CN203203338U - Cooling system - Google Patents

Abstract

A cooling system is suitable for being used for regulating the temperature of mechanical equipment. The mechanical equipment comprises a first mechanical component and a second mechanical component. The cooling system comprises a refrigerant mechanism, a first cooling mechanism and a second cooling mechanism. The first cooling mechanism can output working fluid kept in a first temperature to cool the first mechanical component, and the second cooling mechanism can output working fluid kept in a second temperature to cool the second mechanical component. Therefore, through novel structural design of the first cooling mechanism and the second cooling mechanism in a matched mode, the working fluid of different temperatures can be provided to be matched with the mechanical equipment in use, not only is applicability of the cooling system increased, but also equipment cost can be reduced, and the space occupied by the whole equipment is shortened.

Description

Cooling system

Technical field

The utility model relates to a kind of cooling system, particularly relates to a kind ofly making the drop in temperature of plant equipment or keeping constant cooling system by circulation of fluid.

Background technology

In modern industry, because when plant equipment is processed operation, the mechanical components such as main shaft and gear drive, motor, circuit board or electric-heating assembly easily produce heat when running, and then cause the temperature increase of plant equipment integral body, except meeting affects machining accuracy, too high temperature also can cause the infringement of mechanical component and shorten life-span of plant equipment.

In order to solve aforesaid problem, usually can use cooling system to pass through the temperature that circulation of fluid reduces plant equipment.General cooling system comprises a refrigerant mechanism usually, and a cooling body.This refrigerant mechanism comprises an evaporimeter, and this cooling body comprises a casing that connects this evaporimeter and include working fluid, and one connects this casing and working fluid is squeezed into circulating pump in this plant equipment.Described working fluid can be gas or liquid, and carry out after the heat exchange after the cooling through the evaporimeter of this refrigerant mechanism, by this circulating pump working fluid is delivered to this plant equipment again, just can reduce the temperature of this plant equipment, and plant equipment can be maintained under the suitable temperature process operation.

Yet along with technology evolution, a plant equipment may possess a plurality of mechanical components for difference processing operation simultaneously, and then needs a plurality of cooling systems to cool off aforementioned different mechanical component.But because the different mechanical components cooling rate that need to be cooled and need to keep stationary temperature not necessarily identical, can only export again a kind of working fluid of temperature because of a cooling system, therefore the cooling requirement that a plurality of cooling systems could cooperate different mechanical components certainly will be set, thus, not only take up space and cause the volume of plant equipment integral body to become huge, also can increase equipment cost simultaneously.

Summary of the invention

The purpose of this utility model is the working fluid that a kind of structure innovation is provided and can exports different temperatures cooperating the cooling requirement of different mechanical components, and then saves the cooling system of equipment cost.

The utility model cooling system, be suitable for regulating the temperature of a plant equipment, this plant equipment comprises first mechanical component and second mechanical component, and this cooling system comprises a refrigerant mechanism, and first cooling body, this refrigerant mechanism comprises an evaporimeter, this first cooling body comprises first casing that is used for being installed in working fluid, one passes into the working fluid in this first casing and sends this first casing back to after this evaporimeter cooling again and make working fluid this first casing in maintain the first interior pipe unit of the first temperature, and working fluid that this first casing is interior the first mechanical component of passing into this plant equipment is lowered the temperature and working fluid sent back to the first outer pipe unit in this first casing behind this first mechanical component again.This cooling system also comprises second cooling body, this second cooling body comprises that second casing that is used for being installed in working fluid, one pass into the working fluid in this second casing sends this second casing back to after this first casing cooling again and makes working fluid this second casing in maintain the second interior pipe unit of the second temperature, and working fluid that this second casing is interior the second mechanical component of passing into this plant equipment is lowered the temperature and working fluid sent back to the second outer pipe unit in this second casing behind this second mechanical component again.

Cooling system described in the utility model, the second interior pipe unit of this second cooling body has second efferent duct that the working fluid in this second casing is passed into this first casing, and one be combined the second switch valve of installing with this second efferent duct, this second cooling body also comprises the temperature of the working fluid of a detecting in this second casing and controls the second temperature-sensitive control module of this second switch valve, when the temperature that this second temperature-sensitive control module detects the working fluid in this second casing is higher than the second temperature, open this second switch valve and make working fluid flow into this first casing cooling by this second casing, detect temperature in this second casing when being down to the second temperature at this second temperature-sensitive control module, close this second switch valve.

