CN203704768U - Temperature-control water cooling system - Google Patents

Abstract

A temperature-control water cooling system comprises a main circulating water channel, multiple branch circulating water channels and a control system, wherein the main circulating water channel comprises a water tank and a heat dissipation assembly connected with the water tank; the control system is electrically connected with the heat dissipation assembly; multiple ports connected with the branch circulating water channels are arranged on a water outlet pipeline of the main circulating water channel; each branch circulating water channel comprises a water pump and cooling equipment, two ends of each water pump are connected with each port and one end of each cooling equipment respectively, and the other end of each cooling equipment is connected with the water tank; the control system is electrically connected with the water pumps. According to the temperature-control water cooling system, multiple water cooling systems are integrated into one temperature-control system, so that control environments of different working platforms can be ensured to be consistent, theultra-clean chamber space can also be saved, energy conservation and consumption reduction can be realized, and the production cost can be saved.

Description

A kind of temperature control water cooling system

Technical field

The utility model relates to technical field of refrigerating devices, is specifically related to a kind of temperature control water cooling system.

Background technology

In industrial production and scientific experiment, conventionally there are multiple platforms of simultaneously working to need cooling, traditional cooling procedure to adopt temperature control water cooling system corresponding to different operating platform, each temperature control water cooling system works alone, as the debugging of ultra-clean chamber mini-bus bar.Owing to there are differences between different temperature control water cooling systems, be difficult to guarantee that the cooler environment of bar bar debugging is consistent; In addition, because the distance between each water cooling unit and platform is different, pipeline structure difference, water quality also may produce difference, and in traditional temperature control water cooling system, cooling water enters Ba Tiaoqian and lacks necessary processing, is difficult to guarantee water quality, thus the degree of accuracy of impact bar bar debugging.

Utility model content

The purpose of this utility model is to provide a kind of temperature control water cooling system, adopts multiple temperature control water cooling systems that work alone to solve above-mentioned cooling procedure, is difficult to the problem that guarantees that cooler environment is consistent.

Technical scheme is as follows:

A kind of temperature control water cooling system, comprises major cycle water route, multiple points of circulation waterways and the control system of moving for controlling temperature control water cooling system; Wherein,

Major cycle water route comprises water tank and the radiating subassembly for cooling circulating water, and described water tank is connected with described radiating subassembly, and described control system is electrically connected with described radiating subassembly;

The outlet pipeline in major cycle water route is provided with multiple for connecting the interface of described point circulation waterway;

Described point of circulation waterway comprises water pump and the cooling device for cooling tested object, the two ends of described water pump are connected with one end of described interface and described cooling device respectively, the other end of described cooling device is connected with described water tank, and described control system is electrically connected with described water pump.

Further: described major cycle water route also comprises debugging valve and coarse filter element, described debugging valve and described coarse filter element are successively set on the outlet pipeline between described water tank and described interface along water (flow) direction, and described coarse filter element is for filtering the particle of particle diameter >=5 micron.

Further: on the outlet pipeline between described coarse filter element and described interface, to be also useful on the branch road of removing recirculated water intermediate ion, described branch road comprises circulating pump and ion tank, described circulating pump, described ion tank are connected successively with described water tank, and described control system is electrically connected with described circulating pump.

Further: described branch road also comprises first flow control valve, second adjustable valve and resin coarse filter element, described circulating pump is connected with first flow control valve and second adjustable valve respectively, the other end of described first flow control valve is connected with described water tank, described second adjustable valve is arranged between described ion tank and described circulating pump, described resin coarse filter element is arranged between described ion tank and described water tank, and described control system is electrically connected with described first flow control valve and described second adjustable valve respectively.

Further: described point of circulation waterway also comprises smart filter core, the first hydraulic pressure sensor, the first temperature sensor, first flow sensor and return water temperature sensor, described smart filter core, described the first hydraulic pressure sensor, described the first temperature sensor and described first flow sensor are successively set on the outlet pipeline between described water pump and described cooling device along water (flow) direction; Described return water temperature sensor setting is on the water return pipeline between described cooling device and described water tank; Described the first hydraulic pressure sensor, described the first temperature sensor, described first flow sensor and described return water temperature sensor are electrically connected with described control system respectively.

