KR100851860B1 - Hydraulic motor drive wire drum floodgate structure - Google Patents

Abstract

A hydraulic motor drive type wire drum floodgate structure is provided to secure winding technique by a high efficiency hydraulic pressure drive device coupled with a hydraulic pressure device and a mechanical drive device, and the safety, credibility and economical efficiency of a floodgate. A hydraulic motor drive type wire drum floodgate structure(1) comprises a floodgate(10) ascending and descending, a power generation device(4) generating hydraulic pressure, a power transmission device(6) changing the hydraulic pressure generated by the power generation device into power and transferring the power, and a wire drum(70) receiving the power through the power transmission device and ascending, descending the floodgate, wherein the power generation device which generates power to ascend or descend the floodgate comprises a hydraulic pressure generator(20a) and a manual hydraulic pressure generator(20b) to generate hydraulic pressure under any circumstances, and the power transmission device which receives hydraulic pressure from the power generation device and transfers as power comprises a hydraulic pressure control device(30) connected with the hydraulic pressure generator and the manual hydraulic pressure generator to supply hydraulic pressure to transfer hydraulic pressure evenly to right and left sides by receiving hydraulic pressure generated from one of the hydraulic pressure generator and the manual hydraulic pressure generator according to signals of a main control board(80) which controls the relation between the operation of the floodgate and power transmission, a hydraulic pressure drive device(40) provided with a hydraulic pressure supply inlet(42) and a hydraulic pressure discharge outlet(44) connected with the hydraulic pressure control device to supply and discharge hydraulic pressure according to circumferences, a distributor(50) mounted to one or two sides of the hydraulic pressure drive device to distribute the power transferred from the hydraulic pressure drive device to two sides and provided with a hydraulic motor crank case shaft(52) attached with a drive gear(54), and a cyclone speed reducer(60) installed to the hydraulic motor crank case shaft to reduce the speed of the hydraulic motor crank case shaft, and the wire drum which receives power through the power transmission device and ascends or descends the floodgate comprises a drum gear(72) formed on the outer circumferential surface to engage with the drive gear of the power transmission device and to rotate, and a drum(74) coupled on the outer circumferential surface and wound with a wire(76) to rotate together with the drum gear.

Description

Hydraulic motor drive wire drum floodgate structure

1 is a block diagram showing a hydraulic motor-driven wire drum sluice structure according to the present invention.

2 is a plan view showing a water gate according to the present invention.

3 is a front view showing a sluice in accordance with the present invention.

Figure 4 is a block diagram showing a power generating means according to the present invention.

5 is a block diagram showing a connection state of the power transmission means and the wire drum according to the present invention.

Figure 6 is a block diagram showing another embodiment according to the present invention.

7 and 8 is a front view showing another embodiment according to the present invention.

※ Explanation of symbols for main part of drawing.

1: Hydraulic motor driven wire drum sluice structure,

2: power generating means, 4: power transmission means,

10: sluice, 12: sibrora,

20a: hydraulic generator, 20b: manual hydraulic generator,

30: hydraulic balance control tube, 40: hydraulic actuator,

42: hydraulic supply port, 44: hydraulic outlet,

50: distributor, 52: hydraulic motor crankcase shaft,

54: drive gear, 60: cyclone reducer,

70: wire drum, 72: drum gear,

74: drum, 76: wire.

The present invention relates to a water gate, which is a water level control device that is essentially used in farms, dams, reclaimed lands, and estuaries. It is related with hydraulic motor-driven wire drum hydrologic structure which combines with advanced technology, but improves safety, reliability, and economic efficiency significantly compared to existing technology and lowers manufacturing, installation, construction and operation costs considerably.

In general, various types of hydrological gates, which are operated manually or automatically, are installed for farmland management, irrigation water, etc. to be appropriately used for farmland, dams, reclaimed land, and estuary banks.

In addition, the hydraulic driving technology of the existing hydrologic gate is equipped with a hydraulic cylinder as long as the height of the cylinder type to the hydrologic gate. If the hydraulic cylinder is damaged due to the adhesion of dust, insects, microorganisms and seasonal changes, the hydraulic cylinder leaks from the hydraulic cylinder if the mechanical stopper is not installed. There was a disadvantage that the reliability of operation could not be guaranteed.

