KR200268758Y1 - Shock Absorbing Instrument For a Flood-Gate - Google Patents

Abstract

The present invention relates to a shock absorber for absorbing and buffering the impact with the bottom surface during the lowering operation by the weight of the gate to open and close.

The present invention provides a buffer spring (35) between the fixing bar (15 ') (15') of the end connected to the hoisting portion and the sluice to buffer the up and down inside the casing (30). On the inner side of the casing 30, the upper and lower rake bars 15 'and 15' and the fixed brackets 16 and 17 are slidably guided in the vertical direction and absorb shock by friction. The lining 45 is formed, and the buffer spring 35 prevents the buffer spring 35 from operating above the yield point between the fixing brackets 16 and 17 of the upper and lower rack bars 15 'and 15'. It provides a hydrostatic buffer device for fixing the support bracket 40 to the.

The present invention is a constant guide operation by the guide rod and the lining when the hydrologic lowering so that the impact acts only in the vertical direction, and also maximizes the shock absorption efficiency by the frictional force by the lining and the buffering action by the buffer spring. Of course, by preventing the buffer spring from reaching the yield point, there is an effect of preventing damage and maintaining its service life for a long time.

Description

Shock Absorbing Instrument For a Flood-Gate

The present invention relates to a shock absorber of the water gate to absorb and buffer the impact with the bottom surface during the lowering operation by the weight of the water gate to open and close, more specifically to act only in the vertical direction the impact applied to the water gate By guiding and effectively absorbing and buffering by the spring, the shock absorber maximizes the shock absorption efficiency, as well as preventing the breakage of the spring and extending the service life.

In general, the water gate is lifted by the hoisting unit to open and close the door.

Such a sluice has a method of raising and lowering the sluice by rotating the spindle forward and backward by a handle operation, but the use of the sluice is limited due to a decrease in workability and time for raising and lowering the sluice.

Therefore, in general, as shown in FIG. 1, the handle 20 is rotated to raise and lower the lock bar 15 which is fixed to the center or both sides of the water gate 20 by operating the winch 10. In the case of opening and closing the water gate, a method of closing by the descending operation by the weight of the raised water gate 10 is mainly used.

At this time, the sluice 20 is to maintain the open state by preventing the reverse rotation by a separate brake means during the ascending operation, it is to lower the sluice to release the brake means.

However, such a floodgate 20 is damaged and caused a breakdown as the shock received by the floodgate 20 itself as well as the floodgate due to its impact during the lowering operation due to its own weight is transmitted to the rake bar 15 and the hoisting part 10. This causes a problem of shortening the service life.

In order to solve this problem, conventionally configured to overlap the bracket 21, 16 connected to the rake bar 15 of the sluice 20 and the hoisting portion 10 side as shown in FIG. One side bracket 16 forms a plurality of long holes 16a, and the other side bracket 21 fixes the plurality of guide bolts 5 in a state penetrating the long holes 16a so that the water gate 20 weighs itself. Since the guide bolt (5) is guided through the long hole (16a) by the impact caused by the lowering by the lowering bar 15 is lowered to obtain a stepped impact so that the impact to the leg bar (15) and the hoisting portion (10) To attenuate the transmission.

However, such a technique is insufficient to mitigate the impact on the sluice gate 20 itself. In order to improve this, in Korean Utility Model Publication No. 93-8910, when compared with FIG. The coil spring is inserted between the door brackets 21 to sufficiently alleviate the impact applied to the water gate 20 by the coil spring during the lowering operation by the weight of the water gate. In addition, the coil spring is provided. In the arc, the elevating rod having a rack gear to be connected to the hoisting unit, and the support rod installed in the water gate are wrapped to surround the housing, and the buffer spring is tripled between the elevating rod and the support and between the elevating rod and the support inside the housing. Absorption spring is installed, which allows the buffer spring and the absorption spring to undergo a multi-stage shock mitigation process during the lowering operation by the weight of the floodgate. Therefore, the above-mentioned conventional hydrological buffer devices have a buffer spring (absorption spring) between the divided rack bars or between the lifting rod and the support. During the lowering operation due to the weight of the water gate, the sluice side and the lifting side rack bar (between the lifting rod and the support) step by step to cushion the shock by the shock spring, wherein the divided rack bar (between the lifting rod and the support) Since it does not fall constantly in the up and down direction, there is a problem that the efficiency of the impact mitigation operation by the shock absorbing spring is lowered. The shock absorbing spring is shock-absorbed against the impact of the shock, but the shock absorbing against the lateral or torsional stress is not effective. There was still a problem that the rack bar (between the lifting rod and the support), the water gate, the winch, and the like were damaged or damaged. Further, the above-mentioned water buffer device has a buffer spring between the rack bars divided by the buffer spring. The shock absorbing force in the vertical direction is absorbed, but the shock absorbing spring acts as a primary shock absorber, and the shock absorbing operation repeatedly reaches the yield point in the vertical direction. The shock spring had to be replaced frequently to obtain an effective shock absorbing effect.

The present invention is designed to fundamentally solve all the problems of the prior art described above, maximizing the shock absorption efficiency by effectively absorbing and buffering the spring by guiding the impact applied when the water gate descends only in the vertical direction. Of course, the purpose of preventing the breakage of the spring, and long life.