Further: described point of circulation waterway also comprises water one-way valve, outlet valve, delivery port, water return outlet, back-water valve (BWV) and backwater check valve, described in go out water one-way valve, described outlet valve and described delivery port and be successively set between described first flow sensor and described cooling device along water (flow) direction; Described water return outlet, described back-water valve (BWV) and described backwater check valve are successively set between described cooling device and described return water temperature sensor along water (flow) direction; Described water one-way valve, described outlet valve, described back-water valve (BWV) and described backwater check valve are electrically connected with described control system respectively.

Further: described point of circulation waterway also comprises the 3rd flow control valve, considers front Pressure gauge and consider rear Pressure gauge, after the front Pressure gauge of described worry and described worry, Pressure gauge is separately positioned on the front and back of described smart filter core, and described the 3rd flow control valve is arranged between described water pump and the front Pressure gauge of described worry; Before described the 3rd flow control valve, described worry, after Pressure gauge, described worry, Pressure gauge is electrically connected with described control system.

Further: between described delivery port and described cooling device, be also provided with the water-cooled terminal for test loop coolant-temperature gage and ion degree, described water-cooled terminal comprises transfer tube delivery port, the second temperature sensor, the second hydraulic pressure sensor, ion degree sensor, second quantity sensor, goes out water solenoid valve and outlet pipe converting interface, return pipe converting interface, backwater magnetic valve, bypass magnetic valve and transfer tube water return outlet;

The transfer tube delivery port of described delivery port and described water-cooled terminal is connected, and on the outlet pipeline of described water-cooled terminal, is provided with successively the second temperature sensor, the second hydraulic pressure sensor, ion degree sensor, second quantity sensor, goes out water solenoid valve and outlet pipe converting interface along water (flow) direction; On the water return pipeline of described water-cooled terminal, be provided with successively return pipe converting interface, backwater magnetic valve, bypass magnetic valve and transfer tube water return outlet along water (flow) direction;

Described transfer tube water return outlet is connected with described water return outlet, and the two ends of described cooling device are connected with described outlet pipe converting interface and described return pipe converting interface respectively.

Further: described water-cooled terminal also comprises impulse controller, described the second temperature sensor, described the second hydraulic pressure sensor, described ion degree sensor, described second quantity sensor, described in go out water solenoid valve, described backwater magnetic valve and described bypass magnetic valve and be electrically connected with described impulse controller respectively.

Further: described control system is programmable logic controller (PLC) PLC.

The beneficial effects of the utility model are:

1, multiple water-cooling systems are integrated into a temperature control system by the utility model, both can guarantee that controling environment of different operating platform is consistent, also can save ultra-clean chamber space, energy-saving and cost-reducing, saving production cost.

2, the utility model enters tested object (as bar bar) at cooling water and accesses before water-cooled terminal, thereby guarantees the unimpeded of major cycle water route, and the cooling water parameter that enters tested object meets the demands, and tested object is played a protective role.

Accompanying drawing explanation

The structural representation of temperature control water cooling system in Fig. 1 embodiment 1;

The structural representation of temperature control water cooling system in Fig. 2 embodiment 8;

The structural representation of temperature control water cooling system in Fig. 3 embodiment 11;

The structural representation of water-cooled terminal in Fig. 4 embodiment.

The specific embodiment

Below with reference to the accompanying drawings and in conjunction with the embodiments, describe the utility model in detail.

Integral Thought of the present utility model:

Multiple workbenches are adopted to lump temperature controlling mode, adopt enough large water tank, utilize respectively multiple independently circulating pumps to complete the Water-cooling circulating of corresponding workbench; For guaranteeing the unimpeded of major cycle water route; and the water parameter that enters tested object meets the demands, before entering bar bar, cooling water accesses intelligent water-cooled terminal, temperature and the ion degree of test cooling water; assurance enters the water quality of the cooling water of bar bar, and bar bar is played a protective role.

Embodiment 1

As shown in Figure 1, a kind of temperature control water cooling system, comprises major cycle water route, multiple points of circulation waterways and the control system of moving for controlling temperature control water cooling system.Wherein:

Major cycle water route comprises water tank 10 and the radiating subassembly 20 for cooling circulating water, water tank 10 is connected with radiating subassembly 20, radiating subassembly 20 includes but not limited to: evaporation coil, compressor and condenser connect and compose radiating subassembly 20 successively, evaporation coil is positioned at water tank 10, compressor assembly and condenser assembly are positioned at outside water tank 10, evaporation coil and condenser pass through compressor heat-shift, thereby make the circulating water cooling in water tank 10.Control system is electrically connected with radiating subassembly 20.

