KR20060014174A - Vibrator of oil pressure piston type using valve of variable control type - Google Patents

Abstract

The present invention relates to a hydraulic piston type vibrator using a variable control valve, and more particularly, to a rotary pressure oil supply valve capable of supplying pressure oil by rotation of a hydraulic motor, to supply and discharge pressure oil and to install the inside of the vibration cylinder. Vibrators for reciprocating the oscillating pistons in both directions to adjust the oscillation frequency. Vibration cylinder housings having vibration pistons (1) inserted therein and tension members (2) (2 ') mounted at both ends (H). ) Install the left and right pressure oil outlet ports (3) (4) on one side of both ends and connect them with a variable control valve (V), and connect the left and right accumulator connection ports (5) (6) to the other side opposite to each other. It is installed and connected to each accumulator (A) (A '), and the variable regulating valve (V) has a valve rotation part (7) in which a hydraulic oil port (P) and a circulating oil port (T) are formed. (3-1) (3-2) (3-3) (3- (4) (4-1) (4-2) (4-3) (4-4) are inserted and connected to the fixed valve cylinder (8) which is formed in a sequential order in a peripheral manner, and the valve rotation part (with a hydraulic motor (M) 7) Hydraulic piston vibrator using a variable control valve, characterized in that for rotating.

Vibrator, hydraulic motor, variable regulating valve, vibration piston, pressure oil.

Description

Hydraulic piston vibrator using a variable control valve {Vibrator of oil pressure piston type using valve of variable control type}             

1 is a conceptual diagram of the overall structure showing a schematic structure of the present invention

Figure 2 is another embodiment of the tension member of the present invention

Figure 3 is a cross-sectional structural view of the variable valve of the present invention

4 is a conceptual diagram of the hydraulic circuit of the present invention variable regulating valve

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

(1) Vibration pistons (2) (2 ') tension member

       (3) (4) Left and right hydraulic oil outlet ports (5) (6) Left and right accumulator connection ports

       (7) Valve rotating part (8) Valve cylinder

       (A) (A ') accumulator (H) Vibration cylinder housing

       (P) Hydraulic oil port (T) Circulating oil port

       (M) Hydraulic motor (V) Variable regulating valve

       The present invention relates to a hydraulic piston type vibrator using a variable control valve, and more particularly, to a rotary pressure oil supply valve capable of supplying pressure oil by rotation of a hydraulic motor, to supply and discharge pressure oil and to install the inside of the vibration cylinder. The present invention relates to a vibrator capable of adjusting a vibration frequency by reciprocating a vibrating piston in both directions.

       In general, the vibrator is used in a variety of applications in industrial sites, such as driving riders hitting piles and pipes, excavators (rock drills) for digging rocks and ground, and concrete vibrators for stabilizing concrete when placing concrete. Due to the occurrence of civil complaints due to the noise generated in the environment and the environmental pollution caused by the noise low noise high frequency vibrator is required.

       Conventional vibrators include a mechanical method using an eccentric shaft and a pneumatic method using an eccentric shaft, and the eccentric shaft is capable of upward adjustment of rotational speed in view of its structure and shape, but the eccentric shaft is fixed so that it is impossible to control vibration force. will be.

       In other words, in order to increase the frequency, a certain amount of rotation torque is required, so there is a limit to increase the frequency, so that the vibration force cannot exceed a certain limit.

       In addition, the pneumatic method injects compressed air into the sealed housing and shocks the piston to generate a vibration effect. Economic problems due to loss of compressed air due to poor airtightness of the housing and airtightness are not maintained, which greatly affects the vibration effect. There was a problem that can not produce the effects of high frequency and high vibration.

Therefore, the present invention was created for the purpose of solving the conventional problems as described above by using a rotary type variable control valve of the two-way supply and discharge method of the hydraulic oil while miniaturizing the size of the vibrator while the high frequency and high speed It is intended to provide a vibrator that generates vibrations, improves the working environment with low noise, enables eco-friendly work, and also enables the selective use by varying the vibration force or frequency by adjusting the rotational speed of the hydraulic motor.

In order to provide the vibrator, a vibration piston is inserted inward and a pressure oil inlet port is installed at one end of both sides of a vibration cylinder housing equipped with a tension member at both ends thereof, and is connected to a variable regulating valve and the accumulator is opposed to the other side. The connecting port is connected to each accumulator, and the variable regulating valve is inserted into the fixed valve cylinder formed by the left and right pressure oil valves in sequential order. It is possible to provide a vibrator capable of adjusting the vibration frequency by rotating the valve rotation part with a hydraulic motor.

