KR20000006109U - Hydraulic generator - Google Patents

Abstract

The present disclosure relates to a hydraulic generator which is configured to allow a motor for driving a hydraulic pump of a hydraulic circuit to be initially driven by an externally supplied hydraulic pressure and continuously driven by hydraulic energy generated from the hydraulic pump.

The disclosed hydraulic generator includes an injection valve for controlling the amount of oil injected into the internal pipe from the outside, a compressor for raising and storing the pressure of the oil injected into the pipe up to a set pressure, and a pump for continuously rotating the movement of high pressure oil Hydraulic motor, a gear increaser that receives rotational motion and generates a rotational force that is faster than the rotational speed of the hydraulic motor for pumping according to the ratio of the gear ratio of the multiple gears, and hydraulic energy by pumping oil stored in the oil tank by receiving the rotational force. The hydraulic pump for generating a power, the hydraulic motor for power by continuous rotational movement by the hydraulic energy and the high pressure oil stored in the compressor, by supplying the high pressure oil stored in the compressor to drive the hydraulic motor for the initial stage and cut off the supply of high pressure oil A stop valve that continuously drives the hydraulic motor for the pump by the hydraulic energy generated by the hydraulic pump And also,

Accordingly, the amount of noise generated is reduced and the energy efficiency is improved.

Description

Hydraulic generator

The present invention relates to a hydraulic generator, and more particularly, the motor for driving the hydraulic pump of the hydraulic circuit is initially driven by the externally supplied hydraulic pressure and the energy efficiency is to be continuously driven by the hydraulic energy generated from the hydraulic pump It relates to a hydraulic generator to be improved.

As is well known, the hydraulic circuit is a kind of hydraulic generating device that drives a separate machine or the like by using the hydraulic energy generated from the hydraulic pump driven by the motor, and the motor for driving the hydraulic pump mainly uses an electric motor. As such a hydraulic pressure generating device, there is a device as shown in FIG.

The apparatus shown in FIG. 1 will be described as an example of a hydraulic pressure generating apparatus according to the prior art.

The oil pressure generating device includes an oil tank (1) storing oil, an electric motor (2) driven by an external power source to generate a rotational force, and driven by receiving the generated rotational force to pump the oil to generate hydraulic energy. A hydraulic pump (3) for generating a pressure, an accumulator (4) for storing high pressure oil from the hydraulic pump (3), and a power hydraulic motor (5) for continuous mechanical rotation and mechanical work by the hydraulic energy. It is constructed.

In the drawings, reference numeral 6 denotes a filter, 7a and 7b are check valves, 8 is a pressure gauge, 9 is a pressure switch, 10a and 10b are safety valves, 11a and 11b are stop valves, and 12 is a flow switching valve. 13 is a flow control valve, 14 is a freeze protection coil, 15 is a cooler, 16 is a low oil alarm device, 17 is a hydraulic oil level meter and 18 is a thermometer.

In the hydraulic generator according to the related art configured as described above, when the electric motor 2 is driven by an external power source and a rotational force is generated, the rotational force is transmitted to the hydraulic pump 3 so that the hydraulic pump 3 is interlocked and driven. It is done.

The hydraulic pump 3 pumps oil stored in the oil tank 1 through the filter 6 to generate hydraulic energy. When the stop valves 11a and 11b are opened, high pressure oil is supplied to the accumulator 4. Are stored.

At the same time, the high pressure oil is supplied to the power hydraulic motor 5 in accordance with the opening of the switching valve 12 and the flow control valve 13, whereby the power hydraulic motor 5 supplied with hydraulic energy continuously rotates. Exercise to perform separate machine tasks.

However, in the above-described conventional hydraulic generator, it can be seen that in order to drive the hydraulic pump for generating hydraulic energy, an electric motor for generating rotational force must first be driven by using electrical energy.

Therefore, in view of the power consumption of the electric motor and the power consumption of the various valves for additionally regulating the flow of oil has a problem of low energy efficiency.

In addition, compared to hydraulic pumps and hydraulic motors, there is a problem in that a high level of noise is generated when the electric motor is driven.

Therefore, it is desirable to replace the electric motor with other rotational force generating means to reduce the noise and improve the energy efficiency, while at the same time generating a hydraulic generator capable of producing an effect equal to or higher than the conventional one.

Accordingly, as one aspect of the present invention, an object of the present invention is to provide a hydraulic pressure generating apparatus in which a noise generation amount is reduced by using a hydraulic motor without using an electric motor.

In another aspect of the present invention, a hydraulic motor for driving a hydraulic pump is initially driven by an externally supplied hydraulic pressure and continuously driven by hydraulic energy generated from the hydraulic pump, thereby improving energy efficiency of the hydraulic generator. There is this.