Cooling system described in the utility model, the first outer pipe unit of this first cooling body has first outer tube that passes this first casing and this first mechanical component, and one be combined with this first outer tube install and make working fluid flow into this first mechanical component by this first casing after flow back to again the first outer pump of this first casing, the second interior pipe unit of this second cooling body also has one and is communicated with this first outer tube and this first outer pump is carried and the working fluid that comes passes into the second input pipe of this second casing.

Cooling system described in the utility model, this plant equipment also comprises the 3rd mechanical component, this cooling system also comprises the 3rd cooling body that is used for the temperature of adjusting the 3rd mechanical component, the 3rd cooling body comprises the 3rd casing that is used for being installed in working fluid, one passes into the working fluid in the 3rd casing and sends the 3rd casing back to after this first casing cooling again and make working fluid the 3rd casing in maintain the 3rd interior pipe unit of the 3rd temperature, and working fluid that the 3rd casing is interior passes into the 3rd mechanical component and lowers the temperature and working fluid is sent back to the 3rd outer pipe unit in the 3rd casing behind the 3rd mechanical component again.

Cooling system described in the utility model, the 3rd interior pipe unit of the 3rd cooling body has the 3rd efferent duct that the working fluid in the 3rd casing is passed into this first casing, and one be combined the 3rd switch valve of installing with the 3rd efferent duct, the 3rd cooling body also comprises the temperature of a working fluid in detecting the 3rd casing and controls the 3rd temperature-sensitive control module of the 3rd switch valve, when the temperature that detects the working fluid in the 3rd casing at the 3rd temperature-sensitive control module is higher than the 3rd temperature, open the 3rd switch valve and make working fluid flow into this first casing cooling by the 3rd casing, when the temperature that detects the working fluid in the 3rd casing at the 3rd temperature-sensitive control module is got back to the 3rd temperature, close the 3rd switch valve.

Cooling system described in the utility model, the 3rd interior pipe unit of the 3rd cooling body also have the 3rd input pipe that a working fluid of this second input pipe being carried and coming passes into the 3rd casing.

Cooling system described in the utility model, the first interior pipe unit of this first cooling body has first inner tube that passes this first casing and this evaporimeter, and one be combined with this first inner tube install and make working fluid flow into this evaporimeter by this first casing after flow back to again the first interior pump of this first casing, the second outer pipe unit of this second cooling body has second outer tube that passes this second casing and this second mechanical component, and one be combined with this second outer tube install and make working fluid flow into this second mechanical component by this second casing after flow back to again the second outer pump of this second casing, the 3rd outer pipe unit of the 3rd cooling body has the 3rd outer tube that passes the 3rd casing and the 3rd mechanical component, and one be combined with the 3rd outer tube install and make working fluid flow into the 3rd mechanical component by the 3rd casing after flow back to again the 3rd outer pump of the 3rd casing.

Cooling system described in the utility model, this refrigerant mechanism also comprises a fan, and with this evaporimeter composition closed loop and interior filling a compressor of refrigerant, a condenser, a coolant drying device and a refrigerant expansion valve is arranged.

Cooling system described in the utility model, this second cooling body also comprise being combined with this second casing for one to be installed and can be driven by this second temperature-sensitive control module and heat the second heating unit of the working fluid in this second casing.

Cooling system described in the utility model, the 3rd cooling body also comprise being combined with the 3rd casing for one to be installed and can be driven by the 3rd temperature-sensitive control module and heat the 3rd heating unit of the working fluid in the 3rd casing.

The beneficial effects of the utility model are: the innovation structure design that this first cooling body and this second cooling body cooperatively interact, can provide the working fluid of different temperatures to cooperate this plant equipment to use, not only increase applicability of the present utility model, also can reduce equipment cost and dwindle the occupied space of volume of integral device simultaneously.

Description of drawings

Fig. 1 is the schematic diagram of first preferred embodiment of the utility model cooling system; And

Fig. 2 is the schematic diagram of second preferred embodiment of the utility model cooling system.

The specific embodiment

Below in conjunction with drawings and Examples the utility model is elaborated, is noted that in the following description content, similarly assembly represents with identical numbering.

