KR100836499B1 - Pcsv armature performance test apparatus - Google Patents

Abstract

A PCSV(Pressure Control Solenoid Valve) armature performance test apparatus is provided to perform accurate and efficient PCSV development by measuring forces applied to the armature under an actual operation state. A PCSV armature performance test apparatus includes a base, a back pressure applier(3), a back pressure supply unit, a force sensor(7), a linear moving unit, a displacement sensor(9), and a data processor(11). The back pressure applier is fixed on the base, having a hole in the center. The back pressure supply unit provides the hole of the back pressure applier with back pressure. The force sensor locates an armature in the front for measuring a force applied to the armature. The linear moving unit moves the armature vertically toward the hole of the back pressure applier. The displacement sensor measures the amount of linear movement of the armature. The data processor processes output data of the force sensor and the displacement sensor.

Description

PCS armature performance test apparatus {PCSV armature performance test apparatus}

1 is a configuration diagram of the PS V amateur performance test apparatus according to the present invention,

Figure 2 is a perspective view of the main part of the PS V amateur performance test apparatus according to the present invention,

3 and 4 are diagrams illustrating a use example of the present invention.

<Brief description of symbols for the main parts of the drawings>

One; Base 3; Negative pressure

5; Amateur 7; Force sensor

9; Displacement sensor 11; Data processing device

13; Vertical movable clamp 15; Vertical moving block

17; Vertical guide 19; Movable block

21; 2-axis table 23; Negative pressure pump

25; Buffer tank 27; Flow sensor

29; Pressure sensor

The present invention relates to a Purge Control Solenoid Valve (PCSV) armature performance test apparatus, and more particularly, to a technology for accurately measuring the behavior of the armature by forming a similar condition to the actual operating environment of the PCSV. will be.

PCSV is used for the evaporation gas control device to prevent the evaporation gas of fuel from being released into the air. The evaporation gas which is evaporated in the fuel tank and collected in the canister is transferred to the engine intake system by the control of the engine controller. It performs the function of delivering or blocking.

The PCSV needs accurate flow control and leakage prevention functions. The function of the PCSV is greatly dependent on the structure, shape, and material of the armature which enables the opening and closing action of the PCSV by linear sliding by the solenoid inside the PCSV.

In the prior art, there was no separate device capable of accurately measuring the behavior of the armature as described above. Therefore, there was a problem that the accuracy and efficiency of the development of the PCSV is not sufficiently secured.

The present invention has been made to solve the problems described above, artificially create a state similar to the state in which the PCSV is actually operated, in which the force acting on the armature of the PCSV and the armature should be applied to operate. It is an object of the present invention to provide a PSV amateur performance test apparatus that enables accurate measurement of the relationship of force and the like, thereby enabling the development of accurate and efficient PCSV.

The present invention PS V amateur performance test apparatus for achieving the object as described above

A base;

A negative pressure actuator fixed to the base and formed with a hole in the center thereof;

A negative pressure pump connected to the hole of the negative pressure actuator to provide negative pressure;

A force sensor that measures the force acting on the armature while the armature is fixed to the tip;

A linear movement means installed on the base to move the armature fixed to the tip of the force sensor in a straight direction in a vertical direction toward the hole of the negative pressure actuator;

A displacement sensor provided to measure the linear movement amount of the armature;

A data processing device for processing output data of the force sensor and the displacement sensor;

Characterized in that configured to include.

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

1 and 2, an embodiment of the present invention includes a base 1; A negative pressure actuator (3) fixed to the base (1) and having a hole in the center thereof; Negative pressure supply means for providing negative pressure to the holes of the negative pressure actuator 3; A force sensor 7 fixed to the tip of the armature 5 and measuring a force acting on the armature 5; The armature (5) installed on the base (1) and fixed to the tip of the force sensor (7) by moving the force sensor (7) is linearly moved in a vertical direction toward the hole of the negative pressure working body (3). Linear movement means provided to allow; A displacement sensor 9 provided to measure the linear movement amount of the armature 5; And a data processing device 11 for processing the output data of the force sensor 7 and the displacement sensor 9.

The negative pressure actuator (3) is a model of the valve body of the PCSV, paired with the armature (5) to form a counterpart necessary to function to open and close the evaporation gas line from the canister to the engine intake pipe Collectively.

