CN217902328U - Automatic temperature control system - Google Patents

Abstract

The utility model discloses an autonomous temperature control system, which comprises a constant temperature water adjusting system and a reservoir temperature control circulating system; the constant-temperature water regulating system comprises a cold-hot water automatic constant-temperature valve, a first circulating water liquid inlet pipeline, a speed regulating valve, a second circulating water liquid inlet pipeline, a heat exchanger and a circulating water liquid outlet pipeline which are sequentially communicated; a thermostatic regulator is arranged in the cold and hot water automatic thermostatic valve; the storehouse position temperature control circulating system is arranged in a storehouse position of a factory building and comprises at least two air channels and a circulating fan, the storehouse position is communicated with the heat exchanger through the air channels, and the circulating fan is arranged on one side, close to the heat exchanger, of the air channels. The beneficial effects of the invention are: the temperature control system of the utility model has simple structure, convenient installation and strong operability; the water circulation is utilized to automatically control the temperature, so that the influence on the environment temperature is reduced, and the influence of the change of the external environment is avoided.

Description

Automatic temperature control system

Technical Field

The utility model relates to a charging and discharging equipment's manufacturing technical field especially relates to autonomic temperature control system.

Background

In the current lithium battery production process, in order to guarantee production, the storage position needs to be subjected to constant temperature control. Because the manufacturing process is different, the existing temperature control system mostly depends on the external environment, and is not beneficial to controlling the temperature uniformity of different areas in the factory building.

SUMMERY OF THE UTILITY MODEL

The utility model discloses aim at solving one of the technique that exists among the prior art at least. Therefore, the utility model provides an autonomic temperature control system and temperature control method through the cooperation of cold and hot water automatic thermostatic valve, governing valve and heat exchanger, makes temperature control circulation system independently control the temperature to the storehouse position, is favorable to the inside different regional temperature uniformity control of factory building.

An autonomic temperature control system, its characterized in that: comprises a constant temperature water adjusting system and a reservoir temperature control circulating system;

the constant-temperature water regulating system comprises a cold-hot water automatic constant-temperature valve, a first circulating water liquid inlet pipeline, a speed regulating valve, a second circulating water liquid inlet pipeline, a heat exchanger and a circulating water liquid outlet pipeline which are sequentially communicated; a constant temperature regulator is arranged in the cold and hot water automatic constant temperature valve;

the storehouse position temperature control circulating system is arranged in a storehouse position of a factory building and comprises at least two air channels and circulating fans corresponding to the air channels, the storehouse position is communicated with the heat exchanger through the air channels, and the circulating fans are arranged on one sides, close to the heat exchanger, of the air channels.

Preferably, the cold and hot water automatic thermostatic valve is a three-way valve and is provided with a cold water interface, a hot water interface and a circulating water interface, the cold water interface and the hot water interface are respectively communicated with a cold water outlet and a hot water outlet of a factory building, and the circulating water interface is communicated with the speed regulating valve through a first circulating water inlet pipeline.

Preferably, the heat exchanger is a junction for temperature transfer between the constant-temperature water adjusting system and the reservoir-level temperature control circulating system, a first heat exchange channel for water passing and a second heat exchange channel for air passing are arranged in the heat exchanger, the first heat exchange channel is provided with a liquid inlet and a liquid outlet which are communicated, the liquid inlet of the first heat exchange channel is communicated with the speed regulating valve pipeline through a second circulating water liquid inlet pipeline, and the liquid outlet of the first heat exchange channel is communicated with the circulating water liquid outlet pipeline; each second heat exchange channel is provided with two communicated air vents, and the air vents are communicated with the storage position through an air duct.

Preferably, the air ducts correspond to the air ports of the second heat exchange channel one to one, the air ports of the heat exchanger are communicated with one end of the corresponding air duct, and the other end of the air duct, which is close to the heat exchanger, is provided with the circulating fan.

Preferably, the autonomous temperature control system further comprises a controller, a signal transmission end of the controller is electrically connected with a signal transmission end of the thermostatic regulator, and a signal output end of the controller is electrically connected with a control end of the speed regulating valve and a control end of the circulating fan.

Utilize the utility model discloses a temperature control method of autonomic temperature control system, its characterized in that includes following step:

1) Respectively connecting cold water and hot water in a factory building into a cold water interface and a hot water interface of a cold-hot water automatic thermostatic valve;

2) Presetting the temperature of a library position in a controller;

3) The temperature in the reservoir is monitored in real time, and the reservoir temperature is controlled to reach the preset constant temperature by changing the temperature of circulating water, controlling the flow measurement of circulating water and/or adjusting the air circulation volume of a circulating fan.

