CN103017390A - Improved heat exchange system - Google Patents

Abstract

The invention discloses an improved heat exchange system, which comprises a refrigerator, wherein the refrigerator comprises a compressor, a condenser and a heat exchanger; the output port of the compressor is communicated with the first input port of the condenser; the first output port of the condenser is communicated with the first input port of the heat exchanger through a first electronic expansion valve device; the first output port of the heat exchanger is communicated with the input port of the compressor; the output port of the compressor is further communicated with the first input port of the heat exchanger through a second electronic expansion valve device; the first output port of the condenser is communicated with the input port of the compressor through a third electronic expansion valve device; and the refrigerator further comprises a refrigeration controller which is electrically connected with the three electronic expansion valve devices. When the refrigerator is started up, the refrigeration controller is used for setting the switching proportion of each electronic expansion valve device into a preset value and running each electronic expansion valve device for a preset period of time, so that engine oil in the refrigerator can be well circulated.

Description

The improved hot exchange system

Technical field

The present invention relates to the heat exchange field, relate in particular to the improved hot exchange system.

Background technology

Utilizing refrigerator to carry out temperature controlled system, is to adopt the flow of controlling after refrigerator refrigerant (freon) expands to reach the temperature of temperature control object is controlled mostly.And need controlled objects (equipment) usually to need another one steady temperature or one need to be a variable temperature range, certain temperature in-20 degree ~ 80 degree Celsius for example.Method commonly used is to use another liquid or gas (liquid or gas, hereinafter referred to as circulation of fluid) carry out heat exchange with above-mentioned refrigerator refrigerant (freon) by heat exchanger and reach the control of accurate circulating fluid temperature, utilize afterwards described circulation of fluid to go to control the temperature of temperature control object.This heat exchange is to regulate hot exchange power by the flow of control refrigerator refrigerant (freon), usually mostly the flow of refrigerant is to finish by magnetic valve or mechanical thermal expansion valve or the capillary etc. of ON/OFF (ON/OFF) action, and these expansion valves all are difficult to cold medium flux is controlled accurately.

Therefore, be necessary to propose a kind of improved technical scheme and solve the problems referred to above.

Summary of the invention

For problems of the prior art, the present invention proposes a kind of heat-exchange system, and it can realize the accurate control of the cold medium flux of refrigerator in the high-power heat-exchange system, in addition can be so that the machine oil good circulation of refrigerator.

In order to address the above problem, the present invention proposes a kind of heat-exchange system, it comprises refrigerator, described refrigerator comprises compressor, condenser and heat exchanger, refrigerant in the described refrigerator and cooling fluid carry out heat exchange at the condenser place, refrigerant in circulation of fluid and the described refrigerator carries out heat exchange at the heat exchanger place, described condenser comprises the first input end mouth, the first output port that is communicated with the first input end mouth, the second input port and the second output port that is communicated with the second input port, described heat exchanger comprises the first input end mouth, the first output port that is communicated with the first input end mouth, the second input port and the second output port that is communicated with the second input port, described refrigerator also comprises the first electronic expansion valve gear, the second electronic expansion valve gear and the 3rd electronic expansion valve gear, the output port of described compressor is connected with the first input end mouth of described condenser, the first output port of described condenser is connected with the first input end mouth of heat exchanger by the first electronic expansion valve gear, the first output port of described heat exchanger is connected with the input port of described compressor, the output port of described compressor also is connected with the first input end mouth of heat exchanger by the second electronic expansion valve gear, and the first output port of described condenser also is connected with the input port of described compressor by the 3rd electronic expansion valve gear; Described circulation of fluid flows into from the second input port of described heat exchanger, flow out from the second output port of described heat exchanger, described cooling fluid flows into from the second input port of described condenser, flow out from the second output port of described condenser, described refrigerator also comprises the freezing controller of the switch ratio that is used for each electronic expansion valve gear of control that is electrically connected with three electronic expansion valve gears, when described refrigerator was opened, described freezing controller was set as the switch ratio of each electronic expansion valve gear the predetermined switch ratio value and moves the scheduled time first.

