CN205721045U - Engineering scialyscope water-cooling heat radiating system - Google Patents

Abstract

nullThis utility model relates to engineering projector heat radiation technical field，Particularly relate to a kind of engineering scialyscope water-cooling heat radiating system，Including coolant loop and water loop，Coolant loop includes heat exchanger、Compressor、Condenser，Heat exchanger、Compressor、Condenser passes sequentially through copper pipe series connection and forms loop，Freon is stored in copper pipe，Water loop includes water tank、Centrifugal pump、Cooled plate and heat exchanger，Water tank、Centrifugal pump、Cooled plate and heat exchanger pass sequentially through water pipe series connection and form loop，The thermal source device of engineering scialyscope is arranged in cooled plate，During system work，Water at low temperature in water tank enters cooled plate，After water in cooled plate absorbs the heat that thermal source device distributes, temperature raises，Water enters in heat exchanger and freon heat exchange，Water flows to water tank again afterwards，The temperature of freon raises and enters in compressor，Freon is compressed into high pressure conditions by compressor，And by condenser, the heat of freon is dispersed in air，Effect is preferable.

Description

Engineering scialyscope water-cooling heat radiating system

Technical field

This utility model relates to engineering projector heat radiation technical field, particularly relates to a kind of engineering scialyscope Use water-cooling heat radiating system.

Background technology

In recent years, engineering scialyscope is in order to obtain big picture, broken colour, high brightness, high-resolution display Effect, fully meets the demand of large-scale environment, and high brightness lumen becomes the most important performance of engineering scialyscope and refers to Mark.But, when working in the case of meeting high brightness lumen index, engineering scialyscope can produce more Heat, if heat sheds not in time, it will produce bigger to service life of engineering scialyscope and stability etc. Impact, in prior art, conventional heat dissipating method is fan cooling, but the speed of fan cooling is slower And noise is relatively big, radiating effect is poor.

Utility model content

The purpose of this utility model is the defect overcoming prior art to exist, it is provided that a kind of good heat dissipation effect Engineering scialyscope water-cooling heat radiating system

This utility model solves its technical problem and be the technical scheme is that a kind of engineering scialyscope is used Water-cooling heat radiating system, including coolant loop and water loop, coolant loop include heat exchanger, compressor, Condenser, heat exchanger, compressor, condenser pass sequentially through copper pipe series connection and form storage in loop, copper pipe Having freon, water loop includes water tank, centrifugal pump, cooled plate and heat exchanger, water tank, centrifugal pump, Cooled plate and heat exchanger pass sequentially through water pipe series connection and form loop, and the thermal source device of engineering scialyscope is installed In cooled plate.

Beneficial effect: when system starts running, the water at low temperature in water tank enters cooled plate by centrifugal pump, Cooled plate absorbs the heat that thermal source device distributes, and the water temperature in cooled plate raises, and water enters in heat exchanger, Freon and water generation heat exchange in heat exchanger, water flows to water tank again afterwards, the temperature of freon Raising and enter in compressor, freon is compressed into high pressure conditions by compressor, and is incited somebody to action by condenser The heat of freon is dispersed in air, realizes thermal source by coolant loop and the big loop of water cooling labyrinth two The heat radiation of device, effect is preferable.

Accompanying drawing explanation

Fig. 1 is system flow chart of the present utility model.

Detailed description of the invention

Below in conjunction with Fig. 1, the utility model will be further described.

A kind of engineering scialyscope water-cooling heat radiating system, including coolant loop and water loop, coolant loop Including heat exchanger 10, compressor 20, condenser 30, heat exchanger 10, compressor 20, condenser 30 pass sequentially through copper pipe series connection forms loop, stores freon in copper pipe, and water loop includes water tank 40, centrifugal pump 50, cooled plate 60 and heat exchanger 10, water tank 40, centrifugal pump 50, cooled plate 60 Passing sequentially through water pipe series connection with heat exchanger 10 and form loop, the thermal source device of engineering scialyscope is arranged on In cooled plate 60.When system starts running, the water at low temperature in water tank 40 is entered by centrifugal pump 50 Cooled plate 60, cooled plate 60 absorbs the heat that thermal source device distributes, the water temperature liter in cooled plate 60 Height, water enters in heat exchanger 10, freon and water generation heat exchange, water afterwards in heat exchanger 10 Again flowing to water tank 40, the temperature of freon raises and enters in compressor 20, and compressor 20 will Freon is compressed into high pressure conditions, and is dispersed in air by the heat of freon by condenser 30. In this utility model, realize the fall to thermal source device by coolant loop and the big loop of water cooling labyrinth two Temperature, enables thermal source device to dispel the heat in time, and effect is preferable.

