KR101220357B1 - System for measuring flow visibility and passed flow of oil jet for cooling a piston in diesel engine - Google Patents

Abstract

The apparatus for visualizing flow and passing flow of a piston cooling oil jet of a disclosed diesel engine includes a test piston for reciprocating up and down like an engine; A drive motor connected to the test piston to drive the test piston and to control the movement of the test piston; A TDC position sensor and a BDC position sensor respectively installed at an upper side and a lower side to one side of the test piston; A camera installed at one side of the TDC position sensor and the BDC position sensor to measure the filling rate of the piston cooling gallery; An oil jet installed under the test piston; An XYZ axis coordinate system installed between the oil jet and the test piston to adjust coordinates of the oil jet; A position adjusting device installed under the test piston and the oil jet to adjust the position of the test piston and the oil jet; An oil tank installed to receive the oil discharged from the oil jet; A heater installed in the oil tank to heat oil in the oil tank; It is installed on the lower side of the oil jet and a pressure sensor for measuring the pressure and temperature of the oil, and a temperature sensor; characterized in that it comprises a.

Piston, Oil Jet, Oil Tank

Description

Flow Visibility and Passage Flow Measurement Apparatus for Piston Cooling Oil Jet for Diesel Engines {SYSTEM FOR MEASURING FLOW VISIBILITY AND PASSED FLOW OF OIL JET FOR COOLING A PISTON IN DIESEL ENGINE}

1 is a view schematically showing the configuration of the flow visualization and the flow rate measuring device of the oil jet for cooling the piston of the diesel engine according to the present invention.

Figure 2 is a schematic flow chart showing sequentially the operation of the flow visualization and the flow rate measuring device of the oil jet for cooling the piston of the diesel engine according to the present invention.

<Description of the symbols for the main parts of the drawings>

11. Test piston 12. Drive motor

13. TDC position sensor 14. BDC position sensor

15. XYZ axis coordinate system 16. Pressure control system

17. Flexible hose 19. Gear mechanism

21. Oil Jet 22. Oil Tank

23. Heater 25. Heat exchanger

26. Oil Drain 27. Temperature Sensor

28. Pressure sensor 29. Circulation pump

31. Camera

The present invention relates to an apparatus for visualizing flow and passage flow of a piston cooling oil jet of a diesel engine, and more particularly, to cooling a piston of a diesel engine for measuring flow visualization, flow rate, filling rate, etc. under actual piston motion conditions. The present invention relates to an apparatus for visualizing flow and passing flow of oil jet.

Although not shown in the prior art, the oil jet flow rate measuring device of a commercial diesel engine reduces the error in time by using an automatic timer, and the pressure and temperature sensor is installed in front of the oil jet discharge, and is equal to the set temperature and pressure. It was configured and tested.

However, the conventional measuring device as described above has the following problems.

First, the measurement was made on the assumption that the piston was static, so that the piston was in a dynamic condition and an error occurred.

And it was impossible to measure the filling rate, which is the biggest concern of the piston cooling gallery.

In addition, there was a gravity error due to the horizontal design, and it was impossible to visualize the flow of the piston cooling gallery.

The present invention has been created to solve the above problems, the same as the engine to enable the vertical movement of the piston to enable the measurement of flow visualization, flow rate, filling rate, etc. in the actual piston movement conditions of the diesel engine It is an object of the present invention to provide an apparatus for visualizing flow and passing flow of a piston cooling oil jet.

In order to achieve the above object, the apparatus for visualizing flow and passing flow of a piston cooling oil jet of a diesel engine of the present invention includes a test piston for reciprocating up and down; A drive motor connected to the test piston to drive the test piston and to control the movement of the test piston; A TDC position sensor and a BDC position sensor respectively installed at an upper side and a lower side to one side of the test piston; A camera installed at one side of the TDC position sensor and the BDC position sensor to measure the filling rate of the piston cooling gallery; An oil jet installed under the test piston; An XYZ axis coordinate system installed between the oil jet and the test piston to adjust coordinates of the oil jet; A position adjusting device installed under the test piston and the oil jet to adjust the position of the test piston and the oil jet; An oil tank installed to receive the oil discharged from the oil jet; A heater installed in the oil tank to heat oil in the oil tank; It is characterized in that it comprises a pressure sensor and a temperature sensor, which is installed on the lower side of the oil jet for measuring the pressure and temperature of the oil.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 1 is a schematic diagram showing the configuration of the flow visualization and the flow rate measuring apparatus of the oil jet for cooling the piston of the diesel engine according to the present invention.