Further, after the operation scheduled time, described freezing controller is freely controlled the switch ratio of each electronic expansion valve gear at refrigerator.

Further, refrigerant in the described refrigerator has three paths, article one, path is: the refrigerant that flows out from the output port of described compressor, flow back to described compressor through the input port of the first input end mouth of the first input end mouth of described condenser and the first output port, the first electronic expansion valve gear, described heat exchanger and the first output port, compressor; The second path is: the refrigerant that flows out from the output port of described compressor, flow back to described compressor through the input port of the first input end mouth of the second electronic expansion valve gear, described heat exchanger and the first output port, compressor; Article three, path is: the refrigerant that flows out from the output port of described compressor, flow back to described compressor through the input port of the first input end mouth of described condenser and the first output port, the 3rd electronic expansion valve gear, compressor.

Further, described refrigerator comprises that also the suction in the path that is arranged on described refrigerant holds the pond, receiving tank, drier and form, the first output port of described condenser is communicated with the input port of described receiving tank, the output port of described receiving tank is communicated with the input port of the first electronic expansion valve gear and the input port of the 3rd electronic expansion valve gear through drier and form, the input port that the pond is held in described suction is communicated with the output port of the 3rd electronic expansion valve gear and the first output port of described heat exchanger, and the output port that the pond is held in described suction is communicated with the input port of described compressor.

Further, described heat-exchange system also comprises the circulation of fluid tank that is used for storing described circulation of fluid on the path that is arranged at described circulation of fluid, be provided with heater strip in described fluid tank, the circulation of fluid temperature that detects according to described temperature sensor enables described heater strip.

Further, described heat-exchange system also comprises pump and the motor that is arranged on the described circulation of fluid path, to drive flowing of described circulation of fluid.

Further, described circulation of fluid is liquid or gas, and described cooling fluid is cooling water.

Further, each electronic expansion valve gear comprises stepper motor or the direct current generator of the switch ratio of electronic expansion valve and the described electronic expansion valve of control, and described freezing controller is controlled the switch ratio of described electronic expansion valve by controlling described stepper motor or direct current generator.

Further, before described refrigerator was opened, described freezing controller was controlled described electronic expansion valve and is reset to its mechanical origin.

Compared with prior art, the present invention has realized the accurate control of hot exchange power to the control of the switch ratio of each electronic expansion valve gear by freezing controller.In addition, in order to make the machine oil good circulation of refrigerator, when refrigerator is opened, can be under the switch ratio value that pre-sets at each electronic expansion valve gear first in the given time and turn round.

Description of drawings

Fig. 1 is the heat-exchange system structural representation in one embodiment among the present invention; With

Fig. 2 is the structured flowchart of the control section in the heat-exchange system among the present invention.

The specific embodiment

Below in conjunction with accompanying drawing the present invention is elaborated.

Alleged " embodiment " or " embodiment " refer to that special characteristic, structure or the characteristic relevant with described embodiment can be contained at least one implementation of the present invention at least herein.Different local in this manual " in one embodiment " that occur also nonessentially all refer to same embodiment, must not be yet with other embodiment mutually exclusive separately or select embodiment.In addition, represent the sequence of modules in method, flow chart or the functional block diagram of one or more embodiment and revocablely refer to any particular order, also be not construed as limiting the invention.

Fig. 1 is improved hot exchange system 100 structural representation in one embodiment among the present invention.As shown in Figure 1, described heat-exchange system 100 comprises refrigerator 110, cooling fluid pathways 120 and circulation of fluid path 130.

Described refrigerator 110 comprises compressor 112, condenser 114, heat exchanger 115(or is called evaporimeter), the first electronic expansion valve gear ELV1, the second electronic expansion valve gear ELV2 and the 3rd electronic expansion valve gear ELV3.Refrigerant and the cooling fluid in the cooling fluid pathways 120 in the described refrigerator 110 carry out heat exchange at condenser 114 places; Refrigerant in circulation of fluid in the circulation of fluid path 130 and the described refrigerator 110 carries out heat exchange at heat exchanger 115 places.

