CN210573431U - Heat exchange cooling temperature sensor and heat exchange cooling temperature sensing equipment - Google Patents

Abstract

The utility model discloses a heat exchange cooling temperature sensor and heat exchange cooling temperature sensing equipment. Wherein the sensor comprises: each temperature detection device among at least two temperature detection device detects the temperature of rivers on the rivers route of the section wherein corresponding among the rivers route of heat exchange cooling system, whether the temperature of the rivers that this detection of temperature contrast device contrast is all the same, obtain the temperature contrast result, corresponding temperature regulation device among at least two temperature regulation device is when the temperature that has rivers on a rivers route at least at this temperature contrast result that obtains is inequality, the temperature that the temperature of rivers on the rivers route that this temperature is inequality adjusts the rivers on the rivers route that this temperature is inequality is to the same temperature, can realize avoiding the heat exchange cooling water among the heat exchange cooling system the condition that the temperature is neglected to heat or neglected to cool, can ensure the temperature of the heat exchange cooling water among this heat exchange cooling system invariable.

Description

Heat exchange cooling temperature sensor and heat exchange cooling temperature sensing equipment

Technical Field

The utility model relates to a temperature sensing technical field especially relates to a heat exchange cooling temperature sensor and heat exchange cooling temperature sensing equipment.

Background

When the temperature of one section of the water flow passage in the water flow passage of the heat exchange cooling system is higher or lower, the temperature of the heat exchange cooling water in the heat exchange cooling system is suddenly heated or suddenly cooled, and the temperature of the heat exchange cooling water in the heat exchange cooling system cannot be guaranteed to be constant.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model aims at providing a heat exchange cooling temperature sensor and heat exchange cooling temperature sensing equipment can realize avoiding the heat exchange cooling water among the heat exchange cooling system the condition that the temperature is neglected to heat or neglected to cool, can ensure the constancy of temperature of the heat exchange cooling water among this heat exchange cooling system.

According to an aspect of the present invention, there is provided a heat exchange cooling temperature sensor, including:

the temperature control device comprises at least two temperature detection devices, at least two temperature adjusting devices and a temperature comparison device;

the at least two temperature detection devices are arranged in a water flow passage of the heat exchange cooling system, one temperature detection device is arranged on each section of the water flow passage in the water flow passage of the heat exchange cooling system, the at least two temperature detection devices are respectively connected with the at least two temperature adjusting devices and the temperature comparison device, the number of the at least two temperature detection devices is the same as that of the at least two temperature adjusting devices, one temperature detection device is connected with one temperature adjusting device, the at least two temperature adjusting devices are respectively connected with the at least two temperature detection devices and the temperature comparison device, and the temperature comparison device is respectively connected with the at least two temperature detection devices and the at least two temperature adjusting devices;

each temperature detection device of at least two temperature detection device detects the temperature of rivers on the wherein corresponding section rivers route among the rivers route of heat exchange cooling system, the temperature contrast device contrast whether the temperature of rivers on the wherein corresponding section rivers route that each temperature detection device detected is all the same, obtains the temperature contrast result, the temperature adjusting device that corresponds among at least two temperature adjusting device basis the temperature contrast result that obtains, when the temperature that has rivers on a rivers route at least is inequality, correspond temperature adjusting device on the rivers route that the temperature of rivers is inequality adjusts the temperature of rivers on the rivers route that the temperature is inequality reaches the same temperature.

Wherein the at least two temperature detection devices are temperature detectors or bimetallic thermometers or thermocouple thermometers or thermal resistance thermometers or radiation thermometers.

Wherein the at least two temperature regulating devices are temperature regulators.

Wherein the heat exchange cools the temperature sensor, further comprising:

an intelligent temperature control device;

the intelligent temperature control device is respectively connected with the temperature comparison device and the at least two temperature adjusting devices;

and the intelligent temperature control device controls the at least two temperature adjusting devices to adjust the temperature of the water flow on each section of water flow passage in the water flow passages of the heat exchange cooling system to a preset temperature according to the obtained temperature comparison result.

