KR101839785B1 - Electric Vacuum Pump Measuring Device to measure the character of Pump or Motor Based on the Displacement Voume, Vacuum Pressure - Google Patents

Abstract

The present invention relates to a brake booster, comprising: an electric vacuum pump for discharging air to assist a braking force of a brake booster; A tank disposed upstream of the electric vacuum pump for storing air; An air flow path extending to the upstream side of the tank and communicating with the tank and the electric vacuum pump to guide the air; The tank is connected to the air passage so as to be connected to the air passage, and an intake control valve for opening / closing the upstream passage so that air is introduced or blocked at an upstream side of the air passage.
Therefore, according to the present invention, it is possible to easily and conveniently measure the exhaust speed and the like of an electric vacuum pump on the basis of the air suction amount, and it is possible to easily and conveniently adjust the load condition using variable tanks of various capacities. A pump measuring device can be provided.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electric vacuum pump measuring device capable of measuring the characteristics of a pump or a motor on the basis of an amount of exhaust gas and a vacuum pressure,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electric vacuum pump measuring apparatus and, more particularly, to an electric vacuum pump measuring apparatus improved in structure so that characteristics of a motor or a pump can be measured and evaluated based on an exhaust speed / .

Automobiles are a modern means of transportation that combines many components. Such a vehicle typically uses a braking device for the driver to stop the vehicle. The braking device is composed of an operating mechanism that increases the operating force of the driver by using a link, hydraulic pressure, or pneumatic pressure, and a main body that receives the force to generate the braking force. Among them, the power brake uses vacuum or compressed air to lighten the operation force.

The brake can also be said to be a device that converts the kinetic energy of a moving vehicle into thermal energy. The performance of the brakes depends on how quickly the heat generated is processed.

Brakes, along with engines and tires, are an integral part of the car. This is because if the engine is able to rotate the tire and run the vehicle, it can not be stopped and is not established as a means of movement.

To improve the performance of the brakes, it is the brake booster that increases the force that the driver presses on the brake pedal by using the air suction force of the engine, the vacuum air pressure or the hydraulic pressure. An electric vacuum pump driven by an electric motor including a motor is used as one of means for providing vacuum pressure to the brake booster.

What is important in the brake performance of an automobile is that, depending on the degree of depression of the brake pedal, the brake must be operated as much as the driver expects. Depending on the maximum speed of the car, it is desirable that the brake pedal be weakly depressed at any speed, and the brake be reliably actuated when it is strongly depressed.

Meanwhile, in recent years, various types or applications of braking devices have been used, and in particular, one of them uses an electric vacuum pump as described above to generate vacuum pressure in the booster to assist the braking force of the braking device. In this case, the durability test of the electric vacuum pump to be applied corresponding to the condition (for example, the vehicle weight, the output, the tire size, etc.) of the vehicle to be applied and the test It is desirable to provide the equipment and the method, and to provide the result thereof to the customers.

In addition, it is desirable to be able to easily and variously measure various performance and capabilities of the designed or manufactured electric vacuum pump.

<References>

Public utility model public office room 1999-0032942 (2999)

An object of the present invention is to provide an electric vacuum pump measuring apparatus which can easily and conveniently measure the exhaust speed of an electric vacuum pump based on the air suction amount.

It is another object of the present invention to provide an electric vacuum pump measuring apparatus which can easily and easily adjust a load condition using variable tanks of various capacities.

It is still another object of the present invention to provide an electric vacuum pump measuring apparatus which can cope with various practical conditions simply and conveniently.

It is still another object of the present invention to provide an electric vacuum pump measuring apparatus which can easily and conveniently test the durability of an electric vacuum pump corresponding to various load conditions.

An object of the present invention is to provide an electric vacuum pump which discharges air to assist the braking force of the brake booster; A tank disposed upstream of the electric vacuum pump for storing air; An air flow path extending to the upstream side of the tank and communicating with the tank and the electric vacuum pump to guide the air; The tank is connected to the air passage so as to be connected to the air passage, and an intake control valve for opening / closing the upstream passage so that air is introduced or blocked at an upstream side of the air passage. Wherein each of the tanks is coupled to the air passage so as to be connected to and disconnected from the air passage, and wherein one of the tanks is variable to control the amount of air contained therein. do.

It is preferable that an exhaust speed sensor capable of sensing the speed of air moving on the air flow path on the air flow path between the tank and the electric vacuum pump and a vacuum sensor capable of sensing air pressure Do.

delete

According to the present invention, it is possible to easily and conveniently measure the exhaust speed and the like of the electric vacuum pump based on the air suction amount, and to measure the electric vacuum pump which can easily and conveniently adjust the load condition by using a variable tank of various capacities Device can be provided.