Hereinafter, the configuration and operation of the present invention will be described in detail with reference to the accompanying drawings.

Figure 1 is a schematic diagram showing the overall structure of the present invention showing a structure in which the vibration piston is operated by connecting the accumulator and the variable control valve to the vibration cylinder housing, Figure 2 is a tension member of the present invention Another embodiment shows a hydraulic tension member for cushioning the vibration piston, Figure 3 is a cross-sectional structure of the variable regulating valve of the present invention showing the coupling and operation structure of the valve rotating portion and the valve cylinder, Figure 4 is a present invention The hydraulic circuit concept of the variable regulating valve is to explain the hydraulic circuit concept of the left and right pressure oil valves.

       Vibration piston (1) is inserted inward, and the left and right pressure oil inlet ports (3) (4) are installed at one end of both sides of the vibration cylinder housing (H) equipped with tension members (2) and (2 ') at both ends. And connect the accumulator connecting ports (5) and (6) to the opposite and opposite sides to connect the accumulator (A) (A '). The valve (V) is the valve rotation part 7 formed with the hydraulic oil port (P) and the circulating oil port (T) left and right pressure oil valve (3-1) (3-2) (3-3) (3-4) (4-1) (4-2) (4-3) (4-3) (4-4) is inserted and connected to the fixed valve cylinder (8) which is formed in a sequential order at the periphery, and the valve rotation part (7) with the hydraulic motor (M). It is a structure to rotate.

       The tension members 2 and 2 'installed at both ends of the vibrating piston housing H may use a spring method 9 and a hydraulic method 10.

       Left pressure oil valves 3-1, 3-2, 3-3, 3-4 and right pressure oil valves 4-1, 4-2 and 4 provided in the variable regulating valve V. -3) (4-4) is connected to the magnetic side and the right side, respectively, and is connected to the left and right pressure oil outlet ports 3 and 4 in association with the hydraulic oil port P and the circulating oil port T.

       The number of the left and right hydraulic oil valve (3-1) (3-2) (3-3) (3-4) (4-1) (4-2) (4-3) (4-4) is used It can be changed according to the purpose and use.

       A cooling device in which a port of a forced lubrication method is installed inside the vibration cylinder housing H may be mounted.

       In the drawings, reference numerals 11 and 11 'are airtight O-rings, 12 and 12' are accumulator connection lines, and 13 and 13 'are variable regulating valve connection lines.

       As described above, in the present invention, as shown in FIG. 1, an oscillating piston (1) having an O-ring (11) (11 ') for airtightness is installed inside the vibration cylinder housing (H), and a tension member (2) 2) (2 ') is installed.

       The tension member (2) (2 ') can use the spring method (9) and the hydraulic method (10) of Figure 2 and the tension member (2) (2') is operated during the initial operation of the vibration piston (1) In order to prevent contact with both side vibrating cylinder housing (H) at the end.

        The left and right pressure oil outlet ports 3 and 4 are installed at one end of both ends of the vibration cylinder housing H, and the opposite directions of the left and right pressure oil outlet ports 3 and 4 are opposite to each other. Left and right accumulator connection ports 5 and 6 are provided.

        The accumulators A and A 'are connected to the left and right accumulator connection ports 5 and 6 by vibrating pistons 1 and 12, respectively. This reciprocating operation from left to right, right to left can replenish the sudden hydraulic pressure of one side and at the same time to maintain the hydraulic pressure of the other side to eliminate mechanical damage due to the pulsation of the hydraulic pressure.

       The left and right pressure oil inlet port (3) (4) is connected to the variable control valve (V) to the variable control valve connection line 13 (13 '), the left pressure oil outlet port (3) is left The hydraulic oil pressure valves 3-1, 3-2, 3-3 and 3-4 are connected, and the right hydraulic oil inlet port 4 is connected to the right hydraulic oil valves 4-1, 4-2 and 4-. 3) (4-4).

       As shown in FIGS. 3 and 4, the variable regulating valve (V) has a valve rotating part (7) having a hydraulic oil port (P) and a circulating oil port (T) left and right pressure oil valves (3-1) (3). -2) (3-3) (3-4) (4-1) (4-2) (4-3) (4-4) Install sequentially in every price [Left-Right-Left-Right .... ] The valve cylinder (V) is inserted and installed to rotate the valve rotation part (7) by the rotation, operation of the hydraulic motor (M).

