CN202837505U - Automatic cooling system for motor test - Google Patents

Abstract

The utility model relates to an automatic cooling system for motor test, comprising a water tank for cooling water storage. The first outlet of the water tank is connected with an outlet main pipe; the outlet main pipe is respectively connected with a first cooling branch pipe and a second cooling branch pipe; the first cooling branch pipe is connected with a motor; the second cooling branch pipe is connected with a testboard flange; the outlet main pipe is provided with a water pump; the outlet main pipe, the first cooling branch pipe and the second cooling branch pipe are respectively provided with a control valve; the water outlet of a motor is connected with a first cooling return pipe; the water outlet of the testboard flange is connected with a second cooling return pipe; the first cooling return pipe and the second cooling return pipe are respectively connected with a backflow main pipe; and the backflow main pipe is connected with the first inlet of the water tank. According to the utility model, the flange and the motor of the motor testboard are maintained in a certain temperature scope.

Description

A kind of electromechanical testing robotization cooling system

Technical field

The utility model relates to the electromechanical testing field, particularly relates to a kind of electromechanical testing robotization cooling system.

Background technology

Motor is in the process of dragging test, and except guaranteeing the stable of environment temperature, the flange that also needs to guarantee the motor installation is kept a stable temperature, and test just can remain under the stable condition of requirement like this.Can produce certain heat because motor is lower in working order, the flange by motor passes on the test board flange of mounted motor, can cause like this condition of electromechanical testing to change, and causes test result inaccurate.Keep the cooling system that is stabilized in uniform temperature so must satisfy the flange of a cooling system assurance electromechanical testing platform.The water-cooled driver that can offer motor and drive motor simultaneously cools off needed cooling water source.

Summary of the invention

Technical problem to be solved in the utility model provides a kind of electromechanical testing robotization cooling system, so that the flange of electromechanical testing platform and motor can be stabilized in the certain temperature range.

The technical scheme that its technical matters that solves the utility model adopts is: a kind of electromechanical testing robotization cooling system is provided, comprises the water tank for the storage chilled water, the first outlet of described water tank links to each other with outfall sewer; Described outfall sewer links to each other with the second cooling arm with the first cooling arm respectively; Described the first cooling arm links to each other with motor; Described the second cooling arm links to each other with the test board flange; Described outfall sewer is provided with water pump; Be equipped with an operation valve on described outfall sewer, the first cooling arm and the second cooling arm; The water delivering orifice of described motor links to each other with the first cooling for reflux pipe; The water delivering orifice of described test board flange links to each other with the second cooling for reflux pipe; Described the first cooling for reflux pipe links to each other with return header respectively with the second cooling for reflux pipe, and described return header links to each other with the first entrance of water tank.

Described water tank also is provided with the second outlet and the second entrance, and the second outlet of described water tank links to each other with the entrance of water cooling unit by the first pipeline; The outlet of described water cooling unit links to each other with the second entrance of water tank by second pipe; Described the first pipeline is provided with water pump.

Described water tank also is provided with for the temperature sensor of measuring water temperature; The output terminal of described temperature sensor links to each other with programming controller, and the output control terminal of described programming controller links to each other with water cooling unit.

Be provided with successively proportioning valve, temperature sensor, pressure transducer and flow sensor between operation valve on described the first cooling arm and the motor; Described the first cooling for reflux pipe is provided with pressure transducer and temperature sensor; Also be provided with the sensor collection point between described proportioning valve and the temperature sensor.

Described test board flange is provided with temperature sensor.

Described outfall sewer also links to each other with the 3rd cooling arm that is provided with operation valve; The described the 3rd cools off arm and is linked to each other by the driver of measured motor; Described driver links to each other with described return header by the 3rd cooling for reflux pipe.

Described outfall sewer also links to each other with the 4th cooling arm that is provided with operation valve; Described the 4th cooling arm links to each other with the housing of load motor; Described housing links to each other with described return header by the 4th cooling for reflux pipe.

Described outfall sewer also links to each other with the 5th cooling arm that is provided with operation valve; Described the 5th cooling arm links to each other with the driver of load motor; Described driver links to each other with described return header by the 5th cooling for reflux pipe.