Further, it is possible to provide an electric vacuum pump measuring apparatus which can easily and conveniently respond to various actual conditions and can easily and conveniently test the durability of the electric vacuum pump corresponding to various load conditions.

1 is a schematic view showing a measuring apparatus according to an embodiment of the present invention,
2 is a flow chart showing an example of the operation process of the measuring apparatus,
3 is a graph showing changes in vacuum pressure with time according to the operation of the intake control valve.

The electric vacuum pump measuring apparatus 100 (hereinafter, referred to as 'pump measuring apparatus') according to an embodiment of the present invention will be described in detail with reference to FIGS. 1 to 3. FIG.

FIG. 1 is a schematic view showing a measuring apparatus according to an embodiment of the present invention, FIG. 2 is a flowchart showing an example of the operation process of the measuring apparatus, FIG. 3 is a time- As shown in FIG.

As shown in FIG. 1, the pump measurement apparatus 100 according to an embodiment of the present invention includes: a motor-driven vacuum pump 110 for discharging air to assist the braking force of the brake booster; A tank (131, 133, 135) disposed upstream of the electric vacuum pump (110) for storing air; An air passage 170 for guiding air between the tanks 131, 133, 135 and the electric vacuum pump 110; The tanks 131, 133 and 135 are connected to the air passage 170 so as to be connected to the air passage 170 and include an intake control valve 149 for opening and closing the inflow of air into the air passage 170 .

The pump measuring apparatus 100 measures the speed of air moving on the air passage 170 on the air passage 170 between the tanks 131, 133 and 135 and the electric vacuum pump 110 It is preferable to have an exhaust speed sensor 143 capable of sensing and vacuum sensors 145 and 147 capable of sensing air pressure.

The tanks 131, 133, and 135 are connected to the tanks 131, 133, and 135 to be connected to and disconnected from the air passage 170, 135 may be varied to control the amount of air contained therein.

The capacities of the tanks 131, 133, and 135 may include one of specifications of the electric vacuum pump 110 required by the maker of the finished car. That is, among the specifications of the electric vacuum pump 110, vacuum capacity in consideration of a vacuum-related pipe including a tank requiring a vacuum in the vehicle, required target vacuum pressure, and arrival time of the target vacuum pressure can be exemplified.

The first tank 131 has a capacity of 1 liter, and the first tank 131 is connected to the air passage 170 and the first tank 131 is connected to the air passage 170, And the second tank 133 has a second control valve 133a which is controlled to be connected to and disconnected from the air passage 170 at a capacity of 3 liters and the variable tank 135 is connected to the cylinder 135c and a piston 135b and is actuated by an actuator 135d (for example, a linear motor or the like) for moving the piston so that the capacity of the cylinder is changed to the cylinder 135c in accordance with the moving distance of the piston 135b in the cylinder 135c And a variable regulating valve 135a which can change the capacity of the variable tank 135 according to the capacity of the intake valve 135c and is controlled to be connected to and disconnected from the air passage 170. [ With this structure, the variable tank 135 can adjust the capacity from a maximum of 2 liters to a minimum of 0.1 liter.

The combination of the first tank 131, the second tank 133 and the variable tank 135 allows the pump measurement apparatus 100 according to the present invention to increase the capacity of the tanks 131, 133 and 135 from about 0.1 liter to 6 liter, so that the capacities of the tanks 131, 133, and 135 according to various load conditions can be easily and simply set and selected.

The air passage 170 is disposed between the most upstream side of the electric vacuum pump 110 and the electric vacuum pump 110, and is a passage through which the air moves. Since the air passage 170 is a passage through which air is sucked, the pressure of the air passing through the air passage 170 is a vacuum pressure lower than the atmospheric pressure.

That is, in one embodiment of the present invention, the intake control valve 149, the first tank 131, the first control valve 131a, and the variable tank (not shown) are connected from the upstream side of the air passage 170 to the electric vacuum pump 110 135 and the variable control valve 135a-the second tank 133 and the second control valve 133a -the flow meter 141 -the exhaust speed sensor 143 -the first vacuum sensor 145 -the auxiliary tank 151, - second vacuum sensor 147 are arranged in this order.

Here, the auxiliary tank 151 is preferably disposed between the second tank 133 and the electric vacuum pump 110 as necessary so as to maintain the vacuum pressure formed as needed.

The first vacuum sensor 145 is disposed between the second tank 133 and the auxiliary tank 151 to sense the pressure on the air passage 170. The second vacuum sensor 147 senses the pressure on the auxiliary passage 151, And may be disposed between the vacuum pumps 110 to sense the pressure on the air passage 170.

And an exhaust speed sensor 143 coupled to the air flow path 170 between the second tank 133 and the auxiliary tank 151 to sense a flow speed of the air flowing through the air flow path 170 .