Referring to the drawings, the apparatus for visualizing flow and passing flow of a piston cooling oil jet of a diesel engine according to the present invention includes a test piston 11 reciprocating up and down like an engine and a test piston 11. A driving motor 12 connected to drive the test piston 11 and controlling the movement of the test piston 11, and to one side of the test piston 11, that is, upper and lower parts, that is, a TDC (Top Dead Center) and a BDC. TDC position sensor 13, BDC position sensor 14, and one side of the TDC position sensor 13 and BDC position sensor 14 respectively installed in the (Bottom Dead Center) are installed to measure the filling rate of the piston cooling gallery. It is configured to include a camera 31 and the oil jet 21 installed in the lower portion of the test piston (11).

In the flow visualization and passage flow rate measurement device for the piston cooling oil jet of the diesel engine according to the present invention, an XYZ axis is installed between the oil jet 21 and the test piston 11 to match the coordinates of the oil jet 21. Coordinate system 15, a position adjusting device installed below the test piston 11 and the oil jet 21 to adjust the position of the test piston 11 and the oil jet 21, and the oil jet 21. Oil tank 22 installed to receive the oil discharged from the tank, a heater 23 installed in the oil tank 22 to heat the oil in the oil tank 22, and a lower side of the oil jet 21. It is provided with a pressure sensor 28 and a temperature sensor 27 for measuring the pressure and temperature of the oil.

In addition, the position adjusting device is connected to the drive motor 12, the gear device for rotating the test piston (11) to move in a linear motion, and installed in the lower portion of the oil jet 21 in a straight line And a flexible hose 17 for measuring the flow rate, temperature and pressure.

The pressure sensor 28 and the temperature sensor 27 are installed at one side of the flexible hose 17, and the pressure sensor 28 is connected to the pressure control system 16 installed at the other side of the flexible hose 17. Is installed.

In addition, the lower part of the oil jet 21 is provided with an oil sump 26 receiving the oil discharged from the oil jet 21, between the oil sump 26 and the oil tank 22 of the oil sump 26 A circulation pump 29 for circulating oil is installed.

The oil tank 22 is provided with a heat exchanger 25 for adjusting a set temperature.

In addition, the test piston 11 is preferably made transparent for flow visualization.

Meanwhile, reference numeral 18 not illustrated in FIG. 1 denotes an oil drain valve, and 24 denotes a bypass valve.

Referring to the operation of the flow visualization and the flow rate measuring device of the oil jet for cooling the piston of the diesel engine according to the present invention having the configuration as described above are as follows.

Referring back to the drawings, the flow visualization and passage flow rate measuring device for the piston cooling oil jet of the diesel engine according to the present invention, the test piston 11 is installed in the same way as the actual engine, and the engine at the same speed up and down The oil supply device is configured to enable movement and to supply oil in the same condition as that of the oil jet 21 mounted on the engine to measure the discharge flow rate and the flow rate of the oil jet 21.

Therefore, the flow visualization and passage flow rate measurement device for the piston cooling oil jet of the diesel engine according to the present invention can be tested under the same conditions as the engine since the test piston 11 operates in the same manner as in the actual case.

This will be explained in more detail.

Referring back to Figure 1, the flow visualization and the flow rate measuring device of the piston cooling oil jet of the diesel engine according to the present invention, the test piston (11) can be moved up and down like the engine in the actual piston movement conditions By measuring the flow visualization, the flow rate, the filling rate, etc., the test piston 11 and the oil jet 21 are mounted with the piston and the oil jet of the actual engine.

Since the positions of the oil jet and the piston cooling gallery are different from each other by engine type, the positions of the test piston 11 and the oil jet 21 are adjusted by using the flexible hose 17 and the gear device 19.

In addition, it is checked whether the relative positions of the piston cooling gallery and the oil jet 21 coincide with the drawing by using the XYZ axis coordinate system 15 for X, Y, and Z positioning. When the mounting is completed, the oil is heated in the oil tank 22 using the heater 23 until the set temperature is reached.

In addition, when the set temperature is reached, the test piston 11 is operated up and down using the driving motor 12, and when the oil discharged from the oil jet 21 is collected into the oil receiver 26, the purifying pump is used. Circulate oil.

When the set pressure and temperature are reached, the measurement button of the control panel is pressed, and the oil passage through the actual piston 11 is measured, and the passage efficiency of the oil jet 21 is calculated using this.

In addition, when the test piston 11 is in the same position as the TDC and BDC, the signals of the TDC position sensor 13 and the BDC position sensor 14 are synchronized to operate the strobe light source and the camera 31, and to take an image. Using this, calculate the filling rate and visualize the flow of the piston cooling gallery.

As described above, according to the present invention, the oil temperature, pressure, and passage efficiency measuring method measures the passage efficiency in a static state of the piston.