In addition, in reality, when the gate is opened for several months, it is impossible to operate by hydraulic opening and closing, and in order to prevent the damage of the hydraulic cylinder, expensive ceramic coating should be performed. There was a problem that should be replaced frequently.

In addition, grease is plotted on the cylinder surface in order to prevent the hydraulic cylinder contamination caused by the above-mentioned ambient environment, but it is only a temporary measure because grease discoloration and deterioration over time due to the mixing of salt, microorganism and dust. There was, however, a very disgusting problem.

The present invention has been made in order to solve the above problems, the hydraulic motor driven wire drum gate for realizing the lifting technology and the safety, reliability, economics of the hydrostatic technology by the high-efficiency hydraulic actuator combined hydraulic device and mechanical drive device Have a purpose to provide

The present invention to achieve the above object,
The power generating means by the hydraulic generator and the manual hydraulic generator-hydraulic balance control tube-hydraulic actuator-reduction gear-generates the actuation force on both crankcase shafts by means of the power transmission means of the distributor, and provides driving gears at the ends of both crankcase shafts. And a wire drum including a drum gear having a gear formed on an outer circumferential surface thereof to rotate in engagement with the drive gears of both crankcase shafts, and a drum coupled to rotate in conjunction with the drum gear and having a wire wound around the outer circumferential surface thereof. However, the wire of the wire drum is characterized in that it is configured to raise / lower the gate by coupling to the sibrara formed on both sides of the gate to be able to lift / lower.

Hereinafter, the configuration of the present invention with reference to the accompanying drawings, Figure 1 is a block diagram showing a hydraulic motor-driven wire drum sluice structure according to the present invention, Figure 2 is a plan view showing a sluice in accordance with the present invention, Figure 3 is a front view showing a water gate according to the present invention, Figure 4 is a block diagram showing a power generating means according to the present invention, Figure 5 is a block diagram showing a connection state of the power transmission means and the wire drum according to the present invention. 6 is a block diagram showing another embodiment according to the present invention.

The hydraulic motor-driven wire drum sluice structure 1 of the present invention is a sluice gate 10 for raising / lowering, a power generating means 4 for generating hydraulic pressure, and a hydraulic pressure passing through the power generating means 4 for power. Power transmission means 6 for converting and transmitting, and the wire drum 70 for raising and lowering the gate 10 by receiving power through the power transmission means (6).

The sluice gate 10 is the sibrora 12 is formed so as to move up / down, the main roller 14 and the side roller 16 is the same so as to reduce the friction during the up / down movement to the side The structure is formed on both sides. At this time, the sibrora 12 may be formed in plural as necessary.

The power generating means 4 for generating power to raise / lower the water gate 10 is composed of a hydraulic generator 20a and a manual hydraulic generator 20b, that is, the power generating means 4 of the machine The hydraulic generator 20a for generating the hydraulic pressure by the force and the manual hydraulic generator 20b for manually generating the hydraulic pressure will be able to generate hydraulic pressure in any situation.

The power transmission means 6 which receives hydraulic pressure from the power generating means 4 and transmits the power to the power is a hydraulic balance control tube 30, a hydraulic driver 40, a reducer 60, and a distributor 50. It consists of.

The hydraulic balance control tube 30 connected to the hydraulic generator 20a and the manual hydraulic generator 20b and supplied with hydraulic pressure of the main control board 80 controls the operation and power transmission relationship of the water gate 10. In response to the signal, the hydraulic pressure generated in any one of the hydraulic generator 20a and the manual hydraulic generator 20b is received, and the hydraulic pressure is transmitted in the same way to the left and right.

And the hydraulic actuator 40 is connected to the hydraulic balance control tube 30, as shown in Figure 1 or 6, the hydraulic actuator 40 can be mounted in one place or on both sides, at this time, the hydraulic driver 40 to one side Is used, the distributor 50 is mounted to distribute the power along the way as shown in FIG.