The outlet pipeline in major cycle water route is provided with multiple for connecting the interface of point circulation waterway.

Divide circulation waterway to comprise water pump 101 and the cooling device 102 for cooling tested object, the two ends of water pump 101 are connected with one end of interface and cooling device 102 respectively, and the other end of cooling device 102 is connected with water tank 10.Control system is electrically connected with water pump 101.

Control system is programmable logic controller (PLC) (Programmable Logic Controller, PLC) equal controller.Control system is opened water pump 101, recirculated water is flowed out by water tank 10 under the dynamic action of water pump 101, flow into respectively multiple points of circulation waterways through interface, the water pump 101 of flowing through arrives cooling device 102, the heat of debugger object is taken away, and now circulating water temperature raises and returns to water tank 10 as backwater, by the evaporation coil in water tank 10 and outside condenser heat-shift, make the circulating water cooling in water tank 10, complete cool cycles one time.

Embodiment 2

On the basis of embodiment 1 scheme, major cycle water route also comprises debugging valve 11 and coarse filter element 12, debugging valve 11 and coarse filter element 12 are successively set on the outlet pipeline between water tank 10 and interface along water (flow) direction, and coarse filter element 12 is for filtering the particle of particle diameter >=5 micron.Control system is PLC equal controller.

Embodiment 3

On the basis of embodiment 1 or 2 schemes, on outlet pipeline between coarse filter element 12 and interface, be also useful on the branch road of removing recirculated water intermediate ion, branch road comprises circulating pump 13 and ion tank 16, and circulating pump 13, ion tank 16 and water tank 10 are connected successively, and control system is electrically connected with circulating pump 13.Control system is PLC equal controller.

Embodiment 4

On the basis of embodiment 3 schemes, branch road also comprises first flow control valve 14, second adjustable valve 15 and resin coarse filter element 17, circulating pump 13 is connected 15 with first flow control valve 14 and second adjustable valve respectively, the other end of first flow control valve 14 is connected with water tank 10, second adjustable valve 15 is arranged between ion tank 16 and circulating pump 13, resin coarse filter element 17 is arranged between ion tank 16 and water tank 10, and control system is electrically connected with first flow control valve 14 and second adjustable valve 15 respectively.Control system is PLC equal controller.

Embodiment 5

On the basis of embodiment 3 schemes, divide circulation waterway also to comprise smart filter core 105, the first hydraulic pressure sensor 107, the first temperature sensor 108, first flow sensor 109 and return water temperature sensor 116, smart filter core 105, the first hydraulic pressure sensor 107, the first temperature sensor 108 and first flow sensor 109 are successively set on the outlet pipeline between water pump 101 and cooling device 102 along water (flow) direction; Return water temperature sensor 116 is arranged on the water return pipeline between cooling device 102 and water tank 10; The first hydraulic pressure sensor 107, the first temperature sensor 108, first flow sensor 109 and return water temperature sensor 116 are electrically connected with control system respectively.Control system is PLC equal controller.

Embodiment 6

On the basis of embodiment 5 schemes, divide circulation waterway also to comprise water one-way valve 110, outlet valve 111, delivery port 112, water return outlet 113, back-water valve (BWV) 114 and backwater check valve 115, go out water one-way valve 110, outlet valve 111 and delivery port 112 and be successively set between first flow sensor 109 and cooling device 102 along water (flow) direction; Water return outlet 113, back-water valve (BWV) 114 and backwater check valve 115 are successively set between cooling device 102 and return water temperature sensor 116 along water (flow) direction; Going out water one-way valve 110, outlet valve 111, back-water valve (BWV) 114 and backwater check valve 115 is electrically connected with control system respectively.Control system is PLC equal controller.

Embodiment 7

On the basis of embodiment 6 schemes, divide circulation waterway also to comprise the 3rd flow control valve 103, consider front Pressure gauge 104 and consider rear Pressure gauge 106, consider front Pressure gauge 104 and consider rear Pressure gauge 106 front and back that are separately positioned on smart filter core 105, the 3rd flow control valve 103 is arranged on water pump 101 and considers between front Pressure gauge 104; Before the 3rd flow control valve 103, worry, after Pressure gauge 104, worry, Pressure gauge 106 is electrically connected with control system.Control system is PLC equal controller.