The control unit 160 controls the operation of the various components and receives sensed data. The control unit 160 includes an electric vacuum pump 110 connected to the controller 160 through a dotted line, A first control valve 131a, a second control valve, a variable control valve 135a, an actuator 135d, an exhaust speed sensor 143, a first vacuum sensor 145, a second vacuum sensor 147, And an adjustment valve 149.

The operation of the pump measuring apparatus 100 will now be described with reference to FIGS. 2 and 3. FIG.

First, as shown in FIG. 2, the capacities of the tanks 131, 133 and 135 are firstly combined with the first tank 131, the second tank and the variable tank 135 to determine the number of revolutions of the electric vacuum pump 110, The air discharge capacity at the time of one rotation, and the like (S210).

Then, the electric vacuum pump 110 is operated (S220), and the controller 160 extracts various data according to the operation of the electric vacuum pump 110, and can measure or evaluate it (S230).

That is, through the above process, the exhaust speed, the change of the vacuum pressure, the voltage of the motor (not shown) for driving the electric vacuum pump 110, and / or the change of the electric current with the arrival of the vacuum of the electric vacuum pump 110, 160) and can display and output it.

After completion of such a cycle, the operation of the electric vacuum pump 110 is stopped for a predetermined period, the intake control valve 149 is opened, the vacuum pressure on the air passage 170 is partially destroyed, and the electric vacuum pump 110 Operation is repeatedly performed for the preset number of times (S243) and operation is performed (S240), and the process proceeds to the next step (S245).

 In this process, the above-described step S230 is performed for each cycle, and the record is measured and held for each cycle. Similarly, the record or data of the repeated number of times is recorded and the performance of the electric vacuum pump 110, And the durability can be measured / evaluated (S250).

In this process, the change of the vacuum pressure and the intake control valve 149 are shown in FIG. 3 as a graph.

As shown in FIG. 3, when the electric vacuum pump 110 is operated for a certain time 't1' (for example, 1 second) while the intake control valve 149 is closed, the vacuum pressure increases from 450 mmHg to 225 mmHg Here, when the intake control valve 149 is opened for a certain time 't2' (for example, for 2 seconds), the vacuum pressure of the air passage 170 is reduced from 225 mmHg to 450 mmHg. Through this process, the amount of air to be exhausted and the exhaust speed can be grasped, and the current, voltage change, etc. of the motor driving the electric vacuum pump 110 can be grasped so that the permissible current of the motor of the electric vacuum pump 110 It is possible to grasp or measure the optimum exhaust speed, the vacuum pressure forming time,

In other words, by controlling the time for opening and closing the intake control valve 149, the target vacuum pressure and the exhaust amount can be uniformly maintained, uniformly optimized, or minimized with a constant amplitude. Under these conditions, It is possible to derive the efficiency of the motor or the pump from various kinds of data.

According to the present invention, it is possible to easily and conveniently measure the exhaust speed and the like of the electric vacuum pump on the basis of the air suction amount, and to easily and conveniently adjust the load condition by using variable tanks of various capacities An electric vacuum pump measuring device can be provided.

Further, it is possible to provide an electric vacuum pump measuring apparatus which can easily and conveniently respond to various actual conditions and can easily and conveniently test the durability of the electric vacuum pump corresponding to various load conditions.

In addition, it is possible to provide a simple and convenient electric vacuum pump test apparatus and a method of generating an optimal operation algorithm of an electric vacuum pump.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art without departing from the scope and spirit of the invention. will be. The scope of the invention will be determined by the appended claims and their equivalents.

100: pump measuring device 110: electric vacuum pump
130: tank 131: first tank
131a: first control valve 133: second tank
133a: second control valve 135: variable tank
135a: variable control valve 141: flow meter
143: exhaust speed sensor 145: first vacuum sensor
147: second vacuum sensor 149: intake control valve
151: auxiliary tank 160:
170: air flow

Claims (3)

An electric vacuum pump for discharging air to assist the braking force of the brake booster;
A tank disposed upstream of the electric vacuum pump for storing air;
An air flow path extending to the upstream side of the tank and communicating with the tank and the electric vacuum pump to guide the air;
The tank is connected to the air passage so as to be connected to the air passage, and an intake control valve for opening / closing the upstream passage so that air is introduced or blocked at an upstream side of the air passage. Wherein each of the tanks is coupled to the air passage so as to be connected to and disconnected from the air passage, and wherein one of the tanks is variable to control the amount of air contained therein. The method according to claim 1,
An exhaust speed sensor capable of sensing the speed of air moving on the air flow path on the air flow path between the tank and the electric vacuum pump, and a vacuum sensor capable of sensing air pressure. Electric vacuum pump measuring device. delete

Images