KR100932663B1 - Shock-absorbing apparatus of waterworks - Google Patents

Abstract

PURPOSE: A shock-absorbing apparatus of waterworks is provided to dampen the impact applied to water supply pipes using buffer walls which moves in a transverse or inclined direction. CONSTITUTION: A shock-absorbing apparatus of waterworks comprises a base plate(10), a support ring(20), first and second sliders(31,41), first and second buffer walls(30,40), buffer springs(33,43), and a top cover(50). The base plate comprises a buffer pad(11) and rails(12,13) in which a water supply pipe(1) is settled. The support ring is coupled to the outer side of the water supply pipe. The first and second sliders move along the rails of the base plate in a traverse direction. The first and second buffer wall are arranged on the right and left sides of the base plate, respectively, and connected to the first and second sliders on the bottom by axial pins(32,42). The first and second buffer walls move along the first and second sliders and are controlled in angle through the axial pins. The buffer spring is installed between the support ring and the first and second buffer walls in order to absorbs an impact. The top cover is arranged on the top of the first and second buffer walls to protect the water supply pipe. In the top cover, first and second lid parts(52,53) are connected through a bellows(51). The first and second buffer walls are connected to elongated holes(52a,53a) through angle adjusting pins(34,44).

Description

Water pipe damper {SHOCK-ABSORBING APPARATUS OF WATERWORKS}

The present invention relates to a water pipe shock absorber, and more particularly, when a shock is applied to the water pipe buried in the ground in the lateral or inclined direction, the water pipe shock absorber which can effectively absorb the shock to protect the water pipe. It is about.

Generally, when the water supply pipe is buried in the ground, facilities are installed to prevent accidents due to the settlement of the water supply pipe, such as supporting a cushion base or installing a wide base plate so that the connection joint is not separated due to ground subsidence. .

However, water pipes buried underground are often installed around roads, and when heavy vehicles such as large trucks or buses travel adjacent to the buried areas of water pipes, they are buried by vibration generated according to the weight. There is a problem that vibration occurs in the water supply pipe which is a pipe.

In other words, the vibration of the water supply pipe is buried out of the buried position, and the water supply pipe is damaged by the temperature difference according to the seasonal change, thereby providing a reason that it is difficult to supply the water to the citizens.

In order to solve this problem, there is a patent (00615427) (water conduit buffer).

The water pipe buffer device, the two sides are opened in a cylindrical form to ensure that the sealing material is installed in close contact with the outer side of the joint portion to achieve a cushioning effect, and the flange is formed on both sides in a semicircular form on the outer side of the sealing material is fastened with bolts and nuts In a water supply pipe provided with a pair of buffer port 1.2 extending in the longitudinal direction to connect the joint of the water supply pipe to prevent water leakage,

On the outer circumferential surface of the sealing material is provided an elastically actuated buffer structure, which is composed of two sets, the plate is formed horizontally on both sides of the semi-circular plate, the fastening hole is formed in the plate, a plurality of cylindrical projections on the semi-circular plate A shock-absorbing port 1 which protrudes, a spring is inserted into the inner side of the cylindrical protrusion, a rod is inserted into the inner peripheral surface of the cylindrical protrusion, and flows, and a supporting plate such as a semi-circular plate is formed at the end of the rod, and coupling grooves are formed at both sides in the width direction of the semi-circular plate. ,2; While the flange is inserted into and fastened to the coupling grooves on both sides of the shock absorber 1 and 2 in the width direction, an outer shape is formed to have a step (or wrinkle) while tapering from one side to the other side, and an inner center penetrates from one side to the other side, and one side thereof. Characterized in that the shock absorber consisting of; a rubber cushioning material is formed on the outer circumferential surface and the protrusion is formed forward.

However, the above-described shock absorber is installed only at the periphery of the water supply pipe to cover the water supply pipe, and is a structure that cannot substantially protect the impact in the lateral direction or the inclined direction.

The present invention is to solve the above problems, and when the impact in the lateral and inclined direction is applied to the water supply pipe buried in the ground, the shock absorbing shock toward the water supply pipe while moving to the left and right and inclined buffer wall completely It is an object of the present invention to provide a water pipe buffer device capable of doing so.

Water supply pipe buffer according to the present invention for achieving the object as described above, the buffer pad is installed in the water supply pipe is installed in the center of the upper surface and the base plate is formed with two rails on each of the left and right sides; A support ring formed in an annular shape and coupled to a circumference of the water pipe; First and second sliders installed on the rails of the base plate so as to be movable in left and right transverse directions; First and second ends disposed on both left and right sides of the base plate, respectively, the lower end of which is connected to the first and second sliders through the shaft pins, and moves left and right along the first and second sliders and is angle-adjusted through the shaft pins. A buffer wall; A shock absorbing spring disposed between the support ring and the first and second buffer walls to absorb an impact from the first and second buffer walls; Disposed on an upper portion of the first and second buffer walls, and having left and right sides connected to upper ends of the first and second buffer walls, respectively, and including an upper cover to protect the water supply pipe. The first and second cover parts on both sides of the left and right sides are elastically connected, and the cover parts on both sides of the left and right sides are provided with curved guide holes so that the first and second buffer walls are angled to the guide holes through the angle adjusting pins. It is characterized in that the adjustable connection.