Embodiment 8

As shown in Figure 2, a kind of temperature control water cooling system, comprises major cycle water route, multiple points of circulation waterways and the control system of moving for controlling temperature control water cooling system.Wherein:

Major cycle water route comprises water tank 10 and the radiating subassembly 20 for cooling circulating water, water tank 10 is connected with radiating subassembly 20, radiating subassembly 20 includes but not limited to: evaporation coil, compressor and condenser connect and compose radiating subassembly 20 successively, evaporation coil is positioned at water tank 10, compressor assembly and condenser assembly are positioned at outside water tank 10, evaporation coil and condenser pass through compressor heat-shift, thereby make the circulating water cooling in water tank 10.In water tank 10, be also provided with heating rod, heating rod is used for start of run under low temperature environment water is heated.On water tank 10, be also provided with draining valve 21, water filling port 22 and gap 23; By water filling port 22 feed-tank 10 water fillings, in the time filling water in water tank 10, water overflows from gap 23, stops water filling.Control system is electrically connected with radiating subassembly 20 and heating rod respectively.

The outlet pipeline in major cycle water route is provided with multiple for connecting the interface of point circulation waterway.

On outlet pipeline between water tank 10 and interface, be provided with successively debugging valve 11 and the coarse filter element 12 for debugging or safeguard pipeline along water (flow) direction, coarse filter element 12 is for slightly considering recirculated water, prevent that unexpected foreign matter from entering loop, damage the pump housing and rear class loop assembly.This coarse filter element 12 is this area common components, can filter the particle of particle diameter >=5 micron.

Outlet pipeline between coarse filter element 12 and interface also has branch road, branch road is provided with circulating pump 13, circulating pump 13 is temp auto-controlled circulating pump, circulating pump 13 is connected with first flow control valve 14 and second adjustable valve 15 respectively, the other end of first flow control valve 14 is connected with water tank 10, and second adjustable valve 15, ion tank 16, resin coarse filter element 17 and water tank 10 are connected successively.Ion tank 16 is multiple, and multiple ion tanks 16 connect side by side, in ion tank 16, ion exchange resin are housed, and this ion exchange resin is this area common used material, for regulating loop degree of ionization, meets cooling water quality requirement; Resin coarse filter element 17 is the conventional filter core in this area, can filter the particle of particle diameter >=5 micron, for preventing that the resin particle of ion tank 16 from entering water tank 10.Control system is electrically connected with circulating pump 13, first flow control valve 14 and second adjustable valve 15 respectively.

The structure of each point of circulation waterway is identical, the explanation as an example of first point of circulation waterway example:

First point of circulation waterway comprises water pump 101 and the cooling device 102 for cooling tested object, and the two ends of water pump 101 are connected with one end of interface and cooling device 102 respectively, and the other end of cooling device 102 is connected with water tank 10.Water pump 101 and control system electrical connection.

On outlet pipeline between water pump 101 and cooling device 102, be provided with successively the 3rd flow control valve 103, the front Pressure gauge 104 of worry, smart filter core 105, consider rear Pressure gauge 106, the first hydraulic pressure sensor 107, the first temperature sensor 108, first flow sensor 109, go out water one-way valve 110, outlet valve 111 and delivery port 112 along water (flow) direction.Essence filter core 105 is commonly used filter core for this area, can filter the particle of particle diameter >=2 micron, to meet the requirement of MCA to circulating water quality.Before considering Pressure gauge 104 and consider after Pressure gauge 106 be used for respectively detecting in real time the pressure of recirculated water before and after essence filter, the parameter detecting is used for the monitoring to water route.The first hydraulic pressure sensor 107, the first temperature sensor 108 and first flow sensor 109 are respectively used to measure pressure, temperature and the flow of water outlet, go out water one-way valve 110 and flow backwards for preventing recirculated water.The 3rd flow control valve 103, consider before Pressure gauge 104, consider after Pressure gauge 106, the first hydraulic pressure sensor 107, the first temperature sensor 108, first flow sensor 109, go out water one-way valve 110 and outlet valve 111 is electrically connected with control system respectively.