And when the test piston 11 is moved up and down (dynamic state), by using the TDC position sensor 13 and the BDC position sensor 14 to synchronize the signal at a specific position, such as TDC or BDC, strobe light source and camera (31) to operate and to measure the image and data. That is, the filling rate is measured.

And since the test piston 11 is made transparent, it is possible to visualize the flow of the piston cooling gallery.

This will be described in more detail.

Figure 2 is a schematic flow chart showing sequentially the operation of the flow visualization and the flow rate measuring device of the oil jet for cooling the piston of the diesel engine according to the present invention.

Referring to the drawings, first, it is determined whether the test piston 11 is in a static state or a dynamic state. (Step 110).

If the test piston 11 is stationary in step 110, the position, temperature, and pressure of the test piston 11 are set.

It is determined whether the temperature and pressure set in step 120 have reached the set temperature and pressure.

If the condition at step 130 is satisfied, the measurement time is set. (Step 140) At this time, the valve and the circulation pump 29 installed in the test apparatus according to the present invention are turned off.

The data is then stored, for example, the pressure, temperature, flow rate and initial weight of the oil (step 150).

After the measurement time has elapsed for some time, the final weight value is stored and the flow rate and the passage efficiency are calculated (steps 160 and 170).

On the other hand, if the test piston 11 is in the vertical movement state in step 110, the RPM, temperature and pressure of the test piston 11 is set (step 210).

It is determined whether the temperature and pressure set in step 210 have reached the set temperature and pressure.

If the condition in step 220 is satisfied, data, for example, pressure, temperature, and discharge flow rate of the oil are stored.

Next, the position of the test piston 11 is determined. (Step 240) At this time, the position of the test piston 11 is measured by the TDC position sensor 13 and the BDC position sensor 14.

If the test piston 11 is located at the positions of the TDC and the BDC in step 240, for example, a stroboscope light source and a camera 31 are used to measure images and data, and the final images and data are stored. (Step 250)

Then, the discharge flow rate and the filling efficiency of the oil are measured (step 260).

As described above, the apparatus for visualizing flow and passing flow of the oil jet for cooling the piston of the diesel engine according to the present invention has the following effects.

The piston and oil jet actually work with the engine, allowing testing under the same conditions as the engine.

In the same way as the engine, the vertical movement of the test piston is enabled, so that the flow visualization, the flow rate, the filling rate, etc. can be measured under the actual movement condition of the piston of the engine.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the scope of the invention. Therefore, the true scope of protection of the present invention should be defined only by the appended claims.

Claims (7)

A test piston reciprocating up and down; A drive motor connected to the test piston to drive the test piston and to control the movement of the test piston; A TDC position sensor and a BDC position sensor respectively installed at an upper side and a lower side to one side of the test piston; A camera installed at one side of the TDC position sensor and the BDC position sensor to measure the filling rate of the piston cooling gallery; An oil jet installed under the test piston; An XYZ axis coordinate system installed between the oil jet and the test piston to adjust coordinates of the oil jet; A position adjusting device installed under the test piston and the oil jet to adjust the position of the test piston and the oil jet; An oil tank installed to receive the oil discharged from the oil jet; A heater installed in the oil tank to heat oil in the oil tank; Is installed on the lower side of the oil jet pressure sensor for measuring the pressure and temperature of the oil, and a temperature sensor; flow visualization and flow rate measuring apparatus of the oil jet for cooling the piston of the diesel engine, characterized in that it comprises a. The method of claim 1, The position adjusting device, A gear device connected to the drive motor and rotating so that the test piston moves linearly; And a flexible hose installed at a lower portion of the oil jet to measure flow rate, temperature, and pressure on a straight line. The apparatus for visualizing flow and passing flow rate of an oil jet for cooling a piston of a diesel engine. 3. The method of claim 2, The pressure sensor and the temperature sensor is installed on one side of the flexible hose, the pressure sensor is flow visualization of the piston oil oil jet for cooling the diesel engine, characterized in that connected to the pressure control system installed on the other side of the flexible hose. And a flow rate measuring device. The method of claim 1, An apparatus for visualizing flow and passing flow rate of an oil jet for cooling a piston of a diesel engine, characterized in that an oil sump receiving a discharged oil from the oil jet is installed below the oil jet. 5. The method of claim 4, A device for visualizing flow and passing flow of a piston cooling oil jet of a diesel engine, characterized in that a circulation pump is installed between the oil reservoir and the oil tank to circulate oil in the oil reservoir. The method of claim 1, The oil tank has a heat exchanger for adjusting the set temperature, characterized in that the flow visualization and the flow rate measuring device of the oil jet for cooling the piston of the diesel engine. The method of claim 1, The test piston is a device for visualizing the flow visualization and the flow rate of the oil jet for cooling the piston of the diesel engine, characterized in that the transparent production.

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