According to the water pipe shock absorber according to the present invention, when the shock in the left and right transverse direction is generated and applied to the water pipe, the shock absorbing while absorbing the shock while moving the first and second buffer walls left and right by this shock Since the impact energy impinged on the first and second buffer walls is absorbed and the first and second buffer walls are prevented from being pushed, the water supply pipe can be protected because no impact is applied.

In addition, when the impact in the inclined direction is applied to the water supply pipe, the first and second buffer walls are inclined to be guided by the axial pin and the angle adjusting pin, thereby absorbing the shock, thereby protecting the water supply pipe.

In addition, when an up and down impact occurs in the water supply pipe, the shock absorbing plate and the buffer pad absorb the shock to prevent damage to the water supply pipe due to up and down shaking.

As shown in Figure 1 and 2, the water pipe buffer according to the present invention, the base plate 10, the support ring 20 is coupled to the circumference of the water pipe (1), the inside of the base plate 10 First and second buffer walls 30 and 40 which protect the piped water pipe 1 from lateral impact, and an upper cover 50 which protects the water pipe 1 from the impact applied from the top.

The base plate 10 may be a flat plate-shaped concrete plate, and a buffer pad 11 is installed at the center of the upper surface of the water pipe 1.

The buffer pad 11 is made of urethane, etc., and is provided with a curved upper surface to prevent separation of the water supply pipe 1, and is installed in the base plate 10 through bolts (not shown). do.

The base plate 10 has two rails 12 and 13 on each of the left and right sides of the upper surface so that the first and second elastic walls 30 and 40 may move in the left and right directions and absorb shocks from the left and right directions. Is formed.

The support ring 20 is made of a buffer material such as urethane, and is fixed to the circumference of the water supply pipe (1). The support ring 20 is formed by combining two semi-circular pieces 21 and 22 so that the support ring 20 can be easily installed at the circumference of the water supply pipe 1. The two semi-circular pieces 21 and 22 are the same product and are arranged symmetrically to form a support ring 20 by fastening a bolt to an opposite flange.

The first and second buffer walls 30 and 40 are erected on both the left and right sides of the base plate 10 to protect the water supply pipe 1, and the bottom portions of the first and second buffer walls 30 and 40 are respectively supported by the first and second sliders 31 and 41. It is installed so as to be movable to the left and right at 10.

The first and second sliders 31 and 41 are installed on the first and second rails 12 and 13 so as to be movable from side to side.

The first and second buffer walls 30 and 40 are moved to the left and right through the first and second sliders 31 and 41, and the first and second sliders are formed through the shaft pins 32 and 42 to adjust the angle. 31,41).

That is, the first and second buffer walls (30, 40) is a shock applied to the water supply pipe (1) while moving in the lateral direction along the first and second rails (31, 41) when an impact is applied from the left and right transverse direction. Absorption and the shock in the inclined direction absorbs the shock while the angle is adjusted through the shaft pins (32, 42).

The first and second buffer walls 30 and 40 may be in the form of boxes made of synthetic resin or steel.

First and second buffer springs 33 and 43 are applied to double the buffering force of the first and second buffer walls 30 and 40.

The first and second buffer springs 33 and 43 are respectively supported on the support ring 20 and the first or second buffer walls 30 and 40 by supporting the support ring 20 which is fixed. By exerting a repulsive force against the jungle of the first and second buffer walls 30 and 40, the first and second buffer walls 30 and 40 are prevented or delayed.

Although the installation structure of the first and second buffer springs 33 and 43 is schematically illustrated in the drawings, the support ring 20 and the first and second buffer walls 20 may be used to fix the first and second buffer springs 33 and 43. The boss 30 and the like can be formed.

The upper cover 50 covers the upper portions of the first and second buffer walls 30 and 40 to protect the upper portion of the water supply pipe 1, and the first and second cover portions on both sides of the left and right sides are formed through the central pleats 51. (52, 53) is a structure that is elastically connected.

The upper cover 50 should not allow soil to pass through between the first and second buffer walls 30 and 40, and the first and second buffer walls 30 and 40 should be angle adjustable. To this end, curved guide slots 52a and 53a are formed at the ends of the first and second cover parts 52 and 53.

The first and second buffer walls 30 and 40 are connected to the guide holes 52a and 53a through angle adjusting pins 34 and 44 to adjust angles.