Wherein, the intelligent temperature control device is an intelligent temperature controller.

Wherein the heat exchange cools the temperature sensor, further comprising:

a water amount monitoring device;

the water quantity monitoring device is connected with the at least two temperature detection devices;

the water amount monitoring device monitors the water amount of water flow on each section of water flow passage in the water flow passages of the heat exchange cooling system, calculates the running power of circulating water flow of the heat exchange cooling system according to the monitored water amount of water flow on each section of water flow passage, and controls the running power of the heat exchange cooling system according to the calculated running power of the circulating water flow.

Wherein, water yield monitoring devices includes:

the device comprises a water quantity monitoring module, a power calculation module and a power control module;

the power calculation module is respectively connected with the water quantity monitoring module and the power control module;

the water quantity monitoring module monitors the water quantity of water flow on each section of water flow passage in the water flow passages of the heat exchange cooling system, the power calculation module calculates the running power of circulating water flow of the heat exchange cooling system according to the monitored water quantity of water flow on each section of water flow passage, and the power control module controls the running power of the heat exchange cooling system according to the calculated running power of the circulating water flow.

According to another aspect of the present invention, there is provided a heat exchange cooling temperature sensing apparatus, comprising the heat exchange cooling temperature sensor as defined in any one of the above.

It can be found that, according to the above solution, the heat-exchange cooling temperature sensor may include at least two temperature detection devices, at least two temperature adjustment devices, and a temperature comparison device, where each of the at least two temperature detection devices detects the temperature of the water flow in the corresponding section of the water flow passage of the heat-exchange cooling system, the temperature comparison device compares whether the temperatures of the water flows in the corresponding sections of the water flow passages detected by each of the at least two temperature detection devices are the same, to obtain a temperature comparison result, and the corresponding temperature adjustment device of the at least two temperature adjustment devices adjusts the temperatures of the water flows in the water flow passages with different temperatures to the same temperature according to the obtained temperature comparison result, when the obtained temperature comparison result is that the temperatures of the water flows in at least one of the water flow passages are different, the condition that the temperature of the heat exchange cooling water in the heat exchange cooling system is suddenly hot or suddenly cold can be avoided, and the temperature constancy of the heat exchange cooling water in the heat exchange cooling system can be guaranteed.

Further, according to the scheme, the at least two temperature detection devices can be temperature detectors, bimetallic thermometers, thermocouple thermometers, thermal resistance thermometers, radiation thermometers and the like, and can detect the temperature of water flow on the corresponding section of the water flow passage in the water flow passage of the heat exchange cooling system.

Further, according to the above scheme, the at least two temperature adjusting devices may be temperature adjusters, which can adjust the temperatures of the water flows on the water flow paths with different temperatures in the water flow paths of the heat exchange cooling system to the same temperature.

Further, according to the above scheme, the heat exchange cooling temperature sensor may further include an intelligent temperature control device, the intelligent temperature control device is connected with the temperature comparison device and the at least two temperature adjustment devices respectively, and the intelligent temperature control device controls the at least two temperature adjustment devices to adjust the temperature of the water flow on each section of the water flow passage in the water flow passage of the heat exchange cooling system to a preset temperature according to the obtained temperature comparison result, so that the temperature of the water flow on each section of the water flow passage in the water flow passage of the heat exchange cooling system can be intelligently adjusted to the preset temperature, and intelligent temperature control is achieved.

Furthermore, according to the above scheme, the intelligent temperature control device may be an intelligent temperature controller, and the intelligent temperature controller controls the at least two temperature adjusting devices to adjust the temperature of the water flow on each section of the water flow passage in the water flow passage of the heat exchange cooling system to the preset temperature according to the obtained temperature comparison result, so that the temperature of the water flow on each section of the water flow passage in the water flow passage of the heat exchange cooling system can be intelligently adjusted to the preset temperature, and the intelligent temperature control is realized.