Described condenser 114 comprises first input end mouth, the first output port that is communicated with the first input end mouth, the second input port and the second output port that is communicated with the second input port.Described heat exchanger 115 comprises first input end mouth, the first output port that is communicated with the first input end mouth, the second input port and the second output port that is communicated with the second input port.

The output port of described compressor 112 is connected with the first input end mouth of described condenser 114, the first output port of described condenser 114 is connected with the first input end mouth of heat exchanger 115 by the first electronic expansion valve gear ELV1, the first output port of described heat exchanger 115 is connected with the input port of described compressor 112, the output port of described compressor 112 also is connected with the first input end mouth of heat exchanger 115 by the second electronic expansion valve gear ELV2, and the first output port of described condenser 114 is connected with the input port of described compressor 112 by the 3rd electronic expansion valve gear ELV3.Wherein, the first electronic expansion valve gear ELV1 and the second electronic expansion valve gear ELV1.The switch ratio of each electronic expansion valve gear is adjustable, be opened into 0% such as 100% and open, adjust grade, so then have 0% for per 5% 1,5%, 10% ..., 95%, 100% so many switch ratio grades, the flow that like this can point-device adjustment refrigerant flows through, thus the power of heat exchange can be controlled accurately, and then the temperature of accurate controlled circulation fluid.

Can find out, refrigerant in the described refrigerator 110 has three paths, article one, path is that the input port of the first input end mouth of the first input end mouth of the described condenser 114 of process and the first output port, the first electronic expansion valve gear ELV1, described heat exchanger 115 and the first output port, compressor 112 flows back to described compressor from the refrigerant of the output port outflow of described compressor 112; The second path is the refrigerant that flows out from the output port of described compressor 112, flows back to described compressor through the input port of the first input end mouth of the second electronic expansion valve gear ELV2, described heat exchanger 115 and the first output port, compressor 112; Article three, path is that the input port of the first input end mouth of the described condenser 114 of process and the first output port, the 3rd electronic expansion valve gear ELV3, compressor 112 flows back to described compressor from the refrigerant of the output port outflow of described compressor 112.

In one embodiment, as shown in Figure 2, described refrigerator also comprises the freezing controller 210 that is electrically connected with three electronic expansion valve gears, and it can control the switch ratio of each electronic expansion valve gear ELV1, ELV2 and ELV3.Each electronic expansion valve gear ELV comprises stepper motor or the direct current generator of the switch ratio of electronic expansion valve and the described electronic expansion valve of control.Described freezing controller 210 is controlled the switch ratio of described electronic expansion valve by controlling described stepper motor or direct current generator.By described freezing controller 210 to each electronic expansion valve gear ELV1, the control of ELV2 and ELV3, thus can control accurately the power of heat exchange, and then the temperature of accurate controlled circulation fluid.

In a preferred embodiment, before described refrigerator is opened (after powering on, before opening refrigerator), described freezing controller is controlled described electronic expansion valve and is reset to its mechanical origin, described mechanical origin can be full-gear or full-shut position, in order to follow-uply can carry out accurate positioning control to electronic expansion valve.If be 0% (contract fully) such as original mechanical origin, be 20% if control so the switch ratio of described electronic expansion valve, can control so described stepper motor or direct current generator increases forward 4 steps, every step whole 5%.

In one embodiment, in order to make the machine oil good circulation of refrigerator, when refrigerator was opened, with each electronic expansion valve gear ELV1, the switch ratio of ELV2 and ELV3 was set as the predetermined switch ratio value and moves the scheduled time described freezing controller first.The predetermined switch ratio value can be set as required, such as, can control first the ELV1 full open, the ELV2 full open, the ELV3 contract fully can certainly be the combination of other switch ratio value.The described scheduled time can be set according to actual conditions, such as being set as 1 minute or value At All Other Times.After refrigerator moves the scheduled time, described freezing controller 210 can freely be controlled the switch ratio of each electronic expansion valve gear, namely no longer be subjected to the restriction of predetermined switch ratio value, can control the switch ratio of each electronic expansion valve gear according to other any control mode.