Thus, the armature 5 can slide and open and close the hole of the negative pressure body 3 to play a role of PCSV, and the tip and excitation of the negative pressure body 3 to which the armature 5 comes into contact. The leakage and flow rate performance of the PCSV is determined by the contact surface shape of the armature 5 in contact with.

In FIG. 1, a simple pipe-shaped valve nipple having a hole in the center was used as the negative pressure actuator 3, but in addition, the valve body of the PCSV acting as a valve by opening and closing the hole by sliding the armature 5. It can also be used as a negative pressure agent.

Of course, in order to use the valve body as a negative pressure body, the armature 5 connected to the force sensor 7 should be slid linearly from the outside to cut out one side of the valve body so that the hole of the valve body can be opened and closed to open the inside. something to do.

The negative pressure member (3) is fixed to the base (1) by a vertical movable clamp (13) capable of fixing the position by linearly moving in a vertical direction with respect to the base (1), the vertical movable clamp ( 13 is perpendicular to the base 1 in a state in which the negative pressure body 3 is fixed by using an adhesive, a screw, a spring or a clip, or other known means capable of fixing the negative pressure body 3. It is made of a known mechanism that can be fixed in a state where the height in one direction is adjusted.

In FIG. 2, a circular groove is formed in the center to fix the negative pressure actuator 3 with an adhesive, and the vertical movable block 15 and the vertical movable block (S) of the vertical movable block 15 which can slide up and down with respect to the base 1. 15 shows a vertical guide 17 for guiding the sliding of the vertical movement block 15 and the vertical guide 17 to form an embodiment of the vertical movement clamp 13.

The vertical movement block 15 is fitted to the vertical guide 17 with a relatively strong elastic force, so that the state is kept constant by adjusting the position by pushing the vertical movement block 15 up and down with respect to the vertical guide 17. It can be a configuration.

The negative movement body 3 is fixed to the vertical movement block 15 with an adhesive.

The linear movement means is constituted by a two-axis table 21 which is capable of linearly moving the movable block 19 in two axes orthogonal to a plane in a horizontal direction with respect to the base 1, and is made of a known mechanism. The biaxial table 21 is used.

The two-axis table 21 is in a state of forming three axes orthogonal to each other along with the vertical direction which is an operation direction of the vertical movement clamp 13.

Accordingly, the negative pressure actuator 3 is fixed to the vertical movable clamp 13 to adjust the height of the negative pressure actuator 3 and the biaxial table 21 is mounted at the tip of the force sensor 7. By adjusting the position of the armature (5), the state capable of linearly moving the armature (5) in a direction perpendicular to the hole of the negative pressure body (3) in accordance with the hole of the negative pressure body (3) is ensured. do.

Of course, the force sensor 7 and the displacement sensor 9 are installed in the movable block 19 of the two-axis table 21 to change the position of the movable block 19 to the two-axis table 21. The operation to make is to adjust the position of the force sensor 7, which in turn is to adjust the position of the armature (5) mounted on the tip of the force sensor (7), the position change of the armature (5) Can be detected by the displacement sensor 9.

LVDT (Linear Variable Differential Transformer) can be used as the displacement sensor (9), and the LVDT has a spring built therein so that the tip of the reading end of the LVDT is always connected to the base (1) such as a vertical movable clamp (13). The relative displacement can be measured as the movable block 19 is moved in a state in which the movable block 19 is elastically supported at a predetermined position. In the case of using a non-spring-loaded LVDT, the probe end is provided with respect to the base 1. By fixing and moving the movable block 19 it is possible to measure the displacement, in this case it is possible to exclude the influence of the force by the built-in spring can be a more accurate measurement.

The armature 5 can be fixed to the tip of the force sensor 7 with an adhesive.

The negative pressure supply means includes a negative pressure pump 23 connected to the hole of the negative pressure actuator 3, a buffer tank 25 between the negative pressure actuator 3 and the negative pressure pump 23 to store negative pressure; A flow rate sensor 27 for measuring a flow rate of air flowing between the buffer tank 25 and the negative pressure actuator 3, and a flow rate of air flowing between the buffer tank 25 and the negative pressure actuator 3. It is configured to include a pressure sensor 29 for measuring the pressure.

On the other hand, the data processing device 11 may be configured to process the signal of the flow sensor 27 and the pressure sensor 29 together, the device equipped with a data processing function and a display function, such as a computer used It is desirable to be.

Looking at the operation of the present invention configured as described above are as follows.