Further, according to the above scheme, the heat exchange cooling temperature sensor further comprises a water amount monitoring device, the water amount monitoring device is connected with the at least two temperature detection devices, the water amount monitoring device monitors the water amount of water flow on each section of water flow passage in the water flow passage of the heat exchange cooling system, the running power of circulating water flow of the heat exchange cooling system is calculated according to the monitored water amount of water flow on each section of water flow passage, and the running power of the heat exchange cooling system is controlled according to the calculated running power of the circulating water flow, so that the running power of the heat exchange cooling system can be calculated and controlled, and the energy-saving effect is achieved.

Further, according to the above scheme, the water amount monitoring device may include a water amount monitoring module, a power calculation module and a power control module, the power calculation module is connected to the water amount monitoring module and the power control module respectively, the water amount monitoring module monitors the water amount of the water flow on each section of the water flow passage in the water flow passage of the heat exchange cooling system, the power calculation module calculates the operating power of the circulating water flow of the heat exchange cooling system according to the monitored water amount of the water flow on each section of the water flow passage, and the power control module controls the operating power of the heat exchange cooling system according to the calculated operating power of the circulating water flow, so that the operating power of the heat exchange cooling system can be calculated and controlled, and an energy-saving effect is achieved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an embodiment of a heat exchange cooling temperature sensor of the present invention;

FIG. 2 is a schematic structural view of another embodiment of the heat exchange cooled temperature sensor of the present invention;

fig. 3 is a schematic structural diagram of another embodiment of the heat exchange cooling temperature sensor of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. It is to be noted that the following examples are only for illustrating the present invention, but do not limit the scope of the present invention. Similarly, the following embodiments are only some but not all embodiments of the present invention, and all other embodiments obtained by those skilled in the art without any inventive work are within the scope of the present invention.

The utility model provides a heat exchange cooling temperature sensor can realize avoiding the heat exchange cooling water among the heat exchange cooling system the condition that the temperature appears suddenly hot or suddenly cold, can ensure the constancy of temperature of the heat exchange cooling water among this heat exchange cooling system.

Referring to fig. 1, fig. 1 is a schematic structural diagram of an embodiment of a heat exchange cooling temperature sensor according to the present invention. In the present embodiment, the heat-exchange cooling temperature sensor 10 includes at least two temperature detection devices 11, at least two temperature adjustment devices 12, and a temperature comparison device 13.

The at least two temperature detection devices 11 are arranged in the water flow path of the heat exchange cooling system, and one temperature detection device 11 is arranged on each section of the water flow path in the water flow path of the heat exchange cooling system.

The at least two temperature detection devices 11 are respectively connected with the at least two temperature adjustment devices 12 and the temperature comparison device 13, the number of the at least two temperature detection devices 11 is the same as that of the at least two temperature adjustment devices 12, and one temperature detection device 11 is connected with one temperature adjustment device 12.

The at least two temperature adjusting devices 12 are respectively connected with the at least two temperature detecting devices 11 and the temperature comparing device 13.

The temperature comparing device is respectively connected with the at least two temperature detecting devices 11 and the at least two temperature adjusting devices 12.

Each of the at least two temperature detecting devices 11 is configured to detect a temperature of the water flowing through a corresponding section of the water flow path of the heat exchange cooling system.

The temperature comparing device 13 is used for comparing whether the temperatures of the water flows on the corresponding sections of the water flow passages detected by each temperature detecting device 11 are the same or not, and obtaining a temperature comparison result.

The corresponding temperature adjusting device 12 of the at least two temperature adjusting devices 12 is configured to adjust the temperature of the water flow on the water flow path with different temperature to the same temperature according to the obtained temperature comparison result when the obtained temperature comparison result indicates that the temperature of the water flow on at least one water flow path is different, and the temperature adjusting device 12 on the water flow path with different temperature corresponding to the water flow adjusts the temperature of the water flow on the water flow path with different temperature to the same temperature.