In the present embodiment, described refrigerator 110 comprises that also the suction in the path that is arranged on described refrigerant holds pond 116, receiving tank 117, drier 118 and form 119, the first output port of described condenser 114 is communicated with the input port of described receiving tank 117, the output port of described receiving tank 117 is communicated with the input port of the first electronic expansion valve gear ELV1 and the input port of the 3rd electronic expansion valve gear ELV3 through drier 118 and form 119, the input port that pond 116 is held in described suction is communicated with the output port of the 3rd electronic expansion valve gear ELV3 and the first output port of described heat exchanger 115, and the output port that pond 116 is held in described suction is communicated with the input port of described compressor 112.

Comprise the cooling fluid pathways entrance 122 that is communicated with condenser 114 second input ports and the cooling fluid pathways that is communicated with condenser 114 second output ports outlet 124 at described cooling fluid pathways 120.Described cooling fluid flows into from the second input port of described condenser 114, from the second output port outflow of described condenser 114.In the present embodiment, also be provided with temperature sensor 126 on described cooling fluid pathways 120, it is for detection of the temperature of described cooling fluid.

Comprise the circulation of fluid path entrance 132 that is communicated with the second input port of heat exchanger 115 and the circulation of fluid lane exit 134 that is communicated with heat exchanger 115 second output ports at described circulation of fluid path 130.Described circulation of fluid flows into from the second input port of described heat exchanger 115, from the second output port outflow of heat exchanger 115.Described heat-exchange system also comprises the temperature sensor 136 for detection of described circulation of fluid temperature that is arranged on the described circulation of fluid path 130, the circulation of fluid temperature that detects based on described temperature sensor 136 is controlled the switch ratio of each electronic expansion valve gear ELV1, ELV2 and ELV3, thereby the accurate control of the cold medium flux of refrigerator in the realization heat-exchange system, and then the accurate temperature control of realization controlled device.In the present embodiment, behind described circulation of fluid pipeline entrance 132 with before the described circulation of fluid pipe outlet 134, be respectively arranged with a temperature sensor 136 that detects described circulation of fluid temperature.

In the present embodiment, described heat-exchange system also comprises the circulation of fluid tank 137 that is used for storing described circulation of fluid that is arranged on the described circulation of fluid path, be arranged on the path of described circulation of fluid in order to driving the pump 138 and the motor 139 that flow of described circulation of fluid, and behind described circulation of fluid path entrance 132 and the by-passing valve 133 of described circulation of fluid lane exit 134 front settings.Be provided with heater strip HT in described fluid tank 137, it can come so that described heater strip HT begins or quits work according to the circulation of fluid temperature that described temperature sensor 136 detects.

In the present embodiment, described circulation of fluid is liquid or gas, and described cooling fluid is cooling water.

In sum, heat-exchange system of the present invention is by arranging the first electronic expansion valve gear ELV1 between the first input end mouth of the first output port of described condenser 114 and heat exchanger 115; Between the first input end mouth of the output port of described compressor 112 and heat exchanger 115, the second electronic expansion valve gear ELV2 is set; Between the input port of the first output port of described condenser 114 and described compressor 112, the 3rd electronic expansion valve gear ELV3 is set.Also comprise the temperature sensor 136 for detection of described circulation of fluid temperature that is arranged on the described circulation of fluid path 130 in described heat-exchange system, the circulation of fluid temperature that detects based on described temperature sensor is controlled the switch ratio of each electronic expansion valve gear, thereby the accurate control of the cold medium flux of refrigerator in the realization heat-exchange system, and then the accurate temperature control of realization controlled device.

In addition, because when refrigerator was opened, with each electronic expansion valve gear ELV1, the switch ratio of ELV2 and ELV3 was set as the predetermined switch ratio value and moves the scheduled time described freezing controller first, like this can be so that the machine oil good circulation of refrigerator.

Although described the present invention by embodiment, those of ordinary skills know, the present invention has many distortion and variation and do not break away from spirit of the present invention, wish that appended claim comprises these distortion and variation and do not break away from spirit of the present invention.