Consult Fig. 1, the first preferred embodiment of the utility model cooling system is fit to a plant equipment 9 in conjunction with installing and using, thereby regulates the temperature of this plant equipment 9, and this plant equipment 9 can be maintained under the suitable temperature process operation.This plant equipment 9 comprises first mechanical component 91 that is adapted at operation under the first temperature, and second mechanical component 92 that is adapted at operation under the second temperature.Wherein, this second temperature is higher than this first temperature.

On the implementation, described plant equipment 9 can for ejaculator, blow moulding machine, semiconductor manufacturing facility, panel manufacturing equipment, CNC wire cutting machine, laser machine, PCB drilling machine, sheet material extruder, film machine, printing machine, cycle machine, foaming machine, supersonic machine, food processing equipment, chemical device, Medical Devices, hydraulic press or other electric equipment that need to cool off etc., no longer be given an example.In addition, described plant equipment 9 device that can certainly combine for aforementioned equipment of giving an example.

And the utility model cooling system comprises: a refrigerant mechanism 1, first cooling body 2 for the temperature of the first mechanical component 91 of regulating this plant equipment 9, and second cooling body 3 for the temperature of the second mechanical component 92 of regulating this plant equipment 9.

The refrigerant mechanism 1 of the present embodiment comprises a fan 11, an evaporimeter 12, and form closed loop with this evaporimeter 12 and interior filling has a compressor 13 of refrigerant, a condenser 14, a coolant drying device 15 and a refrigerant expansion valve 16, wherein, this fan 11 can be driven and be rotated, thereby suitable condensation radiating effect is provided.Because how this refrigerant mechanism 1 to operate refrigeration, and refrigerant is how at the emphasis of all non-the utility model improvement of this refrigerant mechanism 1 interior formation freeze cycle, no longer explanation.But need to prove, the present embodiment is the temperature that reduces this condenser 14 by these fan 11 blow air, that is to say that this refrigerant mechanism 1 is air-cooled form.Yet on the implementation, this refrigerant mechanism 1 also can be water-cooled form, and reduces the temperature of this condenser 14 by water.Therefore on the implementation, this refrigerant mechanism 1 is not limited to the disclosed form of the present embodiment.

First cooling body 2 of the present embodiment comprises first casing 21 that is used for being installed in working fluid, one passes into the working fluids in this first casing 21 and sends this first casing 21 back to after these evaporimeter 12 coolings again and make working fluid maintain the first interior pipe unit 22 of the first temperature, first mechanical component 91 that working fluids in this first casing 21 are passed into this plant equipment 9 is lowered the temperature and working fluid is sent back to the first outer pipe unit 23 in this first casing 21 behind this first mechanical component 91 again, and one with the first temperature-sensitive control module 24 of this first casing 21 in conjunction with the temperature of installing and can detect the interior working fluid of this first casing 21.Working fluid is maintained the emphasis of the non-the utility model improvement of operating principle of the first temperature as for this first cooling body 2, be not described in detail in this.

This first interior pipe unit 22 has first inner tube 221 that passes this first casing 21 and this evaporimeter 12, and one with this first inner tube 221 in conjunction with install and make working fluid by these first casing, 21 these evaporimeters 12 of inflow after flow back to again the first interior pump 222 of this first casing 21.This first outer pipe unit 23 has first outer tube 231 that passes this first casing 21 and this first mechanical component 91, and one with this first outer tube 231 in conjunction with install and make working fluid by these first casing, 21 these first mechanical components 91 of inflow after flow back to again the first outer pump 232 of this first casing 21.This first outer tube 231 have one with this first outer pump 232 in conjunction with the first deferent segment 233 of installing and working fluid being carried towards this first mechanical component 91 by this first casing 21, and first input section 234 that working fluid is carried towards this first casing 21 by this first mechanical component 91.

Second cooling body 3 of the present embodiment comprises second casing 31 that is used for being installed in working fluid, one passes into the working fluids in this second casing 31 and sends this second casing 31 back to after these first casing, 21 coolings again and make working fluid maintain the second interior pipe unit 32 of the second temperature, second mechanical component 92 that working fluids in this second casing 31 are passed into this plant equipment 9 is lowered the temperature and working fluid is sent back to the second outer pipe unit 33 in this second casing 31 behind this second mechanical component 92 again, a second temperature-sensitive control module 34 that is used for the temperature of the working fluid in this second casing 31 of detecting, and one be heated the second heating unit 35 of the interior working fluid of this second casing 31 with this second casing 31 in conjunction with installing and can being driven by this second temperature-sensitive control module 34.

