

Description

Cooling machine for controlling wind speed of fan through cooling temperature

Technical Field

The utility model relates to a refrigeration plant, more specifically say, relate to a cooler of fan wind speed is controlled through cooling temperature.

Background

In order to improve the cooling efficiency and realize better cooling effect, most of the existing cooling machines adopt high-power refrigerating devices, wherein the high-power refrigerating devices comprise high-power radiating fans, so that the high energy consumption condition of the machine is caused; when the amount of heat to be cooled is small, the heat dissipation fan still operates at high power, which results in energy waste.

Disclosure of Invention

In view of this, a cooling machine which has a good heat dissipation effect and can work in a variable frequency mode and control the wind speed of a fan through cooling temperature is provided.

A cooling machine for controlling the wind speed of a fan by cooling temperature comprises a compressor, an evaporation chamber, a radiating pipe, a liquid storage chamber, a flow control switch, a temperature sensor, the fan and a fan controller; the compressor, the evaporation chamber, the radiating pipe and the liquid storage chamber are connected through the guide pipe, cooling liquid flows in the guide pipe, the cooling liquid flows out of the evaporation chamber and then enters the compressor, the cooling liquid flows out of the compressor and then enters the radiating pipe, and finally flows into the liquid storage chamber and then enters the evaporation chamber; the fan and the fan controller are combined together and placed in a box body which is arranged in the middle of the cooler.

Further, the radiating pipe adopts smaller pipelines and is folded into a bent symmetrical annular shape at the same time.

Further, the fan is arranged behind the radiating pipe, the fan blows air towards the radiating pipe, and meanwhile, a trapezoidal wind shield is arranged on the periphery of the fan.

Furthermore, a sensor probe in the temperature sensor is arranged in the evaporation chamber, the tail end of the sensor probe is arranged in the middle of a pipeline through which the cooling liquid flows out of the evaporation chamber, and a data line is arranged at the tail end of the long rod of the temperature sensor and connected with the fan controller.

Further, the flow control switch is a rotatable device and can be adjusted by a manual knob.

Compared with the prior art, the utility model has the advantages of: the temperature sensor is adopted to detect the temperature of the cooling liquid in the evaporation chamber, the heat needing to be cooled is determined, and then the operating power of the cooling fan is controlled, so that the heat can be timely dissipated, the energy consumption can be reduced, and the energy and economic cost are saved.

Drawings

Fig. 1 is a schematic structural diagram of the cooling machine for controlling the wind speed of the fan by cooling temperature according to the present invention.

Detailed Description

The technical features of the present invention will be further specifically described below by way of examples with reference to fig. 1.

Referring to fig. 1, an embodiment of the present invention is shown, which is a cooling machine 10 for controlling the wind speed of a fan by cooling temperature, comprising a compressor 21, an evaporation chamber 26, a heat dissipation pipe 22, a liquid storage chamber 23, a flow control switch 24, a temperature sensor 40, a fan 31 and a fan controller 34; the compressor 21, the evaporation chamber 26, the radiating pipe 22 and the liquid storage chamber 23 are connected through a guide pipe 25, cooling liquid flows in the guide pipe 25, the cooling liquid flows out of the evaporation chamber 26 and then enters the compressor 21, the cooling liquid flows out of the compressor 21 and then enters the radiating pipe 22, and finally flows into the liquid storage chamber 23 and then enters the evaporation chamber 26; the fan 31 and the fan controller 34 are combined and placed in a box provided at a middle position of the cooling machine 10.

Further, as a preferred embodiment of the present invention, the radiating pipe 22 is formed by folding a smaller pipe into a curved symmetrical ring shape, the smaller pipe can reduce the flowing speed of the cooling liquid, the curved radiating pipe increases the length of the pipe, and finally, the residence time of the cooling liquid in the radiating pipe 22 can be increased, and a good radiating effect can be achieved.

Further, as a preferred example, the fan 32 is disposed behind the heat dissipating pipe 22, the fan 32 blows air toward the heat dissipating pipe 22, and a stepped wind shielding plate 33 is disposed around the fan 32 to concentrate wind and improve heat dissipating efficiency.

Further, as a preferred embodiment of the present invention, the sensor probe 42 of the temperature sensor 40 is disposed in the evaporation chamber 26, the end of the sensor probe 42 is disposed at the middle position of the pipe where the cooling liquid flows out of the evaporation chamber 26, the position can reflect the temperature of the cooling liquid in the pipe most truly, and as a measure, the wind speed can be determined optimally, the end of the temperature sensor rod 41 has a data line 43 connected to the fan controller 34, the temperature sensor 40 converts the collected temperature condition into an electrical signal to transmit to the fan controller 34, the fan controller 34 analyzes and judges the data to control the power of the fan 31, and finally the wind speed of the fan is controlled by the cooling temperature.

Further, as a preferred embodiment of the present invention, the flow control switch 25 is a rotatable device, which can be adjusted by a manual knob, and the flow rate of the cooling liquid in the conduit 25 is controlled by rotating the flow control switch 25, so as to adjust the heat exchange effect in the evaporation chamber 26.

The above description is only the preferred embodiment of the present invention; the scope of the present invention is not limited thereto. Any person skilled in the art should also be able to cover the technical scope of the present invention by replacing or changing the technical solution and the improvement concept of the present invention with equivalents and modifications within the technical scope of the present invention.

Claims (5)

1. A cooler for controlling the wind speed of a fan through cooling temperature is characterized in that: the device comprises a compressor, an evaporation chamber, a radiating pipe, a liquid storage chamber, a flow control switch, a temperature sensor, a fan and a fan controller; the compressor, the evaporation chamber, the radiating pipe and the liquid storage chamber are connected through the guide pipe, cooling liquid flows in the guide pipe, the cooling liquid flows out of the evaporation chamber and then enters the compressor, the cooling liquid flows out of the compressor and then enters the radiating pipe, and finally flows into the liquid storage chamber and then enters the evaporation chamber; the fan and the fan controller are combined together and placed in a box body which is arranged in the middle of the cooler.

2. The cooling machine for controlling the wind speed of the fan by cooling temperature according to claim 1, wherein: the radiating pipe adopts smaller pipelines and is folded into a bent symmetrical annular shape.

3. The cooling machine for controlling the wind speed of the fan by cooling temperature according to claim 1, wherein: the fan is arranged behind the radiating pipe, blows towards the radiating pipe, and is provided with a trapezoidal wind shield at the periphery.

4. The cooling machine for controlling the wind speed of the fan by cooling temperature according to claim 1, wherein: the sensor probe in the temperature sensor is arranged in the evaporation chamber, the tail end of the sensor probe is arranged in the middle of a pipeline through which the cooling liquid flows out of the evaporation chamber, and the tail end of the long rod of the temperature sensor is provided with a data line connected with the fan controller.

5. The cooling machine for controlling the wind speed of the fan by cooling temperature according to claim 1, wherein: the flow control switch is a rotatable device and can be adjusted by a manual knob.

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