At this time, the hydraulic pressure supply port 42 and the hydraulic discharge port 44 formed in the hydraulic driver 40 is connected to the hydraulic balance control tube 30 to supply and discharge the hydraulic pressure in accordance with the situation.

And the distributor 50 is provided when the hydraulic driver 40 is mounted in one place serves to distribute the power transmitted from the hydraulic driver 40 to both sides, the inside of the hydraulic driver 40 A drive gear 54 is mounted to the end of the hydraulic motor crankcase shaft 52 that operates in conjunction with a cylinder (not shown) that is typically provided. (See FIG. 1 shown.)

In addition, when the hydraulic driver 40 is mounted on both sides, the drive gear 54 is mounted to the cylinder of the hydraulic driver 40 so as to operate in conjunction with the hydraulic motor crankcase shaft 52 formed at the end. See FIG. 6 shown)

Here, the cyclone reducer 60 may be mounted in the middle of the hydraulic motor crankcase shaft 52 that operates in conjunction with the cylinder of the hydraulic driver 40 to reduce the hydraulic motor crankcase shaft 52. Say.

Receiving power through the power transmission means (6) wire drum 70 for raising and lowering the water gate 10 to the outer peripheral surface to rotate in engagement with the drive gear 54 of the power transmission means (6). A drum gear 72 is formed, and the drum 74 is wound around the outer circumferential surface of the drum 74 so that the drum gear 72 rotates in association with the drum gear 72.

That is, the wire drum 70 moves left and right along the drum gear 72 which rotates in engagement with the driving gear 54 to raise / lower the water gate 10.

7 and 8 illustrate another embodiment of the present invention. In FIG. 7, the ring wire 78 made of metal is replaced with the water gate 10 in place of the wire 76 mounted on the wire drum 70. By connecting it is to make the rise / fall of the water gate 10 according to the forward / reverse rotation of the wire drum (70).

In this case, the wire 76 may be made of a component such as a chain, a rope, a belt, or the like, and may be mounted in one or several places as shown in FIG. 7.

8 is shown in place of the drive gear 54 mounted on the end of the hydraulic motor crankcase shaft 52 to install the interlocking sprocket and to install the driven sprocket 18 to one side or both sides of the sluice 10 Exemplary embodiments in which the gate 10 can be raised or lowered according to the forward / reverse rotation of the axis 52 are shown.

That is, by removing the entire configuration of the wire drum 70 and connecting the driven sprocket 18, which is installed on one side or both sides of the sluice 10 to the interlocking sprocket to replace the drive gear 54 by a chain (90) It is to be able to go up and down.

Referring to the embodiment of the hydraulic motor-driven wire drum sluice structure 1 of the present invention configured as described above are as follows.

First, the sieve roller 12 is formed to the upper / lower movement, and the main roller 14 and the side roller 16 in the same structure on both sides to reduce the friction during the lifting / lower movement to the side To form the water gate 10 is formed.

Next, after installing the main control board 80 for controlling the operation and power transmission relationship of the water gate 10, the hydraulic generator 20a for generating hydraulic pressure by the force of the machine on one side and the manual hydraulic generator for generating hydraulic pressure manually The power generating means 4 provided with the 20b is provided, respectively.

And to connect the hydraulic balance control pipe 30 so that the hydraulic generator (20a) and the manual hydraulic generator (20b) provided in the power generating means 4 to adjust or distribute the hydraulic pressure generated in any one place, the hydraulic pressure The balance control tube 30 is connected to the hydraulic actuator 40 having a cylinder which is connected to the hydraulic supply port 42 and the hydraulic discharge port 44 and is operated in accordance with the hydraulic pressure supplied through the hydraulic supply port 42 to the inside. And a power transmission means (6) having a distributor (50) provided to operate a hydraulic motor crankcase shaft (52) provided with drive gears (54) at both ends in connection with a cylinder of the hydraulic driver (40). Equipped.