Optionally, the at least two temperature detecting devices 11 may be a temperature detector, a bimetal thermometer, a thermocouple thermometer, a thermal resistance thermometer, a radiation thermometer, etc., and the present invention is not limited thereto.

Alternatively, the at least two temperature adjustment devices 12 may be temperature adjusters, and the temperature adjusters adjust the temperatures of the water flows on the water flow paths with different temperatures to the same temperature corresponding to the temperature adjusters on the water flow paths with different temperatures when the obtained temperature comparison result indicates that the temperatures of the water flows on at least one water flow path are different.

In this embodiment, the thermostat may employ a differential look-ahead control algorithm with an external set-up and valve position control function. The device can be matched with various sensors and transmitters for use, realizes measurement and display of physical quantities such as temperature, pressure, liquid level, capacity, speed and the like, and has the functions of regulating and controlling electric heating equipment, electromagnetism and electric valves, alarming control, data acquisition and the like by matching with various actuators.

It can be found that, in this embodiment, the heat-exchange cooling temperature sensor may include at least two temperature detection devices, at least two temperature adjustment devices, and a temperature comparison device, where each of the at least two temperature detection devices detects the temperature of the water flow in the corresponding section of the water flow passage of the heat-exchange cooling system, the temperature comparison device compares whether the temperatures of the water flows in the corresponding sections of the water flow passages detected by each of the at least two temperature detection devices are the same, to obtain a temperature comparison result, and the corresponding temperature adjustment device of the at least two temperature adjustment devices adjusts the temperature of the water flow in the water flow passages with different temperatures to the same temperature according to the obtained temperature comparison result, when the obtained temperature comparison result is that the temperature of the water flow in at least one water flow passage is different, the condition that the temperature of the heat exchange cooling water in the heat exchange cooling system is suddenly hot or suddenly cold can be avoided, and the temperature constancy of the heat exchange cooling water in the heat exchange cooling system can be guaranteed.

Further, in this embodiment, the at least two temperature detection devices may be temperature detectors, bimetallic thermometers, thermocouple thermometers, thermal resistance thermometers, radiation thermometers, and the like, and can detect the temperature of the water flowing through the corresponding section of the water flow passage of the heat exchange cooling system.

Further, in this embodiment, the at least two temperature adjusting devices may be temperature adjusters, which can adjust the temperatures of the water flows on the water flow paths with different temperatures in the water flow paths of the heat exchange cooling system to the same temperature.

Referring to fig. 2, fig. 2 is a schematic structural diagram of another embodiment of the heat exchange cooling temperature sensor of the present invention. Unlike the previous embodiment, the heat exchange cooling temperature sensor 20 of the present embodiment further includes: an intelligent temperature control device 21.

The intelligent temperature control device 21 is connected to the temperature comparison device 13 and the at least two temperature adjustment devices 12, respectively.

The intelligent temperature control device 21 is configured to control the at least two temperature adjustment devices 12 to adjust the temperature of the water flow in each section of the water flow path of the heat exchange cooling system to a preset temperature according to the obtained temperature comparison result.

Alternatively, the intelligent temperature control device 21 may be an intelligent temperature controller, and the intelligent temperature controller controls the at least two temperature adjustment devices 12 to adjust the temperature of the water flow in each of the water flow paths of the heat exchange cooling system to a preset temperature according to the obtained temperature comparison result.

It can be found that, in this embodiment, the heat exchange cooling temperature sensor may further include an intelligent temperature control device, the intelligent temperature control device is connected to the temperature comparison device and the at least two temperature adjustment devices respectively, and the intelligent temperature control device controls the at least two temperature adjustment devices to adjust the temperature of the water flow on each section of the water flow passage in the water flow passage of the heat exchange cooling system to a preset temperature according to the obtained temperature comparison result, so as to intelligently adjust the temperature of the water flow on each section of the water flow passage in the water flow passage of the heat exchange cooling system to the preset temperature, thereby achieving intelligent temperature control.

