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GT 01.100 | Valve body test machine VBTM-K

GT 01.100 | Valve body test machine VВTM-K
GT 01.100 | Valve body test machine VВTM-K
GT 01.100 | Valve body test machine VВTM-K
GT 01.100 | Valve body test machine VВTM-K
GT 01.100 | Valve body test machine VВTM-K
GT 01.100 | Valve body test machine VВTM-K
GT 01.100 | Valve body test machine VВTM-K
GT 01.100 | Valve body test machine VВTM-K

GT 01.100 | Valve body test machine VBTM-K

The test method is based on comparing the product under test with a known-good product’s test results. To ensure high measurement accuracy, a modern, multi-channel, high-speed controller of our own production is used.

The machine imitates the operating conditions of a valve body in a vehicle.

Technical support

Worldwide delivery

Service

Training programs

Length

1230 mm

Width

850 mm

Height

1500 mm

Weight

380 kg

Maximum power consumption

7,2 kW

Voltage

400 V

Electrical network type

three-phase

Internal dimensions of the bath (LxWxH)

595х1081х423 mm

Maximum test pressure of valve-bodies

25 bar

Maximum solenoid test pressure

60 bar

Number of control channels

12

Number of output channels

12

Length

1230 mm

Width

850 mm

Height

1500 mm

Weight

380 kg

Maximum power consumption

7,2 kW

Voltage

400 V

Electrical network type

three-phase

Internal dimensions of the bath (LxWxH)

595х1081х423 mm

Maximum test pressure of valve-bodies

25 bar

Maximum solenoid test pressure

60 bar

Number of control channels

12

Number of output channels

12

Length

1230 mm

Width

850 mm

Height

1500 mm

Weight

380 kg

Maximum power consumption

7,2 kW

Voltage

400 V

Electrical network type

three-phase

Internal dimensions of the bath (LxWxH)

595х1081х423 mm

Maximum test pressure of valve-bodies

25 bar

Maximum solenoid test pressure

60 bar

Number of control channels

12

Number of output channels

12

Using the regulator, you can change the inlet pressure, replicating the operation modes of the automatic transmission pump at different engine speeds. To start testing, the following conditions are required to be set beforehand: temperature, inlet pressure, and the selection of a scenario (solenoid control algorithm).

Stages:

  • After starting the scenario, the stand will automatically start to control solenoids and simultaneously read pressure and current from all control channels in use.
  • At the end of the test, the data collected is presented in the form of graphs.
  • Using the intuitive software, the operator can select the analysis method that suits him best by switching the graphs from the normal view to the hysteresis view. Finally, the operator compares the results obtained from the test with the master graphic charts pre-loaded into the system and gives a conclusion.

The sequence of work is as follows:

  1. Mount the valve body to the adapter plate, connect both hydraulic hoses and electrical wiring in accordance with the attached diagram.
  2. The stand must be preheated to the required temperature. Select the scenario. Set the required inlet pressure according to the pop-up prompts.
  3. Start the automatic test procedure, if necessary, switch the manual valve to the required positions and await results.
  4. Analyze the data collected from the test, and give a conclusion on the condition of the valve body.

If you have any questions write to sales@kinergo.eu or via contact form.

Our company provides training for your staff to work on equipment produced by Kinergo

Training

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