This second interior pipe unit 32 has second efferent duct 321, that the working fluids in this second casing 31 is passed into this first casing 21 and this second efferent duct 321 in conjunction with the second switch valve 322 of installing, and one is communicated with this first outer tube 231 and this first outer pump 232 is carried and next working fluid passes into the second input pipe 323 of this second casing 31.

This second outer pipe unit 33 has second outer tube 331 that passes this second casing 31 and this second mechanical component 92, and one with this second outer tube 331 in conjunction with install and make working fluid by these second casing, 31 these second mechanical components 92 of inflow after flow back to again the second outer pump 332 of this second casing 31.This second outer tube 331 have one with this second outer pump 332 in conjunction with the second deferent segment 333 of installing and working fluid being carried towards this second mechanical component 92 by this second casing 31, and second input section 334 that working fluid is carried towards this second casing 31 by this second mechanical component 92.

This second temperature-sensitive control module 34 comprise one with second temperature measurement one 341 of this second casing 31 in conjunction with the temperature of installing and can detect the working fluid in this second casing 31, and one be electrically connected this second temperature measurement one 341 but scheme unshowned the second control module.

This second control module can be controlled the running of this second switch valve 322 and this second heating unit 35.When the temperature of the working fluid in this second temperature measurement one 341 detects this second casing 31 is higher than the second temperature, this the second control module can be opened this second switch valve 322 and make working fluid flow into this first casing 21 coolings by this second casing 31, and the temperature in this second temperature measurement one 341 detects this second casing 31 is when being down to the second temperature, and this second control module then can be closed this second switch valve 322.

In addition, when the temperature in this second temperature measurement one 341 detects this second casing 31 is lower than the second temperature, this the second control module then can start this second heating unit 35 and come heated working fluid, when the temperature of working fluid is got back to the second temperature by the time, just close this second heating unit 35, and then make the temperature of working fluid keep constant.Because the structure of the structure of this second heating unit 35, this second control module, and this second control module is controlled the emphasis of all non-the utility model improvement of circuit design of this second switch valve 322 and this second heating unit 35, no longer explanation.

Yet need to prove, first casing 21 of the present embodiment is an open casing, and this second casing 31 is the casing of a closed, and in the present embodiment, this first casing 21 and the second casing 31 are all water tank, and make water as working fluid.This first casing 21 also can be fuel tank or gas tank with this second casing 31, and uses oil or gas as working fluid, decides on demand when therefore implementing, and need not limit at this yet on the implementation.

During use, this first cooling body 2 by this first outer pump 232 with the lower working fluid of these the first casing 21 interior temperature, pass in the first mechanical component 91 of this plant equipment 9 via the first deferent segment 233 of this first outer tube 231, by producing the temperature that heat exchange reduces this first mechanical component 91 between working fluid and this first mechanical component 91, this first mechanical component 91 can be maintained under the first temperature process operation.Then, first of this first outer tube 231 the input section 234 is transmitted back to the working fluid of increase in temperature in this first casing 21 again.

At the same time, this first interior pump 222 also can be constantly with the working fluid in this first casing 21, transfer towards the evaporimeter 12 of this refrigerant mechanism 1 via this first inner tube 221, working fluid is through the heat exchange of this evaporimeter 12 and after lowering the temperature, send back in this first casing 21 via this first inner tube 221 working fluid that temperature is lower again, thereby make the temperature of the working fluid in this first casing 21 can maintain the first temperature, to cooperate the cooling demand of this first mechanical component 91.

On the other hand, this second cooling body 3 by this second outer pump 332 with the lower working fluid of these the second casing 31 interior temperature, pass in the second mechanical component 92 of this plant equipment 9 via the second deferent segment 333 of this second outer tube 331, by producing the temperature that heat exchange reduces this second mechanical component 92 between working fluid and this second mechanical component 92, this second mechanical component 92 can be maintained under the second temperature process operation.Then, the second input section 334 of this second outer tube 331 is transmitted back to the working fluid of increase in temperature in this second casing 31 again, thereby little by little increases the temperature of the working fluid in this second casing 31.