Further, in this embodiment, the intelligent temperature control device may be an intelligent temperature controller, and the intelligent temperature controller controls the at least two temperature adjustment devices to adjust the temperature of the water flow on each section of the water flow path of the heat exchange cooling system to a preset temperature according to the obtained temperature comparison result, so as to intelligently adjust the temperature of the water flow on each section of the water flow path of the heat exchange cooling system to the preset temperature, and achieve intelligent temperature control.

Referring to fig. 3, fig. 3 is a schematic structural diagram of another embodiment of the heat exchange cooling temperature sensor of the present invention. Unlike the previous embodiment, the heat exchange cooling temperature sensor 30 of the present embodiment further includes: a water amount monitoring device 31.

The water amount monitoring device 31 is connected to the at least two temperature detecting devices 11.

The water amount monitoring device 31 is configured to monitor the water amount of the water flow in each of the water flow paths of the heat-exchange cooling system, calculate the operating power of the circulating water flow of the heat-exchange cooling system according to the monitored water amount of the water flow in each of the water flow paths, and control the operating power of the heat-exchange cooling system according to the calculated operating power of the circulating water flow.

Alternatively, the water amount monitoring device 31 may include:

a water quantity monitoring module (not shown), a power calculating module (not shown) and a power control module (not shown);

the power calculation module is respectively connected with the water quantity monitoring module and the power control module;

the water quantity monitoring module is used for monitoring the water quantity of water flow on each section of water flow passage in the water flow passages of the heat exchange cooling system;

the power calculation module is used for calculating the operating power of the circulating water flow of the heat exchange cooling system according to the monitored water amount of the water flow on each section of the water flow passage;

the power control module is used for controlling the operating power of the heat exchange cooling system according to the calculated operating power of the circulating water flow.

It can be found that, in this embodiment, the heat exchange cooling temperature sensor further includes a water amount monitoring device, the water amount monitoring device is connected to the at least two temperature detection devices, the water amount monitoring device monitors the water amount of the water flow in each of the water flow paths of the heat exchange cooling system, and calculates the operating power of the circulating water flow of the heat exchange cooling system according to the monitored water amount of the water flow in each of the water flow paths, and controls the operating power of the heat exchange cooling system according to the calculated operating power of the circulating water flow, so as to realize calculation and control of the operating power of the heat exchange cooling system, and achieve the effect of saving energy.

Further, in this embodiment, the water amount monitoring device may include a water amount monitoring module, a power calculation module and a power control module, the power calculation module is connected to the water amount monitoring module and the power control module respectively, the water amount monitoring module monitors the water amount of the water flow on each section of the water flow path in the water flow path of the heat exchange cooling system, the power calculation module calculates the operating power of the circulating water flow of the heat exchange cooling system according to the monitored water amount of the water flow on each section of the water flow path, and the power control module controls the operating power of the heat exchange cooling system according to the calculated operating power of the circulating water flow, so that the operating power of the heat exchange cooling system can be calculated and controlled, and an energy saving effect is achieved.

The utility model provides a heat exchange cooling temperature sensing equipment, this heat exchange cooling temperature sensing equipment includes heat exchange cooling temperature sensor, this heat exchange cooling temperature sensor is the heat exchange cooling temperature sensor in above-mentioned embodiment, each functional module of this heat exchange cooling temperature sensor can carry out the function and the relation of connection etc. of each functional module of the heat exchange cooling temperature sensor that corresponds in above-mentioned embodiment respectively, the event is not repeated here to each functional module of this heat exchange cooling temperature sensor, the explanation that corresponds above the detailed please see.