The armature (5) mounted on the tip of the force sensor (7) using the biaxial table (21) while driving the negative pressure pump (23) to apply negative pressure to the negative pressure working body (3). The measured values of the force sensor 7, the displacement sensor 9, the flow rate sensor 27 and the pressure sensor 29 are operated while being spaced apart from the compressed state with respect to the negative pressure actuator 3. Process as (11).

At this time, by adjusting the driving state of the negative pressure pump 23 it can adjust the magnitude of the negative pressure provided to the negative pressure working body (3).

FIG. 3 shows a process of sequentially separating the armature 5 from the state in which the armature 5 is pressed against the negative pressure working body 3 by the biaxial table 21, and FIG. 4 is measured from the sensors during the process as shown in FIG. Is a graph showing the result.

3 is a state in which the rubber provided on the surface of the armature 5 is compressed, and a negative pressure similar to the operating state of the engine acts on the negative pressure working body 3, and the biaxial table 21 The rubber of the armature 5 is pressed against the negative pressure body 3 to press the armature 5 to the negative pressure body 3 at a certain pressure so that air does not leak.

This state is indicated by the line A in FIG. 4, the force of F1 is detected by the force sensor 7, the flow rate is 0, and the pressure is a negative pressure state.

In the state shown in the center of FIG. 3 to be described later, the flow rate is 0 and the pressure is a negative pressure state. However, in this state shown in the upper side of FIG. It is a replica of the pressurized state as it is, it means a stable state that can substantially prevent the leakage of air in the PCSV.

The state shown in the center of FIG. 3 is a state just before the armature 5 is spaced apart from the negative pressure body 3, the state of line B in FIG. 4, the force of F2 is detected in the force sensor 7, and the flow rate is Is 0 and the pressure is under negative pressure.

3 is a state in which the armature 5 is completely spaced apart from the negative pressure actuator 3, which corresponds to the line C in FIG. 4, and the force sensor 7 is in the state of F3. Practically, it is a state in which force is not added or applied to the armature 5 separately.

In the section between the line B and C of FIG. 4, the F2 changes to F3, the negative pressure drops to approach atmospheric pressure, and the flow rate of air flowing through the negative pressure actuator 3 increases rapidly. Is expressed.

Of course, the graph as shown in FIG. 4 will appear differently depending on the shape, material, structure, etc. of the armature 5, and will also change depending on the magnitude of the negative pressure provided to the negative pressure actuator 3.

Therefore, in developing the PCSV, in the apparatus similar to the present invention, the actual behavior of the various armatures 5 can be measured accurately and relatively easily as described above in a state similar to the negative pressure generated in the engine according to the engine. Based on this measurement data, the development efficiency and accuracy of PCSV can be greatly improved.

As described above, according to the present invention, it is possible to artificially create a state similar to the state in which the PCSV is actually operated, and to accurately measure the relationship between the force acting on the armature of the PCSV and the force applied to the armature in the state. This allows the development of accurate and efficient PCSVs.

Claims (3)

A base; A negative pressure actuator fixed to the base and formed with a hole in the center thereof; A negative pressure pump connected to the hole of the negative pressure actuator to provide negative pressure; A force sensor that measures the force acting on the armature while the armature is fixed to the tip; A linear movement means installed on the base to move the armature fixed to the tip of the force sensor in a straight direction in a vertical direction toward the hole of the negative pressure actuator; A displacement sensor provided to measure the linear movement amount of the armature; A data processing device for processing output data of the force sensor and the displacement sensor; PSV amateur performance test device, characterized in that configured to include. The method according to claim 1, The negative pressure working body is fixed to the base by a vertical movable clamp capable of fixing the position by linearly moving in a vertical direction with respect to the base; The linear movement means is constituted by a two-axis table capable of linearly moving the movable block in two axes perpendicular to a plane in a horizontal direction with respect to the base; The force sensor and the displacement sensor are installed in the movable block of the two-axis table PSV amateur performance test device, characterized in that. The method according to claim 1, A buffer tank for storing the negative pressure is provided between the negative pressure working body and the negative pressure pump, Is provided with a flow rate sensor for measuring the flow rate of air flowing between the buffer tank and the negative pressure working body, A pressure sensor for measuring the pressure of the air flowing between the buffer tank and the negative pressure working body, The data processing device is to process the signals of the flow sensor and the pressure sensor PSV amateur performance test device, characterized in that.

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