1 is a system configuration diagram of a conventional hydraulic generator,

2 is a system configuration diagram of a hydraulic generator according to the present invention,

3 is a perspective view showing a connection state of the hydraulic pump and the hydraulic motor for the pump shown in FIG.

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

101: injection valve 102: compressor

103 pump hydraulic motor 104 gear increaser

105a, 105b: stop valve 106: flow control valve

107: safety valve 108: flow path switching valve

Hydraulic generating device of the present invention for achieving the above objects, the oil tank for storing the oil, a hydraulic pump for generating the hydraulic energy by pumping the oil, and the continuous rotational motion by the hydraulic energy to operate the mechanical work In a hydraulic circuit having a power hydraulic motor for:

(1) an injection valve for adjusting the amount of oil injected from the outside into the internal pipe;

(2) a compressor for storing the pressure of the oil injected into the pipe up to a set pressure;

(3) a hydraulic motor for a pump which is supplied with a high pressure oil and continuously rotates;

(4) a gear increaser configured to receive the rotational movement and generate a rotational speed that is faster than the rotational speed of the hydraulic motor for the pump according to the ratio of the plurality of gears;

(5) supplying the high pressure oil stored in the compressor so that the hydraulic motor for the pump is initially driven, and the supply of the high pressure oil is interrupted so that the hydraulic motor for the pump is continuously driven by the hydraulic energy generated from the hydraulic pump. Stop valve.

Preferably, the hydraulic generator of the present invention, a flow control valve for adjusting the flow rate of the high pressure oil supplied to the hydraulic motor for the pump, a safety valve and a flow path switching valve for preventing abnormal high pressure of the hydraulic motor for the pump It is characterized by including more.

In this way, the noise generation amount is reduced by using a hydraulic motor without using an electric motor, the hydraulic motor is initially driven by an externally supplied hydraulic pressure, and is continuously driven by hydraulic energy generated from the hydraulic pump, thereby improving energy efficiency. There is an advantage.

And, there may be a plurality of embodiments of the present invention, hereinafter will be described in detail with respect to the most preferred embodiment.

Through this preferred embodiment it is possible to better understand the objects, features and advantages of the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the hydraulic generator according to the present invention.

In addition, the technology of the present invention can be applied to a variety of products that perform a separate mechanical work using a hydraulic pump and a hydraulic motor.

Thus, FIGS. 2 and 3 used in the description are views of various hydraulic circuits for generating oil pressure rather than a specific oil pressure generator.

In addition, in drawing used for description, about the component same as FIG. 1, the same code | symbol is attached | subjected, and the overlapping description may be abbreviate | omitted.

2 is a system configuration diagram showing a hydraulic generator according to the present invention, Figure 3 is a perspective view showing a connection state of the hydraulic pump and the hydraulic motor for the pump shown in FIG.

The hydraulic generator according to the present embodiment includes an injection valve 101 for adjusting the amount of oil injected into the internal pipe from the outside, a compressor 102 for raising and storing the pressure of the oil injected into the pipe up to a set pressure; A pump hydraulic motor 103 for receiving a high pressure oil and continuously rotating the pump, and receiving the rotational motion to generate a rotational force of a speed faster than the rotational speed of the pump hydraulic motor 103 according to the ratio of the gears. A hydraulic pump 3 generating hydraulic energy by pumping oil stored in the oil tank 1 by receiving the rotational force of the gear increaser 104, the oil tank 1 for storing oil, and the gear increaser 104. ), A power hydraulic motor 5 for continuous mechanical motion by the hydraulic energy, and a high pressure oil stored in the compressor 102 to supply the high pressure oil stored in the compressor 102 so that the pump hydraulic motor 103 is initially driven. High pressure oil Flow rate of the high pressure oil supplied to the stop valves 105a and 105b and the pump hydraulic motor 103 for interrupting the supply to continuously drive the pump hydraulic motor 103 by the hydraulic energy generated by the hydraulic pump 3. It consists of a flow control valve 106 for adjusting the pressure, a safety valve 107 and a flow path switching valve 108 to prevent abnormal high pressure of the hydraulic motor 103 for the pump.

The hydraulic generator according to the present invention made as described above, the hydraulic energy is transferred from the hydraulic motor for the pump to the hydraulic pump from the hydraulic pump to the power hydraulic motor to perform the following operation.

Hereinafter, with reference to FIG. 2 and FIG. 3, it demonstrates concretely.

First, when the injection valve 101 and the stop valves 105a and 105b are opened and oil is injected into the internal pipe from the outside, the compressor 102 compresses the oil injected into the pipe and stores the oil up to a set pressure.