It can be found that, according to the above solution, the heat-exchange cooling temperature sensor may include at least two temperature detection devices, at least two temperature adjustment devices, and a temperature comparison device, where each of the at least two temperature detection devices detects the temperature of the water flow in the corresponding section of the water flow passage of the heat-exchange cooling system, the temperature comparison device compares whether the temperatures of the water flows in the corresponding sections of the water flow passages detected by each of the at least two temperature detection devices are the same, to obtain a temperature comparison result, and the corresponding temperature adjustment device of the at least two temperature adjustment devices adjusts the temperatures of the water flows in the water flow passages with different temperatures to the same temperature according to the obtained temperature comparison result, when the obtained temperature comparison result is that the temperatures of the water flows in at least one of the water flow passages are different, the condition that the temperature of the heat exchange cooling water in the heat exchange cooling system is suddenly hot or suddenly cold can be avoided, and the temperature constancy of the heat exchange cooling water in the heat exchange cooling system can be guaranteed.

Further, according to the scheme, the at least two temperature detection devices can be temperature detectors, bimetallic thermometers, thermocouple thermometers, thermal resistance thermometers, radiation thermometers and the like, and can detect the temperature of water flow on the corresponding section of the water flow passage in the water flow passage of the heat exchange cooling system.

Further, according to the above scheme, the at least two temperature adjusting devices may be temperature adjusters, which can adjust the temperatures of the water flows on the water flow paths with different temperatures in the water flow paths of the heat exchange cooling system to the same temperature.

Further, according to the above scheme, the heat exchange cooling temperature sensor may further include an intelligent temperature control device, the intelligent temperature control device is connected with the temperature comparison device and the at least two temperature adjustment devices respectively, and the intelligent temperature control device controls the at least two temperature adjustment devices to adjust the temperature of the water flow on each section of the water flow passage in the water flow passage of the heat exchange cooling system to a preset temperature according to the obtained temperature comparison result, so that the temperature of the water flow on each section of the water flow passage in the water flow passage of the heat exchange cooling system can be intelligently adjusted to the preset temperature, and intelligent temperature control is achieved.

Furthermore, according to the above scheme, the intelligent temperature control device may be an intelligent temperature controller, and the intelligent temperature controller controls the at least two temperature adjusting devices to adjust the temperature of the water flow on each section of the water flow passage in the water flow passage of the heat exchange cooling system to the preset temperature according to the obtained temperature comparison result, so that the temperature of the water flow on each section of the water flow passage in the water flow passage of the heat exchange cooling system can be intelligently adjusted to the preset temperature, and the intelligent temperature control is realized.

Further, according to the above scheme, the heat exchange cooling temperature sensor further comprises a water amount monitoring device, the water amount monitoring device is connected with the at least two temperature detection devices, the water amount monitoring device monitors the water amount of water flow on each section of water flow passage in the water flow passage of the heat exchange cooling system, the running power of circulating water flow of the heat exchange cooling system is calculated according to the monitored water amount of water flow on each section of water flow passage, and the running power of the heat exchange cooling system is controlled according to the calculated running power of the circulating water flow, so that the running power of the heat exchange cooling system can be calculated and controlled, and the energy-saving effect is achieved.

Further, according to the above scheme, the water amount monitoring device may include a water amount monitoring module, a power calculation module and a power control module, the power calculation module is connected to the water amount monitoring module and the power control module respectively, the water amount monitoring module monitors the water amount of the water flow on each section of the water flow passage in the water flow passage of the heat exchange cooling system, the power calculation module calculates the operating power of the circulating water flow of the heat exchange cooling system according to the monitored water amount of the water flow on each section of the water flow passage, and the power control module controls the operating power of the heat exchange cooling system according to the calculated operating power of the circulating water flow, so that the operating power of the heat exchange cooling system can be calculated and controlled, and an energy-saving effect is achieved.