Beneficial effect

Owing to adopted above-mentioned technical scheme, the utility model compared with prior art, have following advantage and good effect: the utility model can satisfy automatic adjusting cooling water flow, satisfy simultaneously the desired temperature of test that automatic control motor test board flange reaches setting, guarantee that the test link is stable, accurate, realize the robotization of electromechanical testing cooling condition, intellectuality.

Description of drawings

Fig. 1 is schematic diagram of the present utility model.

Embodiment

Below in conjunction with specific embodiment, further set forth the utility model.Should be understood that these embodiment only are used for explanation the utility model and are not used in the scope of the present utility model that limits.Should be understood that in addition those skilled in the art can make various changes or modifications the utility model after the content of having read the utility model instruction, these equivalent form of values fall within the application's appended claims limited range equally.

Embodiment of the present utility model relates to a kind of electromechanical testing robotization cooling system, as shown in Figure 1, comprises the water tank 1 for the storage chilled water, and the first outlet of described water tank 1 links to each other with outfall sewer; Described outfall sewer links to each other with the second cooling arm with the first cooling arm respectively; Described the first cooling arm links to each other with motor 2; Described the second cooling arm links to each other with test board flange 3; Described outfall sewer is provided with water pump 4; Be equipped with an operation valve on described outfall sewer, the first cooling arm and the second cooling arm; The water delivering orifice of described motor 2 links to each other with the first cooling for reflux pipe; The water delivering orifice of described test board flange 3 links to each other with the second cooling for reflux pipe; Described the first cooling for reflux pipe links to each other with return header respectively with the second cooling for reflux pipe, and described return header links to each other with the first entrance of water tank 1.

Wherein, described water tank 1 also is provided with the second outlet and the second entrance, and the second outlet of described water tank 1 links to each other with the entrance of water cooling unit 6 by the first pipeline; The outlet of described water cooling unit 6 links to each other with the second entrance of water tank 1 by second pipe; Described the first pipeline is provided with water pump 5.Described water tank 1 also is provided with for the temperature sensor of measuring water temperature; The output terminal of described temperature sensor links to each other with programming controller 7, and the output control terminal of described programming controller 7 links to each other with water cooling unit.Be provided with successively proportioning valve, temperature sensor, pressure transducer and flow sensor between operation valve on described the first cooling arm and the motor; Described the first cooling for reflux pipe is provided with pressure transducer and temperature sensor; Also be provided with the sensor collection point between described proportioning valve and the temperature sensor.Described test board flange 3 is provided with temperature sensor.Described outfall sewer also links to each other with the 3rd cooling arm that is provided with operation valve; The described the 3rd cools off arm and is linked to each other by the driver 8 of measured motor; Described driver 8 by measured motor links to each other with described return header by the 3rd cooling for reflux pipe.Described outfall sewer also links to each other with the 4th cooling arm that is provided with operation valve; Described the 4th cooling arm links to each other with the housing 9 of load motor; Described housing 9 links to each other with described return header by the 4th cooling for reflux pipe.Described outfall sewer also links to each other with the 5th cooling arm that is provided with operation valve; Described the 5th cooling arm links to each other with the driver 10 of load motor; The driver 10 of described load motor links to each other with described return header by the 5th cooling for reflux pipe.

Principle of work of the present utility model is as follows: the chilled water in the water tank 1 is by water pump 4, first via chilled water is supplied with motor 2, cooling water flow is through valve, it is poor the motor out temperature to be set in programming controller herein, then cooling water flow is through proportioning valve, temperature sensor, pressure transducer, flow sensor, chilled water is inputted motor 2, then chilled water flows out from motor 2 water delivering orifices through motor 2 inside, the heat of motor 2 is taken away, through temperature sensor, pressure transducer flows back into water tank 1.Programming controller is the temperature difference of motor 2 intake-outlets relatively, and the size of automatically regulating proportioning valve can be controlled the flow that passes into motor 2 chilled waters like this, automatically is adjusted to the temperature approach of the turnover saliva of setting in the programming controller.The the second road chilled water flows out from water pump 4, flow into the test board flange 3 that motor is installed by valve, temperature sensor also is installed on test board flange 3, can be with temperature feedback to programming controller, by the programming controller switch of by-pass valve control as required, come to pass into chilled water to test board flange 3, maintain design temperature with the temperature that keeps test board flange 3.The backwater of test board flange 3 flows back to the water tank 1 of chilled water again.The Third Road chilled water flows out from water pump 4, by the water-cooled driver 8 of measured motor, flows back to cooling water tank 1 by the valve ramp metering again.The four road chilled water flows out from water pump 4, flows into load motor water-cooled housing 9 by valve, flows back to cooling water tank 1 again.The five road chilled water flows out from water pump, and the water-cooled driver 10 by valve ramp metering load motor flows back to cooling water tank 1 again.The temperature sensor that cooling water temperature in one monitoring water tank is arranged in the water tank 1.Water temperature in the water tank 1 is fed back to programming controller 7, programming controller 7 is the cooling water temperature of initial setting relatively, if exceed the temperature that chilled water is set, controller 7 will be opened water cooling unit 6 work, chilled water in the water tank 1 is passed through water pump 5, flow into water cooling unit 6, the water quench with temperature rises flows back to cooling water tank 1 again.