On water return pipeline between cooling device 102 and water tank 10, be provided with successively water return outlet 113, back-water valve (BWV) 114, backwater check valve 115 and return water temperature sensor 116 along water (flow) direction.Return water temperature sensor 116 is for measuring the temperature of backwater, and backwater check valve 115 flows backwards for anti-non-return water.Back-water valve (BWV) 114, backwater check valve 115, return water temperature sensor 116 are electrically connected with control system respectively.

Control system is PLC equal controller.From water filling port 22, water is added to water tank 10, after water tank 10 fills, gap 23 has water and overflows, and in water tank 10, utilizes heating rod to heat water, by evaporation coil and outside condenser heat-shift, makes the circulating water cooling in water tank 10.

Recirculated water is through debugging valve 11 and thick worry core 12, and a part enters each point of circulation waterway, and another part enters circulating pump 13;

Recirculated water enters a point circulation waterway, successively through the 3rd flow control valve 103, consider before Pressure gauge 104, smart filter core 105, consider after Pressure gauge 106, the first hydraulic pressure sensor 107, the first temperature sensor 108, first flow sensor 109, go out water one-way valve 110, outlet valve 111 and delivery port 112, arrive cooling device 102, the heat of tested object is taken away, now cooling water temperature raises as backwater, backwater flow through water return outlet 113, back-water valve (BWV) 114, backwater check valve 115 and return water temperature sensor 116, return to water tank 10;

Enter the cooling water of circulating pump 13, respectively by first flow control valve 14 and second adjustable valve 15, the cooling water of first flow control valve 14 of flowing through returns to water tank 10, the cooling water of second adjustable valve 15 of flowing through enters ion tank 16, recirculated water is removed a part of ion through ion exchange resin, arrive resin coarse filter element 17, after filtration, return to water tank 10; Complete circulation.

Embodiment 9

On the basis of embodiment 6 schemes, between delivery port 112 and cooling device 102, be also provided with the water-cooled terminal 30 for test loop coolant-temperature gage and ion degree, water-cooled terminal 30 comprises transfer tube delivery port 301, the second temperature sensor 302, the second hydraulic pressure sensor 303, ion degree sensor 304, second quantity sensor 305, goes out water solenoid valve 306 and outlet pipe converting interface 307, return pipe converting interface 308, backwater magnetic valve 309, bypass magnetic valve 310 and transfer tube water return outlet 311.

Delivery port 112 is connected with transfer tube delivery port 301, on the outlet pipeline of water-cooled terminal 30, is provided with successively the second temperature sensor 302, the second hydraulic pressure sensor 303, ion degree sensor 304, second quantity sensor 305, goes out water solenoid valve 306 and outlet pipe converting interface 307 along water (flow) direction; On the water return pipeline of water-cooled terminal 30, be provided with successively return pipe converting interface 308, backwater magnetic valve 309, bypass magnetic valve 310 and transfer tube water return outlet 311 along water (flow) direction.

Transfer tube water return outlet 311 is connected with water return outlet 113, and the two ends of cooling device 102 are connected with outlet pipe converting interface 307 and return pipe converting interface 308 respectively.Control system is PLC equal controller.

Embodiment 10

On the basis of embodiment 9 schemes, water-cooled terminal 30 also comprises impulse controller 300, the second temperature sensors 302, the second hydraulic pressure sensor 303, ion degree sensor 304, second quantity sensor 305, go out water solenoid valve 306, backwater magnetic valve 309 and bypass magnetic valve 310 is electrically connected with impulse controller 300 respectively.Control system is PLC equal controller.

Embodiment 11

As shown in Figure 3, a kind of temperature control water cooling system, comprises major cycle water route, multiple points of circulation waterways and the control system of moving for controlling temperature control water cooling system.Wherein:

Major cycle water route comprises water tank 10 and the radiating subassembly 20 for cooling circulating water, water tank 10 is connected with radiating subassembly 20, radiating subassembly 20 includes but not limited to: evaporation coil, compressor and condenser connect and compose radiating subassembly 20 successively, evaporation coil is positioned at water tank 10, compressor assembly and condenser assembly are positioned at outside water tank 10, evaporation coil and condenser pass through compressor heat-shift, thereby make the cooling water temperature in water tank 10.In water tank 10, be also provided with heating rod, heating rod is used for start of run under low temperature environment water is heated.On water tank 10, be also provided with draining valve 21, water filling port 22 and gap 23; By water filling port 22 feed-tank 10 water fillings, in the time filling water in water tank 10, water overflows from gap 23, stops water filling.Control system is electrically connected with radiating subassembly 20 and heating rod respectively.