Next, the gear is formed on the outer circumferential surface so as to be engaged with the drive gear 54 of the power transmission means 6 and the drum gear 72 coupled to the drum gear 72 so as to rotate in cooperation with the outer circumferential surface. ) Constitutes a pair of wire drums 70 consisting of a drum 74 which is wound around, and then couples the wires 76 of the wire drums 70 to the sieve rollers 12 of the sluice 10. Assembly of the driven wire drum hydrologic structure 1 is completed.

In the above state, the sluice 10 is raised / lowered through the rotating wire drum 70 using the hydraulic pressure generated by the hydraulic generator 20a or the manual hydraulic generator 20b, that is, the sluice ( 10 is mounted on the sibrora 12 is to be raised / lowered by the wire 76 provided in the wire drum (70).

At this time, the hydraulic balance control tube 30 is to be corrected so that the same power can be transmitted to the wire drum 70, the operation of the hydrology and the power transmission relationship is to be operated by the main control board (80).

In further detail, the hydraulic pressure generated by the power generating means 4 is supplied to the hydraulic supply port 42 inside the hydraulic actuator 40 to push the cylinder downwards to move the shaft 52 of the hydraulic motor crank chamber. When the shaft is rotated and the shaft is decelerated by the cyclone reducer 60 and the drive gear 54 is rotated, the wire drum 70 receives power as it is by the drum gear 72 engaged with the drive gear 54. .

At this time, the working oil is pushed out of the cylinder from the cylinder inside the hydraulic actuator 40 and the working oil is conveyed to the hydraulic oil tank 21 located in the lower portion of the hydraulic generator (20a, 20b) through the hydraulic outlet (44).

When the hydraulic pump 24 is driven by the coupling 23 directly connected to the shaft of the driving motor 22, the hydraulic oil stored in the hydraulic oil tank 21 generates hydraulic fluid after passing through the pump. At this time, the hydraulic oil discharged when overpressure occurs due to mechanical abnormality is to be conveyed through the spring-operated safety valve 25 and the return line 26.

According to the present invention, it is possible to improve the reliability and economic efficiency by vertical slide-type movement of the gate and its associated technology as a technology that can be applied in whole or in part to all gates, from small to large.

In addition, the combination of the rotary hydraulic drive unit, cyclone reducer, gear drain, and wire drum is free of high torque and mechanical arrangement compared to the electric drive winch type, and can be reduced by 50% or less in terms of the volume of the hoist itself. There is.

In addition, the hydraulic motor-driven wire drum hydrologic structure of the present invention can reduce the effect of 50 ~ 60% space reduction and 10 ~ 20% operating cost compared to the existing equipment in terms of reliability, which can be lowered by more than 15% compared to the conventional failure rate. It works.

Claims (4)

A power generating means (4) provided with a hydraulic generator (20a) for generating hydraulic pressure by the force of the machine and a manual hydraulic generator (20b) for manually generating hydraulic pressure, Hydraulic balance control pipe 30 for controlling or distributing the hydraulic pressure generated in any one place by the hydraulic generator (20a) and the manual hydraulic generator (20b) provided in the power generating means (4), The hydraulic actuator 40 is connected to the hydraulic balance control tube 30 by the hydraulic supply port 42 and the hydraulic discharge port 44 and generates an operating force by an internal cylinder according to the hydraulic pressure supplied thereto, and the hydraulic driver 40. By a general transmission means (6) consisting of a reducer (60) connected to the reducer 60 for transmitting and reducing the operating force, and a distributor (50) for rotating the two crankcase shaft (52) with the operating force transmitted by the reducer. In opening and closing while moving the elevating operation by transmitting the operating force to both sides of the gate, Drive gears 54 are provided at both ends of the crankcase shafts 52 on both sides of the distributor 50, A drum gear 72 having gears formed on an outer circumferential surface to be engaged with the drive gears 54 of both crankcase shafts, and coupled to the drum gear 72 so as to rotate in conjunction with the drum gear 72, and a wire 76 wound around the outer circumferential surface. Is installed to each of the wire drum 70 consisting of a drum (74), the wire 76 of the wire drum 70 to the siebora (12) formed on both sides of the sluice 10 to be able to move up / down Hydraulic motor-driven wire drum sluice structure, characterized in that configured to raise / lower the sluice (10) by combining. delete delete delete

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