       The hydraulic motor (M) is controlled by a flow control valve (not shown).

       The operation of the above-described vibrator of the present invention is as follows.

       To obtain the vibration frequency generated by supplying and discharging the pressure oil in both directions of the vibration piston (1) mounted inside the vibration cylinder housing (H) to reciprocate. When the hydraulic motor (M) is rotated, the valve rotation part (7) At this time, the hydraulic oil port (P) and the circulating oil port (T) installed on the valve rotation part (7) are installed in the left and right pressure oil valves (3-1) (3-2) (3-). 3) (3-4) (4-1) (4-2) (4-3) (4-4) in sequence.

       The left pressure oil valve (3-1) (3-2) (3-3) (3-4) are connected to each other by the variable pressure control valve connecting line 13 to the left pressure oil outlet port (3) The right hydraulic oil valves 4-1, 4-2, 4-3 and 4-4 are also interconnected and connected to the right hydraulic oil inlet port 4 by a variable regulating valve connecting line 13 '. The vibration cylinder 1 is reciprocated in both left and right directions of the vibration cylinder 1.

       That is, when the hydraulic oil port P of the valve rotation part 7 is connected to the left pressure oil valve 3-1 and the circulation oil port T is connected to the right pressure oil valve 4-1, the high pressure hydraulic oil is vibrated cylinder housing. The low-pressure circulating oil supplied from the left side of (H) is returned to the tank from the right side of the vibration cylinder housing (H).

       The valve cylinder 7 is rotated by the hydraulic motor M while the hydraulic oil port P and the circulating oil port T are P = 3-1, T = 4-1 → P = 4-1, T = 3. -2 → P = 3-2, T = 4-2 → P = 4-2, T = 3-3 → P = 3-3, T = 4-3 → P = 4-3, T = 3-4 → P = 3-4, T = 4-4 → P = 4-4, T = 3-1 in order to supply and discharge hydraulic oil and circulating oil to operate the vibration cylinder (1).

       As described above, the accumulator (A) (A ') replenishes hydraulic pressure on one side during sudden operation from left to right and right to left of the vibration cylinder (1) while supplying and discharging hydraulic oil and circulating oil. By maintaining the hydraulic pressure of the hydraulic pulsation and to minimize the power loss, the vibration piston (1) reciprocating.

       As described above, while the valve rotation part 7 rotates by the rotational operation of the hydraulic motor M, the hydraulic oil port P and the circulating oil port T are left and right pressure oil valves 3-1 and 3-2 ( 3-3) (3-4) (4-1) (4-2) (4-3) (4-4) sequentially connected to vibrate through the left and right pressure oil outlet ports (3) (4) By supplying and discharging the pressure oil in both directions of the cylinder housing (H) it is possible to obtain the required vibration frequency by reciprocating the vibration piston (1).

       In addition, the present invention can adjust the rotational speed of the hydraulic motor (M) and the left, right pressure oil valve (3-1) (3-2) (3-3) (3-4) (4-1) (4 -2) (4-3) (4-4) can be increased or decreased, so the number of rotations and the number of valves can be adjusted according to the purpose and purpose of use.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

Therefore, the present invention is to control the flow rate by using a variable control valve by the control of the number of rotation of the hydraulic motor to be applied to various applications in the industrial field and to maximize the frequency by minimizing the stroke length of the vibration piston It can generate ultra-high frequency and high vibration, improve working environment with low noise, and perform eco-friendly work. Also, by adjusting the rotational speed of hydraulic motor, it can be selectively used by changing vibration force or frequency. It works.

Claims (1)

       Vibration piston (1) is inserted inward, and the left and right pressure oil inlet ports (3) (4) are installed at one end of both sides of the vibration cylinder housing (H) equipped with tension members (2) and (2 ') at both ends. And connect the accumulator connecting ports (5) and (6) to the opposite and opposite sides to connect the accumulator (A) (A '). The valve (V) is the valve rotation part 7 formed with the hydraulic oil port (P) and the circulating oil port (T) left and right pressure oil valve (3-1) (3-2) (3-3) (3-4) (4-1) (4-2) (4-3) (4-3) (4-4) is inserted and connected to the fixed valve cylinder (8) which is formed in a sequential order at the periphery, and the valve rotation part (7) with the hydraulic motor (M). Hydraulic piston vibrator using a variable control valve, characterized in that for rotating.

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