The outlet pipeline in major cycle water route is provided with multiple for connecting the interface of point circulation waterway.

On outlet pipeline between water tank 10 and interface, be provided with successively debugging valve 11 and the coarse filter element 12 for debugging or safeguard pipeline along water (flow) direction, coarse filter element 12 is for slightly considering recirculated water, prevent that unexpected foreign matter from entering loop, damage the pump housing and rear class loop assembly.This coarse filter element 12 is this area common components, can filter the particle of particle diameter >=5 micron.

Outlet pipeline between coarse filter element 12 and interface also has branch road, branch road is provided with circulating pump 13, circulating pump 13 is temp auto-controlled circulating pump, circulating pump 13 is connected with first flow control valve 14 and second adjustable valve 15 respectively, the other end of first flow control valve 14 is connected with water tank 10, and second adjustable valve 15, ion tank 16, resin coarse filter element 17 and water tank 10 are connected successively.Ion tank 16 is multiple, and multiple ion tanks 16 connect side by side, in ion tank 16, ion exchange resin are housed, and this ion exchange resin is this area common used material, for regulating loop degree of ionization, meets cooling water quality requirement; Resin coarse filter element 17 is the conventional filter core in this area, can filter the particle of particle diameter >=5 micron, for preventing that the resin particle of ion tank 16 from entering water tank 10.Control system is electrically connected with circulating pump 13, first flow control valve 14 and second adjustable valve 15 respectively.

The structure of each point of circulation waterway is identical, the explanation as an example of first point of circulation waterway example:

First point of circulation waterway comprises water pump 101 and the cooling device 102 for cooling tested object, and the two ends of water pump 101 are connected with one end of interface and cooling device 102 respectively, and the other end of cooling device 102 is connected with water tank 10.Water pump 101 and control system electrical connection.

On outlet pipeline between water pump 101 and cooling device 102, be provided with successively the 3rd flow control valve 103, the front Pressure gauge 104 of worry, smart filter core 105, consider rear Pressure gauge 106, the first hydraulic pressure sensor 107, the first temperature sensor 108, first flow sensor 109, go out water one-way valve 110, outlet valve 111 and delivery port 112 along water (flow) direction.Essence filter core 105 is commonly used filter core for this area, can filter the particle of particle diameter >=2 micron, to meet the requirement of MCA to circulating water quality.Before considering Pressure gauge 104 and consider after Pressure gauge 106 be used for respectively detecting in real time the pressure of recirculated water before and after essence filter, the parameter detecting is used for the monitoring to water route.The first hydraulic pressure sensor 107, the first temperature sensor 108 and first flow sensor 109 are respectively used to measure pressure, temperature and the flow of water outlet, go out water one-way valve 110 and flow backwards for preventing recirculated water.The 3rd flow control valve 103, consider before Pressure gauge 104, consider after Pressure gauge 106, the first hydraulic pressure sensor 107, the first temperature sensor 108, first flow sensor 109, go out water one-way valve 110 and outlet valve 111 is electrically connected with control system respectively.

On water return pipeline between cooling device 102 and water tank 10, be provided with successively water return outlet 113, back-water valve (BWV) 114, backwater check valve 115 and return water temperature sensor 116 along water (flow) direction.Return water temperature sensor 116 is for measuring the temperature of backwater, and backwater check valve 115 flows backwards for anti-non-return water.Back-water valve (BWV) 114, backwater check valve 115, return water temperature sensor 116 are electrically connected with control system respectively.