It can be found that, the above solution, the heat exchange cooling water method is applied to a heat exchange cooling water device, the heat exchange cooling water device comprises a water reservoir, a circulating water pump, a compressor, a heat exchanger and a condenser, the circulating water pump can circulate the stored water in the water reservoir repeatedly to form a circulating water flow in a water flow path formed by the compressor, the heat exchanger and the condenser, the compressor can generate mechanical energy, and a refrigerant circulates in the water flow path formed by the compressor, the heat exchanger and the condenser by the generated mechanical energy and repeatedly operates in a gaseous state or a liquid state, and the heat exchanger can continuously absorb heat of the formed circulating water flow by the circulating refrigerant to heat-exchange cool the formed circulating water flow, and the condenser can discharge the heat absorbed by the circulating refrigerant, and the circulating water flow after the cooling by heat exchange is output to the water accumulator, the cooling by heat exchange cooling water can be realized, compared with air cooling, the number of fans for cooling by heat exchange cooling water is not more than that of air cooling, and the vibration and noise are less than that of air cooling.

Furthermore, above scheme, this heat exchanger can be the spiral pipe heat exchanger, and this spiral pipe heat exchanger can adopt the external screw thread pipe preparation, and this spiral pipe heat exchanger is small, the refrigerating output is big, the heat dissipation is good, compact structure is pleasing to the eye, energy-conservation.

Further, above scheme, this heat exchanger from left to right can set gradually water inlet and refrigerant export, the spiral pipe, delivery port and refrigerant import, this circulation flow's refrigerant enters into this spiral pipe through this refrigerant import, this formation circulation rivers enter into this spiral pipe from this water inlet, this spiral pipe adopts the heat of this entering rivers of spiral cold and hot exchange mode to constantly absorb through this entering refrigerant, make the rivers heat exchange cooling refrigeration of this entering, this refrigerant through absorbing the heat of this entering rivers flows through this refrigerant export, this rivers through this through heat exchange cooling refrigeration flow out through this delivery port, this spiral pipe is small, the refrigerating output is big, the heat dissipation is good, compact structure is pleasing to the eye, energy-conservation.

Further, according to the above aspect, the condenser may include a first outlet, a second outlet, and a third outlet, the first outlet discharges heat absorbed by the refrigerant flowing in the cycle, the second outlet outputs the circulating water flow cooled by heat exchange to the water reservoir when the third outlet does not operate, and the third outlet outputs the circulating water flow cooled by heat exchange to the outside when the second outlet does not operate, which can ensure that the circulating water flow maintains a cooling state of heat exchange cooling water, and the circulating water flow maintaining the cooling state of heat exchange cooling water can be supplied for output.

Furthermore, according to the above scheme, the heat exchange cooling water device may further include a temperature controller, the temperature controller is connected to the compressor, the temperature controller controls the operation of the compressor, controls the compressor to generate mechanical energy, and enables the refrigerant to circularly flow in a water flow passage formed by the compressor, the heat exchanger and the condenser and repeatedly operate in a gaseous state or a liquid state through the generated mechanical energy, so that the temperature of the water flow after the heat of the formed circulating water flow is absorbed by the circularly flowing refrigerant is constant or reaches a preset temperature, and the advantage is that the temperature of the water of the circulating water flow after being cooled by the heat exchange cooling water can be constant or reach the preset temperature.

It should be noted that, what run on these at least two temperature-detecting device 11 is the algorithm of realization temperature-detecting function commonly used, what run on these at least two temperature-regulating device 12 is the algorithm of realization temperature-regulating device function commonly used, what run on this temperature contrast device 13 is the algorithm of realization temperature contrast function commonly used, what run on this intelligent temperature-controlling device 21 is the algorithm of realization intelligent temperature-controlling function commonly used, what run on this water yield monitoring devices 31 is the algorithm of realization water yield monitoring function commonly used, the technical scheme of the utility model realize, need not make any improvement to the software program, so the statement.