As shown in Figure 5, the present invention may additionally be applied to the buffer plate 60 for the upper and lower buffer of the base plate (10).

The buffer plate 60 is formed of side walls 62 and 63 which protrude upward from the left and right sides of the bottom part 61 and the bottom part 61 to cover both left and right sides of the base plate 10, and the base plate 10. It is installed at the bottom of the through a plurality of coil springs 64 to support the base plate (10).

The function of the water pipe buffer according to the present invention is as follows.

2 is a state in which no impact is applied, the first and second buffer walls 30 and 40 are supported by the first and second buffer springs 33 and 43, and the first and second buffer springs 33 and 43. ) Supports the first and second buffer walls 30 and 40 through their elastic force. That is, although earth pressure is applied to the first and second buffer walls 30 and 40 due to the soil on the outer side of the first and second buffer walls 30 and 40, the first and second buffer springs 33 and 43 are applied. The first and second buffer walls 30 and 40 are supported so as not to push against the earth pressure.

In this state, when the earth pressure that overcomes the elastic force of the first and second buffer springs 33 and 43 is applied, as shown in FIG. 3, the first buffer wall 30 is connected to the base plate 10 through the first slider 31. In the phase toward the water pipe (1). At this time, since the elastic force of the first buffer spring 33 is opposed to the rolling of the first buffer wall 30, the sliding of the first buffer wall 30 may be delayed or the stop of the rolling may be stopped.

On the contrary, when the earth pressure applied to the first buffer wall 30 disappears, the first buffer wall 30 returns to its original position by the elastic force of the first buffer spring 33.

The second buffer wall 40 also works the same as the first buffer wall 30.

When the first and second buffer walls 30 and 40 move left and right, the upper cover 50 is stretched through the pleats 51 and thus does not break.

The first buffer wall 30 is supported by the first buffer spring 33, and the first buffer spring 33 supports the first buffer wall 30 through its elastic force.

On the other hand, when the earth pressure in the inclined direction is applied to the first buffer wall 30 is inclined around the axis pin 32, at this time, the angle adjustment pin 34 is the guide hole 52a of the upper cover 50 It guides the inclination of the first buffer wall 30 while moving along.

When the first buffer wall 30 moves to the left or right, the upper cover 50 may prevent the inflow of soil without breaking due to expansion and contraction through the pleats 51.

1 is an exploded perspective view of a water pipe buffer according to the present invention.

Figure 2 is a front view showing an assembled state of the water pipe buffer according to the present invention.

3 and 4 is an operating state of the water pipe buffer according to the present invention,

3 is a state in which the shock absorbing wall moves in the transverse direction with respect to the transverse impact,

4 is a state in which the buffer wall is inclined with respect to the inclined impact.

Figure 5 is an exemplary view applied buffer plate to the water pipe buffer according to the present invention.

<Description of Signs for Main Parts of Drawings>

1: water pipe, 10: base plate

11: cushioning pad, 12, 13: rail

20: support ring, 30, 40: buffer wall

31.41: slider, 32, 42: shaft pin

33,43: buffer spring, 34,44: angle adjusting pin,

50: cover, 51: wrinkles

60: buffer plate,

Claims (2)

A base plate 10 having a buffer pad 11 on which a water conduit 1 is seated at a center of an upper surface thereof, and two rails 12 and 13 formed on both left and right sides thereof; Two semi-circular pieces 21 and 22 are combined to form an annular shape and a support ring 20 coupled to the circumference of the water pipe; First and second sliders 31 and 41 installed on the rails of the base plate so as to be movable in left and right directions; It is disposed on the left and right sides of the base plate, respectively, and the lower end is connected to the first and second sliders through the axis pins 32 and 42, respectively, and moves left and right along the first and second sliders and the angle is adjusted through the axis pins. The first and second buffer walls 30 and 40; Buffer springs (33,43) installed between the support ring and the first and second buffer walls to absorb shocks from the first and second buffer walls; Disposed on an upper portion of the first and second buffer walls, and both left and right sides are connected to upper ends of the first and second buffer walls, respectively, and include an upper cover 50 to protect the water supply pipe. The upper cover is elastically connected to the first and second cover parts 52 and 53 on both the left and right sides through a pleats 51 at the center thereof, and curved guide slots 52a and 53a on the cover parts on the left and right sides. A) is provided with the first and second buffer walls are connected to the guide hole through the angle adjustment pins (34,44) to adjust the angle, characterized in that the water pipe buffer device. According to claim 1, The bottom portion 61, Protruding upward from the left and right sides of the bottom, respectively, consisting of side walls (62, 63) covering the left and right sides of the base plate, a plurality of coil springs at the bottom of the base plate Water supply pipe buffer, characterized in that it comprises a buffer plate 60 is installed through the support 64 to the base plate.

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