As shown in Figure 4, between delivery port 112 and cooling device 102, be also provided with water-cooled terminal 30, the transfer tube delivery port 301 of delivery port 112 and water-cooled terminal 30 is connected, and on the outlet pipeline of water-cooled terminal 30, is provided with successively the second temperature sensor 302, the second hydraulic pressure sensor 303, ion degree sensor 304, second quantity sensor 305, goes out water solenoid valve 306 and outlet pipe converting interface 307 along water (flow) direction; On the water return pipeline of water-cooled terminal 30, be provided with successively return pipe converting interface 308, backwater magnetic valve 309, bypass magnetic valve 310 and transfer tube water return outlet 311 along water (flow) direction; The second temperature sensor 302, the second hydraulic pressure sensor 303, ion degree sensor 304, second quantity sensor 305, go out water solenoid valve 306, backwater magnetic valve 309 and bypass magnetic valve 310 and be electrically connected with impulse controller 300 respectively, impulse controller 300 is electrically connected with control system, and impulse controller 300 is this area common components.Transfer tube water return outlet 311 is connected with water return outlet 113, and the two ends of cooling device 102 are connected with outlet pipe converting interface 307 and return pipe converting interface 308 respectively.

The parameter that impulse controller 300 records according to the second temperature sensor 302, the second hydraulic pressure sensor 303, ion degree sensor 304 and second quantity sensor 305; control out water solenoid valve 306, backwater magnetic valve 309 and bypass magnetic valve 310 regulating water flows, guarantee that the parameters such as water temperature in loop, discharge, ion degree meet test request.

Control system is PLC equal controller.

From water filling port 22, cooling water is added to water tank 10, water tank 10 fills after water, and gap 23 has water and overflows, and in water tank 10, utilizes heating rod to heat cooling water, by evaporation coil and outside condenser heat-shift, makes the circulating water cooling in water tank 10.

Cooling water is through debugging valve 11 and thick worry core 12, and a part enters each point of circulation waterway, and another part enters circulating pump 13;

Cooling water enters a point circulation waterway, successively through the 3rd flow control valve 103, Pressure gauge 104 before considering, essence filter core 105, Pressure gauge 106 after considering, the first hydraulic pressure sensor 107, the first temperature sensor 108, first flow sensor 109, go out water one-way valve 110, outlet valve 111 and delivery port 112, enter water-cooled terminal 30 by transfer tube delivery port 301, more successively by the second temperature sensor 302, the second hydraulic pressure sensor 303, ion degree sensor 304, second quantity sensor 305, go out water solenoid valve 306 and outlet pipe converting interface 307, arrive cooling device 102, the heat of tested object is taken away, now cooling water temperature raises as backwater, and backwater is through return pipe converting interface 308, backwater magnetic valve 309, bypass magnetic valve 310 and transfer tube water return outlet 311, leave water-cooled terminal 30, and in water-cooled terminal 30, impulse controller 300 is according to the second temperature sensor 302, the second hydraulic pressure sensor 303, the parameter that ion degree sensor 304 and second quantity sensor 305 record, controls out water solenoid valve 306, backwater magnetic valve 309 and bypass magnetic valve 310 regulate the flow of cooling water, last backwater flow through water return outlet 113, back-water valve (BWV) 114, backwater check valve 115 and return water temperature sensor 116, return to water tank 10,

Enter the cooling water of circulating pump 13, respectively by first flow control valve 14 and second adjustable valve 15, the cooling water of first flow control valve 14 of flowing through returns to water tank 10, the cooling water of second adjustable valve 15 of flowing through enters ion tank 16, recirculated water is removed a part of ion through ion exchange resin, arrive resin coarse filter element 17, after filtration, return to water tank 10; Complete circulation.

Claims (10)

1. a temperature control water cooling system, is characterized in that, comprises major cycle water route, multiple points of circulation waterways and the control system of moving for controlling temperature control water cooling system; Wherein,

Major cycle water route comprises water tank and the radiating subassembly for cooling circulating water, and described water tank is connected with described radiating subassembly, and described control system is electrically connected with described radiating subassembly;

The outlet pipeline in major cycle water route is provided with multiple for connecting the interface of described point circulation waterway;

Described point of circulation waterway comprises water pump and the cooling device for cooling tested object, the two ends of described water pump are connected with one end of described interface and described cooling device respectively, the other end of described cooling device is connected with described water tank, and described control system is electrically connected with described water pump.

2. temperature control water cooling system as claimed in claim 1, it is characterized in that, described major cycle water route also comprises debugging valve and coarse filter element, described debugging valve and described coarse filter element are successively set on the outlet pipeline between described water tank and described interface along water (flow) direction, and described coarse filter element is for filtering the particle of particle diameter >=5 micron.