Claims (9)

1. heat-exchange system, it comprises refrigerator, and described refrigerator comprises compressor, condenser and heat exchanger, and the refrigerant in the described refrigerator and cooling fluid carry out heat exchange at the condenser place, refrigerant in circulation of fluid and the described refrigerator carries out heat exchange at the heat exchanger place

Described condenser comprises first input end mouth, the first output port that is communicated with the first input end mouth, the second input port and the second output port that is communicated with the second input port, described heat exchanger comprises first input end mouth, the first output port that is communicated with the first input end mouth, the second input port and the second output port that is communicated with the second input port, it is characterized in that

Described refrigerator also comprises the first electronic expansion valve gear, the second electronic expansion valve gear and the 3rd electronic expansion valve gear, the output port of described compressor is connected with the first input end mouth of described condenser, the first output port of described condenser is connected with the first input end mouth of heat exchanger by the first electronic expansion valve gear, the first output port of described heat exchanger is connected with the input port of described compressor, the output port of described compressor also is connected with the first input end mouth of heat exchanger by the second electronic expansion valve gear, and the first output port of described condenser also is connected with the input port of described compressor by the 3rd electronic expansion valve gear;

Described circulation of fluid flows into from the second input port of described heat exchanger, and from the second output port outflow of described heat exchanger, described cooling fluid flows into from the second input port of described condenser, from the second output port outflow of described condenser,

Described refrigerator also comprises the freezing controller of the switch ratio that is used for each electronic expansion valve gear of control that is electrically connected with three electronic expansion valve gears, when described refrigerator was opened, described freezing controller was set as the switch ratio of each electronic expansion valve gear the predetermined switch ratio value and moves the scheduled time first.

2. heat-exchange system according to claim 1 is characterized in that, after the operation scheduled time, described freezing controller is freely controlled the switch ratio of each electronic expansion valve gear at refrigerator.

3. heat-exchange system according to claim 1, it is characterized in that, refrigerant in the described refrigerator has three paths, article one, path is: the refrigerant that flows out from the output port of described compressor, flow back to described compressor through the input port of the first input end mouth of the first input end mouth of described condenser and the first output port, the first electronic expansion valve gear, described heat exchanger and the first output port, compressor; The second path is: the refrigerant that flows out from the output port of described compressor, flow back to described compressor through the input port of the first input end mouth of the second electronic expansion valve gear, described heat exchanger and the first output port, compressor; Article three, path is: the refrigerant that flows out from the output port of described compressor, flow back to described compressor through the input port of the first input end mouth of described condenser and the first output port, the 3rd electronic expansion valve gear, compressor.

4. heat-exchange system according to claim 1, it is characterized in that, described refrigerator comprises that also the suction in the path that is arranged on described refrigerant holds the pond, receiving tank, drier and form, the first output port of described condenser is communicated with the input port of described receiving tank, the output port of described receiving tank is communicated with the input port of the first electronic expansion valve gear and the input port of the 3rd electronic expansion valve gear through drier and form, the input port that the pond is held in described suction is communicated with the output port of the 3rd electronic expansion valve gear and the first output port of described heat exchanger, and the output port that the pond is held in described suction is communicated with the input port of described compressor.

5. heat-exchange system according to claim 1, it is characterized in that, described heat-exchange system also comprises the circulation of fluid tank that is used for storing described circulation of fluid on the path that is arranged at described circulation of fluid, be provided with heater strip in described fluid tank, the circulation of fluid temperature that detects according to described temperature sensor enables described heater strip.

6. heat-exchange system according to claim 5 is characterized in that, described heat-exchange system also comprises pump and the motor that is arranged on the described circulation of fluid path, to drive flowing of described circulation of fluid.

7. heat-exchange system according to claim 1 is characterized in that, described circulation of fluid is liquid or gas, and described cooling fluid is cooling water.

8. heat-exchange system according to claim 1, it is characterized in that, each electronic expansion valve gear comprises stepper motor or the direct current generator of the switch ratio of electronic expansion valve and the described electronic expansion valve of control, and described freezing controller is controlled the switch ratio of described electronic expansion valve by controlling described stepper motor or direct current generator.

9. heat-exchange system according to claim 8 is characterized in that, before described refrigerator was opened, described freezing controller was controlled described electronic expansion valve and is reset to its mechanical origin.

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