The above only is the partial embodiment of the utility model discloses a not therefore restriction the utility model discloses a protection scope, all utilize the utility model discloses equivalent device or equivalent flow transform that the content of description and drawing was done, or direct or indirect application in other relevant technical field, all the same reason is included in the patent protection scope of the utility model.

Claims (8)

1. A heat exchange cooled temperature sensor, comprising:

the temperature control device comprises at least two temperature detection devices, at least two temperature adjusting devices and a temperature comparison device;

the at least two temperature detection devices are arranged in a water flow passage of the heat exchange cooling system, one temperature detection device is arranged on each section of the water flow passage in the water flow passage of the heat exchange cooling system, the at least two temperature detection devices are respectively connected with the at least two temperature adjusting devices and the temperature comparison device, the number of the at least two temperature detection devices is the same as that of the at least two temperature adjusting devices, one temperature detection device is connected with one temperature adjusting device, the at least two temperature adjusting devices are respectively connected with the at least two temperature detection devices and the temperature comparison device, and the temperature comparison device is respectively connected with the at least two temperature detection devices and the at least two temperature adjusting devices;

each temperature detection device of at least two temperature detection device detects the temperature of rivers on the wherein corresponding section rivers route among the rivers route of heat exchange cooling system, the temperature contrast device contrast whether the temperature of rivers on the wherein corresponding section rivers route that each temperature detection device detected is all the same, obtains the temperature contrast result, the temperature adjusting device that corresponds among at least two temperature adjusting device basis the temperature contrast result that obtains, when the temperature that has rivers on a rivers route at least is inequality, correspond temperature adjusting device on the rivers route that the temperature of rivers is inequality adjusts the temperature of rivers on the rivers route that the temperature is inequality reaches the same temperature.

2. The heat exchange cooled temperature sensor of claim 1, wherein said at least two temperature sensing devices are temperature detectors or bimetallic thermometers or thermocouple thermometers or thermal resistance thermometers or radiation thermometers.

3. The heat exchange cooled temperature sensor of claim 1, wherein the at least two temperature modulating devices are temperature modulators.

4. The heat exchange cooled temperature sensor of claim 1, further comprising:

an intelligent temperature control device;

the intelligent temperature control device is respectively connected with the temperature comparison device and the at least two temperature adjusting devices;

and the intelligent temperature control device controls the at least two temperature adjusting devices to adjust the temperature of the water flow on each section of water flow passage in the water flow passages of the heat exchange cooling system to a preset temperature according to the obtained temperature comparison result.

5. The heat exchange cooled temperature sensor of claim 4, wherein the intelligent temperature control device is an intelligent thermostat.

6. The heat exchange cooled temperature sensor of claim 1, further comprising:

a water amount monitoring device;

the water quantity monitoring device is connected with the at least two temperature detection devices;

the water amount monitoring device monitors the water amount of water flow on each section of water flow passage in the water flow passages of the heat exchange cooling system, calculates the running power of circulating water flow of the heat exchange cooling system according to the monitored water amount of water flow on each section of water flow passage, and controls the running power of the heat exchange cooling system according to the calculated running power of the circulating water flow.

7. The heat exchange cooled temperature sensor of claim 6, wherein the water volume monitoring device comprises:

the device comprises a water quantity monitoring module, a power calculation module and a power control module;

the power calculation module is respectively connected with the water quantity monitoring module and the power control module;

the water quantity monitoring module monitors the water quantity of water flow on each section of water flow passage in the water flow passages of the heat exchange cooling system, the power calculation module calculates the running power of circulating water flow of the heat exchange cooling system according to the monitored water quantity of water flow on each section of water flow passage, and the power control module controls the running power of the heat exchange cooling system according to the calculated running power of the circulating water flow.

8. A heat exchange cooled temperature sensing apparatus comprising a heat exchange cooled temperature sensor according to any one of claims 1 to 7.

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