3. temperature control water cooling system as claimed in claim 2, it is characterized in that, on outlet pipeline between described coarse filter element and described interface, be also useful on the branch road of removing recirculated water intermediate ion, described branch road comprises circulating pump and ion tank, described circulating pump, described ion tank are connected successively with described water tank, and described control system is electrically connected with described circulating pump.

4. temperature control water cooling system as claimed in claim 3, it is characterized in that, described branch road also comprises first flow control valve, second adjustable valve and resin coarse filter element, described circulating pump is connected with first flow control valve and second adjustable valve respectively, the other end of described first flow control valve is connected with described water tank, described second adjustable valve is arranged between described ion tank and described circulating pump, described resin coarse filter element is arranged between described ion tank and described water tank, described control system is electrically connected with described first flow control valve and described second adjustable valve respectively.

5. temperature control water cooling system as claimed in claim 3, it is characterized in that, described point of circulation waterway also comprises smart filter core, the first hydraulic pressure sensor, the first temperature sensor, first flow sensor and return water temperature sensor, and described smart filter core, described the first hydraulic pressure sensor, described the first temperature sensor and described first flow sensor are successively set on the outlet pipeline between described water pump and described cooling device along water (flow) direction; Described return water temperature sensor setting is on the water return pipeline between described cooling device and described water tank; Described the first hydraulic pressure sensor, described the first temperature sensor, described first flow sensor and described return water temperature sensor are electrically connected with described control system respectively.

6. temperature control water cooling system as claimed in claim 5, it is characterized in that, described point of circulation waterway also comprises water one-way valve, outlet valve, delivery port, water return outlet, back-water valve (BWV) and backwater check valve, described in go out water one-way valve, described outlet valve and described delivery port and be successively set between described first flow sensor and described cooling device along water (flow) direction; Described water return outlet, described back-water valve (BWV) and described backwater check valve are successively set between described cooling device and described return water temperature sensor along water (flow) direction; Described water one-way valve, described outlet valve, described back-water valve (BWV) and described backwater check valve are electrically connected with described control system respectively.

7. temperature control water cooling system as claimed in claim 6, it is characterized in that, described point of circulation waterway also comprises the 3rd flow control valve, considers front Pressure gauge and considers rear Pressure gauge, after the front Pressure gauge of described worry and described worry, Pressure gauge is separately positioned on the front and back of described smart filter core, and described the 3rd flow control valve is arranged between described water pump and the front Pressure gauge of described worry; Before described the 3rd flow control valve, described worry, after Pressure gauge, described worry, Pressure gauge is electrically connected with described control system.

8. temperature control water cooling system as claimed in claim 6, it is characterized in that, between described delivery port and described cooling device, be also provided with the water-cooled terminal for test loop coolant-temperature gage and ion degree, described water-cooled terminal comprises transfer tube delivery port, the second temperature sensor, the second hydraulic pressure sensor, ion degree sensor, second quantity sensor, goes out water solenoid valve and outlet pipe converting interface, return pipe converting interface, backwater magnetic valve, bypass magnetic valve and transfer tube water return outlet;

The transfer tube delivery port of described delivery port and described water-cooled terminal is connected, and on the outlet pipeline of described water-cooled terminal, is provided with successively the second temperature sensor, the second hydraulic pressure sensor, ion degree sensor, second quantity sensor, goes out water solenoid valve and outlet pipe converting interface along water (flow) direction; On the water return pipeline of described water-cooled terminal, be provided with successively return pipe converting interface, backwater magnetic valve, bypass magnetic valve and transfer tube water return outlet along water (flow) direction;

Described transfer tube water return outlet is connected with described water return outlet, and the two ends of described cooling device are connected with described outlet pipe converting interface and described return pipe converting interface respectively.

9. temperature control water cooling system as claimed in claim 8, it is characterized in that, described water-cooled terminal also comprises impulse controller, described the second temperature sensor, described the second hydraulic pressure sensor, described ion degree sensor, described second quantity sensor, described in go out water solenoid valve, described backwater magnetic valve and described bypass magnetic valve and be electrically connected with described impulse controller respectively.

10. water-cooling system as claimed in claim 1, is characterized in that, described control system is programmable logic controller (PLC) PLC.