Preferably, described coolant loop connects capillary-compensated between heat exchanger 10 and condenser 30 Valve 70, in capillary-compensated valve 70, storage has freon.

Further, temperature sensor 80, described centrifugal pump 50 and water are set in described water tank 40 Pressure transducer 90, temperature sensor 80 and pressure transducer are set at the water pipe between cold drawing 60 90 are controlled by controller.Monitored the water temperature in water tank 40 by temperature sensor 80, pressure pass Sensor 90 monitors the siphon pressure between centrifugal pump 50 and cooled plate 60, and controller passes according to temperature Sensor 80 and the signal of pressure transducer 90 feedback, to compressor 20 and centrifugal pump 50 1 control Signal, when temperature sensor 80 monitors water temperature rising, then controls compressor 20 and revs up, Accelerate heat radiation, otherwise then reduce rotating speed, make water temperature control the water-cooled temperature set ± ripple of 0.5 DEG C In the range of Dong.Monitor the water outlet pressure of centrifugal pump 50 with pressure transducer 90, regulate according to pressure The rotating speed of centrifugal pump 50 is to ensure that system is normal.

In order to make radiating effect more preferable, heat exchanger 10 in described coolant loop, compressor 20 and cold Condenser 30 is two, is connected in parallel between two heat exchangers 10, between two compressors 20 also Connection connects, and is connected in parallel between two condensers 30.

Described heat exchanger 10 is parallel-flow heat exchanger, and compressor 20 is DC frequency-changeable compressor, condensation Device 30 is micro-channel condenser.

All being enclosed with acoustical cotton outside described compressor 20 and centrifugal pump 50, acoustical cotton has reduction noise Effect.

Same, in order to further strengthen radiating effect, with fan on described condenser 30, Reaping hook fan selected by fan, it is possible to decrease the noise of whole system.

Should be appreciated that specific embodiment described above is only used for explaining this utility model, and need not In limiting this utility model.The obvious change extended out by spirit of the present utility model or change Move among still in protection domain of the present utility model.

Claims (7)

1. an engineering scialyscope water-cooling heat radiating system, it is characterised in that: include coolant loop and Water loop, coolant loop includes heat exchanger (10), compressor (20), condenser (30), heat exchange Device (10), compressor (20), condenser (30) pass sequentially through copper pipe series connection and form loop, copper pipe Inside store freon, water loop include water tank (40), centrifugal pump (50), cooled plate (60) and Heat exchanger (10), water tank (40), centrifugal pump (50), cooled plate (60) and heat exchanger (10) Passing sequentially through water pipe series connection and form loop, the thermal source device of engineering scialyscope is arranged on cooled plate (60) On.

Engineering scialyscope water-cooling heat radiating system the most according to claim 1, it is characterised in that: Described coolant loop connects between heat exchanger (10) and condenser (30) capillary-compensated valve (70).

Engineering scialyscope water-cooling heat radiating system the most according to claim 2, it is characterised in that: Temperature sensor (80), described centrifugal pump (50) and cooled plate (60) are set in described water tank (40) Between water pipe at pressure transducer (90), temperature sensor (80) and pressure transducer (90) are set By controller control.

Engineering scialyscope water-cooling heat radiating system the most according to claim 3, it is characterised in that: Heat exchanger (10), compressor (20) and condenser (30) in described coolant loop are two, It is connected in parallel between two heat exchangers (10), is connected in parallel between two compressors (20), two Condenser is connected in parallel between (30).

Engineering scialyscope water-cooling heat radiating system the most according to claim 4, it is characterised in that: Described heat exchanger (10) is parallel-flow heat exchanger, and compressor (20) is DC frequency-changeable compressor, cold Condenser (30) is micro-channel condenser.

Engineering scialyscope water-cooling heat radiating system the most according to claim 5, it is characterised in that: Described compressor (20) and centrifugal pump (50) are the most all enclosed with acoustical cotton.

Engineering scialyscope water-cooling heat radiating system the most according to claim 6, it is characterised in that: With fan on described condenser (30), reaping hook fan selected by fan.