CN109823352A - A kind of balanced water cooling system and cooling means of radiating - Google Patents

Abstract

This application involves a kind of balanced heat dissipation water cooling system and cooling means, including water pump, control the water-cooling controller of water pump and the radiating module for circulating water, first interface and second interface are equipped on water pump, first main line is drawn by first interface, second main line is drawn by second interface, train powerful device is arranged into water cooling system in parallel between the first main line and the second main line, in the first main line, acquisition module is equipped on the bye-pass of second main line and process train powerful device, acquisition module and water-cooling controller are communicated with train TCMS, water-cooling controller regulates and controls the flow direction and flow of the recirculated water of water cooling system according to the temperature and pressure data of the acquisition module, realize that radiating module works alternatively.The application arranges by adjusting the pipeline of water cooling system and circulating water flow is to control strategy, realizes the balanced heat dissipation of train powerful device.

Description

A kind of balanced water cooling system and cooling means of radiating

Technical field

The present invention relates to field of cooling more particularly to a kind of balanced heat dissipation water cooling system and cooling means.

Background technique

With the development of straddle-type monorail train, the optimization design to each component of straddle-type monorail train is to improve train fortune The very effective mode of scanning frequency degree and security performance.The systems such as traction, auxiliary in straddle-type monorail train are all made of big function Rate equipment, such as traction invertor, subordinate inverter, traction electric machine, discharge a large amount of energy during train operation, cause Device temperature is higher, and thermal losses is big, for the normal work for guaranteeing the systems such as traction, auxiliary, needs to add water cooling system progress It is cooling.

The pipeline of traditional water cooling system is arranged as shown in Figure 1, pipeline arrangement uses arranged in series, water cooling system water pump Water out successively passes through traction invertor, subordinate inverter and traction electric machine, is finally recirculated back to water cooling system water pump, makes Increase at accumulation of heat, so that the cooling effect for being located at line end equipment substantially reduces, integral water-cooled system radiating is unbalanced. In addition, the data exchange between traditional water-cooling control system and traction and auxiliary system is connected by a large amount of rigid line, increase Wiring complexity.Therefore, the arrangement design of pipeline and the control program of water-cooling system directly affect cooling system efficiency, to raising System is reliable for operation most important.

Summary of the invention

The purpose of the invention is to reduce the temperature of the powerful devices such as traction, auxiliary, guarantee the big function such as traction, auxiliary The normal work of rate equipment provides a kind of balanced water cooling system and cooling means of radiating.

To achieve the above object, this application provides a kind of balanced heat dissipation water cooling system, including water pump, water pump is controlled Water-cooling controller and radiating module for circulating water are equipped with first interface and second interface on the water pump, by The first interface draws the first main line, the second main line is drawn by the second interface, in first main line and institute It states and train powerful device is arranged into the water cooling system in parallel with bye-pass between the second main line, Acquisition mould is equipped on the bye-pass of first main line, second main line and the process train powerful device Block, the acquisition module and the water-cooling controller are communicated with train TCMS, and the water-cooling controller is according to the acquisition mould The temperature and pressure data of block regulate and control the flow direction and flow of the recirculated water of the water cooling system.

As the further improvement of the application, the train powerful device include traction invertor, subordinate inverter and Traction electric machine；The acquisition module is made of temperature sensor and pressure sensor；The radiating module is by heat exchanger and wind Machine composition.

As the further improvement of the application, acquisition module on first main line is acquisition module A, described second Acquisition module on main line is acquisition module B.

To achieve the above object, present invention also provides a kind of cooling means of balanced heat dissipation water cooling system, the water It is counter clockwise flow to the acquisition module A is acquired to be recycled on first main line that cold control, which controls the initial flow direction of water pump, The temperature of water, the acquisition module B acquire the temperature of the second main line upper circulation water, the acquisition module A and described adopt The temperature of first main line and the second main line upper circulation water is transmitted to the train respectively by collection module B respectively TCMS is simultaneously synchronized to the water-cooling controller, the water-cooling controller according to the acquisition module A and the acquisition module B at Temperature data adjusts the flow direction of the recirculated water of the water cooling system.

As the further improvement of the application, when the first main line upper circulation water that the acquisition module A is acquired When temperature is not greater than the temperature of the second main line upper circulation water of acquisition module B acquisition persistently, the water-cool control Device control water pump flow direction be counter clockwise flow to；When the temperature of the first main line upper circulation water of acquisition module A acquisition When degree is persistently greater than the temperature of the second main line upper circulation water of acquisition module B acquisition, the water-cooling controller control The flow direction of water pump processed is converted to flow direction clockwise.

As the further improvement of the application, the temperature of the first main line upper circulation water of the acquisition module A acquisition The temperature value of the second main line upper circulation water of the angle value acquisition module B acquisition is persistently greater than 20 DEG C.