The temperature control method of the utility model is characterized by comprising the following steps:

(1) Respectively connecting cold water and hot water in a factory building into a cold water interface and a hot water interface of a cold-hot water automatic thermostatic valve;

(2) Presetting the temperature of a library position in a controller;

(3) Controlling the flow measurement of circulating water according to the reservoir temperature detected by the cold and hot water automatic thermostatic valve in real time, so that the reservoir temperature reaches the preset constant temperature when the circulating water circulates in the reservoir temperature control circulating system; if the temperature in the reservoir is too high, the temperature of the circulating water is reduced; if the temperature in the reservoir is too low, the temperature of the circulating water is increased.

The temperature control method of the utility model is characterized by comprising the following steps:

(1) respectively connecting cold water and hot water in a factory building into a cold water interface and a hot water interface of a cold-hot water automatic thermostatic valve;

(2) presetting the temperature of a library position in a controller;

(3) according to the temperature in the reservoir position detected by the speed regulating valve in real time, the temperature of the circulating water is regulated, so that the reservoir position reaches the preset constant temperature when the circulating water circulates in the reservoir position temperature control circulating system; if the temperature in the reservoir is too high or too low, the circulating water flow is increased or decreased.

The temperature control method of the utility model is characterized by comprising the following steps:

a, respectively connecting cold water and hot water in a factory building into a cold water interface and a hot water interface of a cold-hot water automatic thermostatic valve;

b, presetting the temperature of a library position in a controller;

c, detecting the temperature in the reservoir position in real time, and adjusting the air circulation quantity of the circulating fan to enable the reservoir position to reach a preset constant temperature; and if the temperature in the storage position is too high or too low, controlling the temperature of the storage position by adjusting the air circulation quantity of the circulating fan.

Temperature control system, partly be constant temperature water governing system, partly be storehouse position accuse temperature circulation system, the circulating water has adjusted water temperature and velocity of flow through automatic thermostatic valve of hot and cold water or speed governing valve in constant temperature water governing system, carries out the heat exchange in storehouse position accuse temperature circulation system. If the temperature in the reservoir is higher than the preset temperature, adjusting the cold and hot water automatic constant temperature valve to reduce the temperature of the circulating water, or adjusting the speed regulating valve to increase the flow of the circulating water; if the temperature in the reservoir is lower than the preset temperature, adjusting an automatic cold and hot constant temperature valve to increase the temperature of the circulating water, or adjusting a speed regulating valve to increase the flow of the circulating water; and under the condition that other conditions are not changed, if the temperature in the storage position is higher than or lower than the preset temperature, the wind speed of the circulating fan is increased, and the wind circulating amount is increased.

The utility model has the advantages that: the utility model discloses an automatic thermostatic valve of hot and cold water, governing valve, circulating fan and heat exchanger cooperation make the balanced control temperature of temperature control system, realize the interior temperature of accurate continuous control storehouse position in order to satisfy the production requirement. The temperature control system of the utility model has simple structure, convenient installation and strong operability; the temperature is controlled automatically by water circulation, so that the influence on the environment temperature is reduced, and the influence of external environment change is avoided.

Drawings

FIG. 1 is a schematic diagram of a temperature control system according to the present invention (in the diagram, the position A is cold water, the position B is hot water, and the arrow indicates the flowing direction of the liquid).

Fig. 2 is a schematic structural view of the reservoir temperature control circulation system of the present invention.

Description of the reference numerals: 1. a constant temperature water conditioning system; 11. a cold and hot water automatic thermostatic valve; 12. a liquid inlet pipeline for circulating water; 13. a speed regulating valve; 14. a liquid inlet pipeline for second circulating water; 15. a heat exchanger; 16. a liquid outlet pipeline for circulating water; 2. a reservoir temperature control circulating system; 20. a library location; 21. a circulating fan; 22. an air duct.

Detailed Description

The following describes in detail embodiments of the present invention with reference to the accompanying drawings. It is to be understood that the description herein is only intended to illustrate and explain embodiments of the present invention, and is not intended to limit embodiments of the present invention.

It should be noted that, in the present invention, the embodiments and features of the embodiments may be combined with each other without conflict.

The invention will be described in detail below with reference to the accompanying drawings in conjunction with exemplary embodiments.

The utility model relates to an autonomous temperature control system, which comprises a constant temperature water adjusting system 1 and a reservoir temperature control circulating system 2;

the constant-temperature water regulating system 1 comprises a cold-hot water automatic constant-temperature valve 11, a first circulating water liquid inlet pipeline 12, a speed regulating valve 13, a second circulating water liquid inlet pipeline 14, a heat exchanger 15 and a circulating water liquid outlet pipeline 16 which are communicated in sequence; a constant temperature regulator is arranged in the cold and hot water automatic constant temperature valve 11;

storehouse position temperature control circulation system 2 sets up in the storehouse position 20 of factory building, including two wind channels 22 and the circulating fan 21 that corresponds with the wind channel, lay the equipment in the storehouse position 20, storehouse position 20 through wind channel 22 with heat exchanger 15 is linked together, just the wind channel is close to heat exchanger one side and is equipped with circulating fan 21.