The purpose of the present invention is to install a shock absorbing spring between the fixing bracket connected to the winch and the water gate to the upper and lower buffer operation inside the casing, the upper and lower lever bars and the fixing bracket on the inner side of the casing up and down A lining for guiding the sliding motion guide and a shock absorption by friction in the direction, and a support bracket for preventing the buffer spring from cushioning over the yield point between the upper and lower fixed brackets. It is achieved by one hydro buffer.

1 is a front view showing a general sluice,

Figure 2 is an enlarged view of the main portion showing a conventional hydro buffer;

Figure 3 is a front cross-sectional view showing the present invention,

Figure 4 is a side cross-sectional view showing the present invention,

5 is a buffer operating state of the present invention.

<Explanation of symbols for main parts of drawing>

10; Winding 15,15 ', 15'; Reckba

20; Hydrology 16,17; fixed bracket

30; Casing 32; Sliding operation part

35; Buffer spring 40; Support Bracket

45; Lining

Hereinafter, with reference to the accompanying drawings, a preferred embodiment for achieving the object of the present invention will be described in detail.

That is, the present invention, as shown in Figs. 1, 3, and 4, by raising the rake bar 15 by the operation of the hoisting unit 10 to raise and open the water gate 20, the The water gate 20 is closed down by its own weight, and the upper and lower rack bars 15 'and 15' connected to the winch 10 and the water gate 20 are formed to be spaced apart by a predetermined distance, and at the tip thereof. Installed in the casing 30 with the shock absorbing spring 35 interposed between the fixed brackets 16 and 17 installed to mitigate the impact of the lowering of the water gate. A lower bar (15 ') (15') and its fixing bracket (16) (17) are provided with a lining (45) for absorbing shock by up-down guide operation and frictional resistance,

The inner center of the casing 30 is made by fixing the support bracket 40 to prevent reaching the yield point during the compression operation of the shock absorbing spring 35 between the fixing bracket (16, 17).

In addition, when both ends of the shock absorbing spring (35) is fixed to the fixing brackets (16, 17), the sliding actuating portion 32 of the casing 30 is also less than the yield point at the tension of the shock absorbing spring (35) It is desirable to form at a small distance.

Reference numeral 37 denotes a fastening nut for fixing the guide rod 36 to the casing 30.

Next, the operation and operation of the present invention will be described.

First, the present invention raises and lowers the sluice 20 by operating a single or a plurality of rake bars 15 and 15 as shown in FIG. 1, or without using the rake bars 15. ) Can be applied to both the way of lifting and lowering it by the weight of the gate 20.

In more detail, when the water gate is opened, the leak bars 15 and 15 are raised by the manual or driving unit (not shown) of the hoisting unit 10 to open and open the water gate 20. Likewise, when the water gate 20 is to be closed in the open state, the brake means (not shown) is released, so the water gate 20 is lowered and closed by its own weight.

At this time, the descending due to the weight of the water gate 20 is fixed bracket 16 of the end of the rake bar (15 ') (15') connected to the water gate 20 and the hoisting portion 10 as shown in FIG. 17) the guide rod 36 and the lining 45 installed in the casing 30, the friction guides to perform the operation to be constantly guided in the vertical direction.

As such, the upper and lower rake bars 15 'and 15' which are constantly guided in the vertical direction are alleviated by the buffering force of the buffer spring 35 provided therebetween.

Therefore, as in the prior art, the stress at the time of the fall due to the weight of the water gate 20 is prevented from acting laterally or torsionally, thereby effectively absorbing the shock by the shock absorbing spring 35.

Furthermore, the leak bars 15 'and 15' and the fixing brackets 16 and 17 act as a shock absorber by frictional resistance with the lining 45 when the shock absorbing spring 35 acts as a shock absorber. Since it will be, the effect of the above-mentioned shock absorber will be doubled.

In addition, the present invention is because the support bracket 40 installed between the fixing brackets 16 and 17 of the rack bars 15 'and 15' limits the compression operation of the shock absorbing spring 35 at a predetermined position. It is possible to prevent the spring 35 from reaching the yield point due to excessive compression by the impact, so that the service life can be long.

As described above, the present invention has a constant guide operation by guide rods and linings when the gate is lowered, so that the impact acts only in the vertical direction, and also the shock absorption efficiency due to the frictional force by the lining and the buffering operation by the buffer springs. In addition to maximizing the prevention of the shock absorbing spring to reach the yield point is to prevent damage and maintain its long life.

Claims (3)

By operating the hoisting unit 10, the lecbar 15 is raised to open and open the sluice 20, and the sluice 20 is lowered and closed by the weight of the sluice 20. And the upper and lower rack bars 15 'and 15' connected to the gate 20 and a predetermined distance apart from each other, and the buffer spring 35 is interposed between the fixing brackets 16 and 17 installed at the tip. In installing in the furnace casing 30 to mitigate the impact of the lowering of the water gate, The inner side of the casing 30 has a lining 45 for absorbing the shock by the upper and lower rake bars 15 'and 15' and its fixing brackets 16 and 17 up and down guide operation and frictional resistance. Install it, Hydrologic buffering, characterized in that the inner center of the casing 30 is fixed to the support bracket 40 to prevent the yield point to reach the yield point during the compression operation of the shock absorbing spring (35) between the fixing bracket (16, 17) Device. Claim 2 has been deleted. Claim 3 has been deleted.