As the further improvement of the application, set on the first main line between the first interface and acquisition module A There is the first radiating module, the second radiating module is equipped on the second main line between the second interface and acquisition module B, when The flow direction of water-cooling controller control water pump be counter clockwise flow to when, the first radiating module starting, second heat dissipation Module from service；When the flow direction of water-cooling controller control water pump is to flow to clockwise, first radiating module stops Only work, the second radiating module starting.

The beneficial effects of the present application are as follows by the way that the pipeline of water cooling system is set train is high-power in parallel In standby arrangement to the water cooling system, the water-cooling controller can control water pump and realize what recirculated water was combined in water pump with pipeline It is flowed counterclockwise or clockwise in circulation loop, realizes that radiating module works alternatively, realize water cooling control using train TCMS The communication of system processed and temperature, pressure acquisition module reduces the wiring complexity of water cooling system, finally realizes radiating mould Block interleaved operation, the recirculated water of cooling water cooling system achieve the purpose that train powerful device equilibrium is radiated.

Detailed description of the invention

Fig. 1 is the pipeline arrangement of traditional water cooling system；

Fig. 2 is the pipeline arrangement of the application equilibrium heat dissipation water cooling system.

Specific embodiment

To keep the purposes, technical schemes and advantages of the application clearer, below in conjunction with the application specific embodiment and Technical scheme is clearly and completely described in corresponding attached drawing.Obviously, described embodiment is only the application one Section Example, instead of all the embodiments.Based on the embodiment in the application, those of ordinary skill in the art are not doing Every other embodiment obtained under the premise of creative work out, shall fall in the protection scope of this application.

As shown in Fig. 2, a kind of balanced heat dissipation water cooling system, water-cooling controller and use including water pump, control water pump In the radiating module of circulating water, the radiating module is made of heat exchanger and blower, the heat exchanger and the wind Heat dissipation purpose is realized in machine cooperation, and first interface and second interface are equipped on the water pump, draws first by the first interface Main line draws the second main line by the second interface, with branch between first main line and second main line Pipeline in parallel arranges train powerful device in the water cooling system, the powerful device such as: traction Inverter, subordinate inverter and traction electric machine etc. in first main line, second main line and pass through the train Acquisition module is equipped on the bye-pass of powerful device, the acquisition module is made of temperature sensor and pressure sensor, The acquisition module and the water-cooling controller are communicated with Train Control and management system (TCMS), the water-cooling controller root Regulate and control the flow direction and flow of the recirculated water of the water cooling system according to the temperature and pressure data of the acquisition module, such as: described The circulatory system clockwise flow or inverse that recirculated water can be formed along water pump, the first main line, the second main line and bye-pass Hour hands flowing.

In the application, increase the communication interface of water cooling system Yu the train TCMS, such as: in the acquisition module and Multifunctional vehicle bus (MVB) interface is equipped on the water-cooling controller, the acquisition module and the water-cooling controller are equal It is communicated by MVB bus and the train TCMS.It is acquisition module A on first main line, in second supervisor Road is acquisition module B, the temperature of the first main line recirculated water where acquisition module A real time monitoring acquisition module A and Pressure, the temperature and pressure of the second main line recirculated water, the acquisition where the acquisition module B real time monitoring acquisition module B Modules A and the acquisition module B are respectively by the temperature data real-time delivery of the first main line of place and the second main line recirculated water The water-cooling controller is synchronized to the train TCMS and by the train TCMS.The water-cooling controller is adopted according to Collect modules A where the first main line recirculated water temperature and the place the acquisition module B the second main line recirculated water temperature Information adjusts the flow direction of water pump recirculated water, such as: the initial flow direction of the recirculated water of the water-cooling controller regulation water cooling system is Left-hand circular flowing, when the temperature of the first main line upper circulation water of acquisition module A acquisition is adopted no more than described When collecting the temperature of the second main line upper circulation water of module B acquisition, the flow direction of the water-cooling controller control water pump is inverse Hour hands flow direction；When the constant temperature of the first main line upper circulation water of acquisition module A acquisition is greater than the acquisition mould When the temperature of the second main line upper circulation water of block B acquisition, the flow direction of the water-cooling controller control water pump is converted to suitable Hour hands flow direction, the acquisition module B acquisition of the temperature value of the first main line upper circulation water of the acquisition module A acquisition The temperature value of the second main line upper circulation water be persistently greater than 20 DEG C.