At the same time, the second temperature measurement one 341 of this second temperature-sensitive control module 34 can be detected the temperature of the working fluid in this second casing 31 constantly, when the temperature that detects working fluid when this second temperature measurement one 341 is higher than the second temperature, the second control module of this second temperature-sensitive control module 34 can be opened this second switch valve 322, and make this second efferent duct 321 that the higher working fluid of these the second casing 31 interior temperature is passed into this first casing 21 coolings, and this second input pipe 323 just can these the first casing 21 interior temperature are lower working fluid be transmitted back in this second casing 31 by the second input pipe 323 of this second interior pipe unit 32, thereby reduce the temperature of this second casing 31.

When the temperature in this second temperature measurement one 341 detects this second casing 31 is down to the second temperature, this the second control module then can be closed this second switch valve 322, this second efferent duct 321 was closed and the working fluids in this second casing 31 can't be passed into this first casing 21 this moment, and then can avoid the temperature continuous decrease of this working fluid and be lower than the second temperature.In addition, if when the temperature of the working fluid in this second casing 31 is lower than the second temperature, also can come heated working fluid by this second heating unit 35.Therefore, the temperature of the working fluid in this second casing 31 can maintain the second temperature, to cooperate the cooling demand of this second mechanical component 92.

What further specify is, the temperature that this second cooling body 3 provides also can be identical with 2 temperature that can provide of this first cooling body, that is to say, this second temperature also can be identical with this first temperature.Because this first cooling body 2 can adjust according to the cooling requirement of this plant equipment 9 with 3 chilling temperatures that can provide of this second cooling body, so not take the disclosed form of the present embodiment as restriction.

In sum, can only export a kind of working fluid of temperature compared to general cooling system, cause the user that the cooling requirement that a plurality of cooling systems could cooperate different mechanical components must be set, thereby cause equipment volume to become huge and increase the problem such as equipment cost.Because first cooling body 2 of the present embodiment can be exported the working fluid that maintains the first temperature and cool off this first mechanical component 91, and this second cooling body 3 can be exported the working fluid that maintains the second temperature and cools off this second mechanical component 92.Therefore, the innovation structure that cooperatively interacts by this first cooling body 2 and this second cooling body 3 designs, and then the working fluid that different temperatures can be provided is to cooperate this plant equipment 9 to use, not only increase the applicability of the present embodiment, also can reduce equipment cost and dwindle the occupied space of volume of integral device simultaneously.

Consult Fig. 2, the second preferred embodiment of the utility model cooling system is identical with this first preferred embodiment haply, difference between the two is: this plant equipment 9 also comprises the 3rd mechanical component 93 that is adapted at operation under the 3rd temperature, and the 3rd temperature is higher than the first temperature, and this cooling system also comprises the 3rd cooling body 4 that is used for the temperature of adjusting the 3rd mechanical component 93.

The 3rd cooling body 4 of the present embodiment is identical with this second cooling body 3 haply, and comprise one for the 3rd casing 41 that is installed in working fluid, one passes into the working fluids in the 3rd casing 41 and sends the 3rd casing 41 back to after these first casing, 21 coolings again and make working fluid maintain the 3rd interior pipe unit 42 of the 3rd temperature, one passes into the 3rd mechanical component 93 with the working fluids in the 3rd casing 41 and lowers the temperature and working fluid is sent back to the 3rd outer pipe unit 43 in the 3rd casing 41 behind the 3rd mechanical component 93 again, the 3rd a temperature-sensitive control module 44 that is used for the temperature of the working fluid in detecting the 3rd casing 41, and one be heated the 3rd heating unit 45 of the interior working fluid of the 3rd casing 41 with the 3rd casing 41 in conjunction with installing and can being driven by the 3rd temperature-sensitive control module 44.

The 3rd interior pipe unit 42 has the 3rd efferent duct 421, that the working fluids in the 3rd casing 41 is passed into this first casing 21 and the 3rd efferent duct 421 in conjunction with the 3rd switch valve 422 of installing, and second input pipe 323 with this second interior pipe unit 32 carry and working fluid pass into the 3rd input pipe 423 of the 3rd casing 41.

The 3rd outer pipe unit 43 has the 3rd outer tube 431 that passes the 3rd casing 41 and the 3rd mechanical component 93, and one with the 3rd outer tube 431 in conjunction with install and make working fluid by the 3rd casing 41 inflows the 3rd mechanical component 93 after flow back to again the 3rd outer pump 432 of the 3rd casing 41.The 3rd outer tube 431 have one with the 3rd outer pump 432 in conjunction with the 3rd deferent segment 433 of installing and working fluid being carried towards the 3rd mechanical component 93 by the 3rd casing 41, and the 3rd input section 434 that working fluid is carried towards the 3rd casing 41 by the 3rd mechanical component 93.