Thereafter, when the compressor 102 is charged, the injection valve 101 is closed and the flow control valve 106 is opened to supply the high pressure oil to the hydraulic motor 103 for the pump. By this, the pump hydraulic motor 103 is initially driven, and the high pressure oil supplied to the pump hydraulic motor 103 is changed to low pressure and re-introduced into the oil tank 1.

Then, the rotational force of the hydraulic motor for pump 103 is transmitted to the gear increaser 104, the speed higher than the rotational speed of the hydraulic motor for pump 103 in accordance with the gear ratio of the plurality of gears in the gear increaser (104). The rotational force of is generated and transmitted to the hydraulic pump (3).

Then, the hydraulic pump 3 is driven to pump the oil stored in the oil tank 1 through the filter 6 to eject the high pressure to generate hydraulic energy, where the high pressure ejected oil is the flow path switching valve 108 The pump is supplied to the hydraulic motor 103 for the pump.

Subsequently, the pump hydraulic motor 103 continuously rotates by the hydraulic energy generated by the hydraulic pump 3, and again the pump hydraulic motor 103 in accordance with the gear ratio of the plurality of gears in the gear increaser 104. A rotational force of a speed higher than that of the rotational speed is generated and transmitted to the hydraulic pump 3.

At this time, when the flow control valve 13 for adjusting the amount of oil supplied to the power hydraulic motor 5 is opened, the high pressure oil ejected from the hydraulic pump 3 is supplied to the power hydraulic motor 5, thereby providing hydraulic pressure. Energy-powered hydraulic motor 5 is continuously rotated to perform a separate mechanical work.

When the pressure switch 9 is switched when the pressure of the pipe exceeds the set pressure, the safety valve 10a is automatically opened for a predetermined time to protect the pipe, and the flow control valve 106 is closed to close the pump hydraulic motor. Let 103 be stopped.

However, when the pump hydraulic motor 103 is stopped for a long time and the pressure in the pipe falls below the set pressure, the pressure switch 9 is switched to the initial position and the flow control valve 106 is opened to open the pump hydraulic motor 103. ) Is re-driven, and the hydraulic energy is transmitted to the power hydraulic motor 5 via the gear increaser 104 and the hydraulic pump 3 according to the above process.

In addition, when abnormal high pressure flows into the pump hydraulic motor 103 and the power hydraulic motor 5, the safety valves 7b and 107 are automatically opened to lower the hydraulic pressure, and at the same time, the flow path switching valves 12 and 108 are driven. Therefore, the low pressure path and the high pressure path of each hydraulic motor 103, 5 are switched to each other so that the hydraulic pressure is normalized.

On the other hand, unlike the prior art, that is, to drive the hydraulic pump using the electric motor for the pump as a comparative example, the present invention can perform the mechanical work using the hydraulic energy even using the hydraulic motor for the pump It can be seen.

As a result, according to the present invention, the hydraulic pump is driven by the hydraulic motor for the pump in the hydraulic circuit to generate hydraulic energy, whereby the energy efficiency is improved and the noise is reduced.

In addition, although specific embodiments of the present invention have been described and illustrated above, it will be apparent that various modifications may be made by those skilled in the art.

Such modified embodiments should not be individually understood from the technical spirit or the prospect of the present invention, and such modified embodiments shall fall within the appended utility model registration claims of the present invention.

It is clear from the above description that, according to the hydraulic generator according to the present invention, the noise generation amount is reduced by using the hydraulic motor without using the electric motor, and the hydraulic pressure supplied by the pump hydraulic motor for driving the hydraulic pump is supplied to the outside. By the initial drive is to be driven continuously by the hydraulic energy generated by the hydraulic pump has the effect of improving the energy efficiency.

Claims (2)

In a hydraulic circuit having an oil tank for storing oil, a hydraulic pump for pumping the oil to generate hydraulic energy, and a power hydraulic motor for continuous mechanical rotation and mechanical work by the hydraulic energy: (1) an injection valve for adjusting the amount of oil injected from the outside into the internal pipe; (2) a compressor for increasing and storing the pressure of the oil injected into the pipe up to a set pressure; (3) a hydraulic motor for a pump which is supplied with a high pressure oil and continuously rotates; (4) a gear increaser configured to receive the rotational movement and generate a rotational speed that is faster than the rotational speed of the hydraulic motor for the pump according to the ratio of the plurality of gears; (5) supplying the high pressure oil stored in the compressor so that the hydraulic motor for the pump is initially driven, and the supply of the high pressure oil is interrupted so that the hydraulic motor for the pump is continuously driven by the hydraulic energy generated from the hydraulic pump. Hydraulic generator comprising a stop valve. The method of claim 1, And a flow control valve for controlling the flow rate of the high pressure oil supplied to the hydraulic motor for the pump, a safety valve and a flow path switching valve for preventing abnormal high pressure of the hydraulic motor for the pump.