In the application, the radiating module includes the first radiating module and the second radiating module, first radiating mould Block is located on the first main line between the first interface and acquisition module A, and second radiating module is located at described second On the second main line between interface and acquisition module B, first radiating module and second radiating module are according to water cooling But the flow direction of system circulating water works alternatively.Such as: when water-cooling controller regulation water pump recirculated water left-hand circular flowing, The first radiating module starting, second radiating module stop working；When the water-cooling controller regulates and controls water pump recirculated water When right-hand circular flows, first radiating module stops working, the second radiating module starting.This water-cooling controller Control water pump is clockwise, alternate cycles counterclockwise flow, and the first radiating module and the second radiating module is cooperated alternately to radiate, most The purpose of water cooling system equilibrium heat dissipation is realized eventually.

In conclusion train powerful device by being arranged the bye-pass of water cooling system by the application in parallel In cloth to the water cooling system, it is equipped on the powerful device that the first main line, the second main line and bye-pass pass through Acquisition module, while the communication interface of water cooling system is increased, by the water-cooling controller and acquisition module in water cooling system It is all connected on the train TCMS, realizes and realize water-cooling control system and temperature, pressure acquisition module using train TCMS Communication, the water-cooling controller adjusts the flow direction of recirculated water according to the information of acquisition module, using the first radiating module and second Radiating module works alternatively, and cools down to the recirculated water of water cooling system, reaches the mesh of train powerful device equilibrium heat dissipation , the wiring complexity of water cooling system is not only reduced, the application also realizes by adjusting pipeline arrangement and control strategy equal Weighing apparatus heat dissipation, reaching pump consumption reduces by 20%.

The application is described only in conjunction with the most practical preferred embodiment being presently considered above, it is to be understood that Above description is not the limitation to the application, and the application is also not limited to the example above, the ordinary skill people of the art The variations, modifications, additions or substitutions that member is made in the essential scope of the application, also should belong to the protection scope of the application.

Claims (7)

1. a kind of balanced heat dissipation water cooling system including water pump, controls the water-cooling controller of water pump and is used for circulating water Radiating module, which is characterized in that be equipped with first interface and second interface on the water pump, draw the by the first interface One main line is drawn the second main line by the second interface, is used between first main line and second main line Bye-pass in parallel arranges train powerful device into the water cooling system, in first main line, institute State the second main line and by being equipped with acquisition module, the acquisition mould on the bye-pass of the train powerful device Block and the water-cooling controller are communicated with train TCMS, and the water-cooling controller is according to the temperature and pressure of the acquisition module Data regulate and control the flow direction and flow of the recirculated water of the water cooling system.

2. balanced heat dissipation water cooling system according to claim 1, which is characterized in that the train powerful device includes leading Draw inverter, subordinate inverter and traction electric machine；The acquisition module is made of temperature sensor and pressure sensor；It is described to dissipate Thermal modules are made of heat exchanger and blower.

3. balanced heat dissipation water cooling system according to claim 1, which is characterized in that the acquisition mould on first main line Block is acquisition module A, and the acquisition module on second main line is acquisition module B.

4. a kind of cooling means using the heat dissipation water cooling system of equilibrium described in claim 1, which is characterized in that the water cooling control The initial flow direction of device control water pump processed is counter clockwise flow to the acquisition module A acquires the first main line upper circulation water Temperature, the acquisition module B acquire the temperature of the second main line upper circulation water, the acquisition module A and the acquisition mould The temperature of first main line and the second main line upper circulation water is transmitted to the train TCMS simultaneously respectively by block B respectively It is synchronized to the water-cooling controller, the water-cooling controller is according to the temperature number at the acquisition module A and the acquisition module B According to the flow direction for the recirculated water for adjusting the water cooling system.

5. the cooling means of balanced heat dissipation water cooling system according to claim 4, which is characterized in that when the acquisition module The temperature of the first main line upper circulation water of A acquisition is not greater than second supervisor of acquisition module B acquisition persistently When the temperature of road recirculated water, the flow direction of water-cooling controller control water pump be counter clockwise flow to；When the acquisition module A is adopted The constant temperature of the first main line upper circulation water of collection, which is greater than on second main line of acquisition module B acquisition, to follow When the temperature of ring water, the flow direction of the water-cooling controller control water pump is converted to flow direction clockwise.

6. the cooling means of balanced heat dissipation water cooling system according to claim 5, which is characterized in that the acquisition module A It is recycled on second main line of the temperature value of the first main line upper circulation water of the acquisition acquisition module B acquisition The temperature value of water is persistently greater than 20 DEG C.

7. the cooling means of balanced heat dissipation water cooling system according to claim 5, which is characterized in that in the first interface The first main line between acquisition module A is equipped with the first radiating module, between the second interface and acquisition module B Second main line be equipped with the second radiating module, when the water-cooling controller control water pump flow direction be counter clockwise flow to when, institute The starting of the first radiating module is stated, second radiating module stops working；When the flow direction of water-cooling controller control water pump is When flowing to clockwise, first radiating module stops working, the second radiating module starting.