The 3rd temperature-sensitive control module 44 comprise one with three temperature measurement one 441 of the 3rd casing 41 in conjunction with the temperature of installing and can detect the working fluid in the 3rd casing 41, and one be electrically connected the 3rd temperature measurement one 441 but scheme unshowned the 3rd control module, wherein, the 3rd control module can be controlled the running of the 3rd switch valve 422 and the 3rd heating unit 45.

During use, this first cooling body 2 carries out the cooling down operation to this first mechanical component 91 with this second mechanical component 92 respectively with this second cooling body 3, and after the 3rd cooling body 4 passes into the 3rd mechanical component 93 by the 3rd outer pipe unit 43 with the lower working fluid of the 3rd casing 41 interior temperature, again the working fluid of increase in temperature is transmitted back in the 3rd casing 41, processes operation thereby cool off the 3rd mechanical component 93 and can maintain under the 3rd temperature.

At this moment, the 3rd temperature measurement one 441 of the 3rd temperature-sensitive control module 44 can be detected the temperature of the working fluid in the 3rd casing 41 constantly, when the temperature that detects working fluid when the 3rd temperature measurement one 441 is higher than the 3rd temperature, the 3rd control module can be opened the 3rd switch valve 422, and make the 3rd efferent duct 421 the higher working fluid of the 3rd casing 41 interior temperature can be passed into this first casing 21 coolings, and the 3rd input pipe 423 just can these the first casing 21 interior temperature are lower working fluid be transmitted back in the 3rd casing 41 by this second input pipe 323, thereby reduce the temperature of the working fluid in the 3rd casing 41.

When the temperature that detects the 3rd casing 41 interior working fluids when the 3rd temperature measurement one 441 is down to the 3rd temperature, the 3rd control module then can be closed the 3rd switch valve 422, the fluid that quits work passes into this first casing 21, and then the temperature that makes the working fluid in the 3rd casing 41 can maintain the 3rd temperature and no longer decline, to cooperate the cooling demand of the 3rd mechanical component 93.In addition, when the temperature in the 3rd temperature measurement one 441 detects the 3rd casing 41 is lower than the second temperature, this the second control module then can start the 3rd heating unit 45 and come heated working fluid, when the temperature of working fluid is got back to the 3rd temperature by the time, just close the 3rd heating unit 45, and then make the temperature of working fluid can keep constant.

What further specify is, the temperature that the temperature that this second cooling body 3 provides and the 3rd cooling body 4 provide can be identical or different, that is to say, the second temperature and the 3rd temperature can be identical or different.Similarly, the 3rd temperature also can be identical with the first temperature, can adjust on demand when therefore implementing, and do not need in this special restriction.In addition, on the implementation, also can set up again on demand a plurality of cooling bodies with the cooling requirement of a plurality of mechanical components of cooperating this plant equipment 9, so the quantity of the cooling body of this cooling system is not take the disclosed form of the present embodiment as restriction.

By above explanation as can be known, compared to this first preferred embodiment, the present embodiment has increased the structural design of the 3rd cooling body 4, and then the working fluid that more kinds of different temperatures can be provided to be cooperating this plant equipment 9 to use, so the applicability of the present embodiment is better than this first preferred embodiment especially.

Claims (10)

1. cooling system, be suitable for regulating the temperature of a plant equipment, this plant equipment comprises first mechanical component and second mechanical component, and this cooling system comprises a refrigerant mechanism, and first cooling body, this refrigerant mechanism comprises an evaporimeter, this first cooling body comprises first casing that is used for being installed in working fluid, one passes into the working fluid in this first casing and sends this first casing back to after this evaporimeter cooling again and make working fluid this first casing in maintain the first interior pipe unit of the first temperature, and working fluid that this first casing is interior the first mechanical component of passing into this plant equipment is lowered the temperature and working fluid sent back to the first outer pipe unit in this first casing behind this first mechanical component again; It is characterized in that: this cooling system also comprises second cooling body, this second cooling body comprises that second casing that is used for being installed in working fluid, one pass into the working fluid in this second casing sends this second casing back to after this first casing cooling again and makes working fluid this second casing in maintain the second interior pipe unit of the second temperature, and working fluid that this second casing is interior the second mechanical component of passing into this plant equipment is lowered the temperature and working fluid sent back to the second outer pipe unit in this second casing behind this second mechanical component again.