Be not difficult to find, the utility model can satisfy automatic adjusting cooling water flow, satisfies simultaneously the desired temperature of test that automatic control motor test board flange reaches setting, guarantees that the test link is stable, accurate, realize the robotization of electromechanical testing cooling condition, intellectuality.

Claims (8)

1. an electromechanical testing robotization cooling system comprises for the water tank (1) of storage chilled water, it is characterized in that, the first outlet of described water tank (1) links to each other with outfall sewer; Described outfall sewer links to each other with the second cooling arm with the first cooling arm respectively; Described the first cooling arm links to each other with motor (2); Described the second cooling arm links to each other with test board flange (3); Described outfall sewer is provided with water pump (4); Be equipped with an operation valve on described outfall sewer, the first cooling arm and the second cooling arm; The water delivering orifice of described motor (2) links to each other with the first cooling for reflux pipe; The water delivering orifice of described test board flange (3) links to each other with the second cooling for reflux pipe; Described the first cooling for reflux pipe links to each other with return header respectively with the second cooling for reflux pipe, and described return header links to each other with the first entrance of water tank.

2. electromechanical testing robotization cooling system according to claim 1 is characterized in that, described water tank (1) also is provided with the second outlet and the second entrance, and the second outlet of described water tank (1) links to each other with the entrance of water cooling unit (6) by the first pipeline; The outlet of described water cooling unit (6) links to each other by second entrance of second pipe with water tank (1); Described the first pipeline is provided with water pump (5).

3. electromechanical testing robotization cooling system according to claim 2 is characterized in that, described water tank (1) also is provided with for the temperature sensor of measuring water temperature; The output terminal of described temperature sensor links to each other with programming controller (7), and the output control terminal of described programming controller (7) links to each other with water cooling unit (6).

4. electromechanical testing robotization cooling system according to claim 1 is characterized in that, is provided with successively proportioning valve, temperature sensor, pressure transducer and flow sensor between the operation valve on described the first cooling arm and the motor (2); Described the first cooling for reflux pipe is provided with pressure transducer and temperature sensor; Also be provided with the sensor collection point between described proportioning valve and the temperature sensor.

5. electromechanical testing robotization cooling system according to claim 1 is characterized in that, described test board flange (3) is provided with temperature sensor.

6. the described electromechanical testing robotization of arbitrary claim cooling system is characterized in that according to claim 1-5, and described outfall sewer also links to each other with the 3rd cooling arm that is provided with operation valve; The described the 3rd cools off arm and is linked to each other by the driver of measured motor (8); Describedly linked to each other with described return header by the 3rd cooling for reflux pipe by the driver of measured motor (8).

7. electromechanical testing robotization cooling system according to claim 6 is characterized in that, described outfall sewer also links to each other with the 4th cooling arm that is provided with operation valve; Described the 4th cooling arm links to each other with the housing (9) of load motor; Described housing (9) links to each other with described return header by the 4th cooling for reflux pipe.

8. electromechanical testing robotization cooling system according to claim 7 is characterized in that, described outfall sewer also links to each other with the 5th cooling arm that is provided with operation valve; Described the 5th cooling arm links to each other with the driver (10) of load motor; The driver of described load motor (10) links to each other with described return header by the 5th cooling for reflux pipe.

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