In one embodiment, the cold and hot water automatic thermostatic valve 11 is a three-way valve and has a cold water port, a hot water port and a circulating water port, the cold water port and the hot water port are respectively communicated with a cold water outlet and a hot water outlet of a factory building, and the circulating water port is communicated with the speed regulating valve through a first circulating water inlet pipeline 12.

In one embodiment, a first heat exchange channel for water passing and a second heat exchange channel for air passing are arranged in the heat exchanger 15, the first heat exchange channel is provided with a liquid inlet and a liquid outlet which are communicated, the liquid inlet of the first heat exchange channel is communicated with the speed regulating valve pipeline through a second circulating water liquid inlet pipeline, and the liquid outlet of the first heat exchange channel is communicated with the circulating water liquid outlet pipeline; each second heat exchange channel is provided with two communicated air vents, and the air vents are communicated with the reservoir position through an air duct.

In one embodiment, the air ducts 22 correspond to the air vents of the second heat exchange channels one to one, the air vents of the heat exchangers are communicated with one end of the corresponding air ducts, and the other end of the air ducts close to the heat exchangers is provided with the circulating fans.

The utility model discloses well factory building hot and cold water gets into storehouse position accuse temperature circulation system again through constant temperature water governing system. The constant temperature water regulating system achieves constant temperature control in the reservoir position through PID algorithm control according to the change of heat in the reservoir position. Specifically, cold water and hot water respectively enter from corresponding cold water interfaces and hot water interfaces, the synthesized circulating water flows out from the circulating water interfaces, and a thermostat built in the cold and hot water automatic thermostatic valve 11 can regulate the temperature of the circulating water according to a set temperature; the speed regulating valve 12 is arranged between the cold and hot water automatic constant temperature valve and the storehouse position temperature control circulating system and is used for regulating the flow rate of circulating water; circulating water enters the heat exchanger 14 from the second circulating water inlet line 14 and then flows out from the circulating water outlet line 16.

Circulating water enters the heat exchanger 15 through the second circulating water inlet pipeline 14, exchanges heat with air in the reservoir position 20, and controls the temperature of the reservoir position 20; the two air channels 22 are connected to the heat exchanger 15, the circulating fan 21 is arranged on one side of the air channels 22 close to the heat exchanger, switching of an air circulation path in the storehouse position temperature control circulating system 2 can be achieved by utilizing the forward and reverse rotation of the circulating fan 21, storehouse position air is sent into the heat exchanger 15 through one air channel and then sent out through the other air channel to exchange heat with the heat exchanger 14, and the temperature in the storehouse position is changed. When the wind in the storehouse position circulates clockwise, the cold air descends, which is beneficial to cooling the storehouse position; when the wind in the storehouse position circulates anticlockwise, the hot gas rises, and the temperature rise of the storehouse position is facilitated. The effect of the wind circulation path will vary from reservoir location to reservoir location.

The utility model discloses be not limited to two circulating fan 21, can increase the fan in the suitable position in storehouse position.

In one embodiment, the autonomous temperature control system further includes a controller, a signal transmission end of the controller is electrically connected to a signal transmission end of the thermostatic regulator, and a signal output end of the controller is electrically connected to a control end of the speed regulating valve and a control end of the circulating fan.

Utilize the utility model discloses a temperature control method of autonomic temperature control system, including following step:

(1) Respectively connecting cold water and hot water in a factory building into a cold water interface and a hot water interface of the cold and hot water automatic thermostatic valve 11;

(2) Presetting the temperature of a library position in a controller;

(3) Controlling the flow measurement of circulating water according to the temperature in the reservoir position 20 detected by the cold and hot water automatic thermostatic valve 11 in real time, so that the reservoir position reaches the preset constant temperature when the circulating water circulates in the reservoir position temperature control circulating system; if the temperature in the reservoir is too high, reducing the temperature of the circulating water; if the temperature in the reservoir is too low, the temperature of the circulating water is increased.

The temperature control method of the utility model comprises the following steps:

(1) respectively connecting cold water and hot water in a factory building into a cold water interface and a hot water interface of a cold-hot water automatic thermostatic valve;

(2) presetting the temperature of a library position in a controller;

(3) according to the temperature in the reservoir position detected by the speed regulating valve 13 in real time, the temperature of circulating water is regulated, so that the reservoir position reaches the preset constant temperature when the circulating water circulates in the reservoir position temperature control circulating system; if the temperature in the reservoir is too high or too low, the circulating water flow is increased or decreased.