2. cooling system according to claim 1, it is characterized in that: the second interior pipe unit of this second cooling body has second efferent duct that the working fluid in this second casing is passed into this first casing, and one be combined the second switch valve of installing with this second efferent duct, this second cooling body also comprises the temperature of a working fluid in this second casing of detecting and controls the second temperature-sensitive control module of this second switch valve, when the temperature that this second temperature-sensitive control module detects the working fluid in this second casing is higher than the second temperature, open this second switch valve and make working fluid flow into this first casing cooling by this second casing, detect temperature in this second casing when being down to the second temperature at this second temperature-sensitive control module, close this second switch valve.

3. cooling system according to claim 2, it is characterized in that: the first outer pipe unit of this first cooling body has first outer tube that passes this first casing and this first mechanical component, and one be combined with this first outer tube install and make working fluid flow into this first mechanical component by this first casing after flow back to again the first outer pump of this first casing, the second interior pipe unit of this second cooling body also has one and is communicated with this first outer tube and this first outer pump is carried and the working fluid that comes passes into the second input pipe of this second casing.

4. cooling system according to claim 3, it is characterized in that: this plant equipment also comprises the 3rd mechanical component, this cooling system also comprises the 3rd cooling body that is used for the temperature of adjusting the 3rd mechanical component, the 3rd cooling body comprises the 3rd casing that is used for being installed in working fluid, one passes into the working fluid in the 3rd casing and sends the 3rd casing back to after this first casing cooling again and make working fluid the 3rd casing in maintain the 3rd interior pipe unit of the 3rd temperature, and working fluid that the 3rd casing is interior passes into the 3rd mechanical component and lowers the temperature and working fluid is sent back to the 3rd outer pipe unit in the 3rd casing behind the 3rd mechanical component again.

5. cooling system according to claim 4, it is characterized in that: the 3rd interior pipe unit of the 3rd cooling body has the 3rd efferent duct that the working fluid in the 3rd casing is passed into this first casing, and one be combined the 3rd switch valve of installing with the 3rd efferent duct, the 3rd cooling body also comprises the temperature of a working fluid in detecting the 3rd casing and controls the 3rd temperature-sensitive control module of the 3rd switch valve, when the temperature that detects the working fluid in the 3rd casing at the 3rd temperature-sensitive control module is higher than the 3rd temperature, open the 3rd switch valve and make working fluid flow into this first casing cooling by the 3rd casing, when the temperature that detects the working fluid in the 3rd casing at the 3rd temperature-sensitive control module is got back to the 3rd temperature, close the 3rd switch valve.

6. cooling system according to claim 5 is characterized in that: the 3rd interior pipe unit of the 3rd cooling body also has the 3rd input pipe that a working fluid of this second input pipe being carried and coming passes into the 3rd casing.

7. cooling system according to claim 6, it is characterized in that: the first interior pipe unit of this first cooling body has first inner tube that passes this first casing and this evaporimeter, and one be combined with this first inner tube install and make working fluid flow into this evaporimeter by this first casing after flow back to again the first interior pump of this first casing, the second outer pipe unit of this second cooling body has second outer tube that passes this second casing and this second mechanical component, and one be combined with this second outer tube install and make working fluid flow into this second mechanical component by this second casing after flow back to again the second outer pump of this second casing, the 3rd outer pipe unit of the 3rd cooling body has the 3rd outer tube that passes the 3rd casing and the 3rd mechanical component, and one be combined with the 3rd outer tube install and make working fluid flow into the 3rd mechanical component by the 3rd casing after flow back to again the 3rd outer pump of the 3rd casing.

8. cooling system according to claim 7, it is characterized in that: this refrigerant mechanism also comprises a fan, and with this evaporimeter composition closed loop and interior filling a compressor of refrigerant, a condenser, a coolant drying device and a refrigerant expansion valve is arranged.

9. cooling system according to claim 2 is characterized in that: this second cooling body also comprises being combined with this second casing for one to be installed and can be driven by this second temperature-sensitive control module and heat the second heating unit of the working fluid in this second casing.

10. cooling system according to claim 5 is characterized in that: the 3rd cooling body also comprises being combined with the 3rd casing for one to be installed and can be driven by the 3rd temperature-sensitive control module and heat the 3rd heating unit of the working fluid in the 3rd casing.

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