The temperature control method of the utility model comprises the following steps:

a, respectively connecting cold water and hot water in a factory building into a cold water interface and a hot water interface of a cold-hot water automatic thermostatic valve;

b, presetting the temperature of a library position in a controller;

c, detecting the temperature in the warehouse location in real time, and adjusting the air circulation quantity of the circulating fan to enable the warehouse location to reach the preset constant temperature; and if the temperature in the storage position is too high or too low, controlling the temperature of the storage position by adjusting the air circulation quantity of the circulating fan.

Temperature control system, partly be constant temperature water governing system, partly be storehouse position accuse temperature circulation system, the circulating water has adjusted water temperature and velocity of flow through automatic thermostatic valve of hot and cold water or speed governing valve in constant temperature water governing system, carries out the heat exchange in storehouse position accuse temperature circulation system. If the temperature in the reservoir is higher than the preset temperature, adjusting an automatic cold and hot constant temperature valve to reduce the temperature of the circulating water, or adjusting a speed regulating valve to increase the flow of the circulating water; if the temperature in the reservoir is lower than the preset temperature, adjusting the cold and hot water automatic constant temperature valve to increase the temperature of the circulating water, or adjusting the speed regulating valve to increase the flow of the circulating water; and under the condition that other conditions are not changed, if the temperature in the storage position is higher than or lower than the preset temperature, the wind speed of the circulating fan is increased, and the wind circulation volume is increased.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", and the like, indicate the orientation or positional relationship indicated based on the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one of the feature. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally formed; may be mechanically coupled, may be electrically coupled or may be in communication with each other; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In the present application, unless expressly stated or limited otherwise, a first feature "on" or "under" a second feature may be directly contacting the second feature or the first and second features may be indirectly contacting the second feature through intervening media. Also, a first feature "on," "over," and "above" a second feature may be directly or diagonally above the second feature, or may simply indicate that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature may be directly under or obliquely under the first feature, or may simply mean that the first feature is at a lesser elevation than the second feature.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples and features of different embodiments or examples described in this specification can be combined and combined by one skilled in the art without contradiction.

Although embodiments of the present invention have been shown and described, it is understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that variations, modifications, substitutions and alterations can be made to the above embodiments by those of ordinary skill in the art without departing from the scope of the present invention.

Claims (5)

1. An autonomous temperature control system, characterized in that: comprises a constant temperature water adjusting system and a reservoir temperature control circulating system;

the constant-temperature water regulating system comprises a cold-hot water automatic constant-temperature valve, a first circulating water liquid inlet pipeline, a speed regulating valve, a second circulating water liquid inlet pipeline, a heat exchanger and a circulating water liquid outlet pipeline which are sequentially communicated; a constant temperature regulator is arranged in the cold and hot water automatic constant temperature valve;

the storehouse position temperature control circulating system is arranged in a storehouse position of a factory building and comprises at least two air channels and a circulating fan corresponding to the air channels, the storehouse position is communicated with the heat exchanger through the air channels, and the air channels are arranged on one side close to the heat exchanger.

2. The autonomous temperature control system of claim 1, wherein: the automatic cold and hot water thermostatic valve is a three-way valve and is provided with a cold water interface, a hot water interface and a circulating water interface, the cold water interface and the hot water interface are respectively communicated with a cold water outlet and a hot water outlet of a factory building, and the circulating water interface is communicated with the speed regulating valve through a first circulating water inlet pipeline.

3. The autonomous temperature control system of claim 2, wherein: a first heat exchange channel for water passing and a second heat exchange channel for ventilation are arranged in the heat exchanger, the first heat exchange channel is provided with a liquid inlet and a liquid outlet which are communicated, the liquid inlet of the first heat exchange channel is communicated with the speed regulating valve pipeline through a second circulating water liquid inlet pipeline, and the liquid outlet of the first heat exchange channel is communicated with the circulating water liquid outlet pipeline; each second heat exchange channel is provided with two communicated air vents, and the air vents are communicated with the reservoir position through an air duct.

4. The autonomous temperature control system of claim 3, wherein: the air ducts are in one-to-one correspondence with the air ports of the second heat exchange channels, the air ports of the heat exchangers are communicated with one ends of the corresponding air ducts, and the circulating fans are arranged at the other ends, close to the heat exchangers, of the air ducts.

5. The autonomous temperature control system of claim 1, wherein: the automatic temperature control system further comprises a controller, a signal transmission end of the controller is electrically connected with a signal transmission end of the constant temperature regulator, and a signal output end of the controller is electrically connected with a control end of the speed regulating valve and a control end of the circulating fan.

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