KR200337460Y1 - An apparatus for supporting the concrete conveying pipe - Google Patents

Abstract

The present invention relates to a support device for concrete pressure pipe, in particular a pair of support bridge, connecting bar connecting the support bridge, the slider is installed to be movable left and right on the connection bar, the pressure pipe mounting plate and the support installed on the slider Since the shock absorber is composed of shock absorbing means installed at the end of the leg, the impact of the pressure pipe is almost transmitted to the die because the left and right shock of the pressure pipe is absorbed by the slider according to the shock, and the vertical shock is absorbed by the elastic member of the shock absorbing means. It can protect the formwork, and furthermore, cushion pad is attached to the mounting plate to prevent direct contact between the mounting plate and the pressure pipe, thereby preventing damage to the mounting plate due to the impact of the pressure pipe. The protrusion is formed on the inner circumferential surface of the to minimize the contact area with the connecting bar, so the friction between each other is small. Composed of the left and right movement is smooth, to a concrete pumping tolerance receiving apparatus which is an advantage.

Description

An apparatus for supporting the concrete conveying pipe}

The present invention relates to a support for a concrete pressure pipe support to protect the formwork from the impact of the concrete transport pressure of the pressure pipe connected to the pump car when the concrete is placed.

In general, a pump car is usually used for the construction of slabs or floors in concrete.

This is because even the high floor of the building and the lower floor of the building can be easily conveyed through the pressure pipe connected to it by the strong pressure of the concrete pump car.

However, when concrete is poured through the pressure pipe by the concrete pump car, there is an advantage of saving labor and greatly reducing the air. It vibrates violently or swings left and right or up and down.

Therefore, there is a problem that the construction of the frame is incomplete because the impact on the reinforcement and formwork, and the part already cured for concrete placing.

On the other hand look at the prior art proposed to solve the above problems.

A support for the concrete pressure pipe according to the prior art is shown in FIG.

As shown in Fig. 1, the prior art is a frame 4 which is set on a formwork 1 on which a reinforcing bar 2 is placed and supports a pressure feeding tube 3, and a frame 4 in which a plurality of legs are formed, and the frame 4 It is composed of a chain (5) which is connected to both ends of each side so as to be shaken to support the pressure pipe (3).

This prior art is that when the pressure pipe (3) vibrates or swings to transport concrete, the chain (5) holding the pressure pipe (3) is shaken like a swing to absorb the shock.

However, the prior art simply because the chain (5) is shaken to mitigate the impact of the pressure feed pipe (3) can not absorb the shock acting in the vertical direction at all, so that the impact is transmitted as it is to the die (1), etc. have.

In addition, the prior art has the trouble of having to lift the frame 4 itself when it is necessary to move the pressure feeding tube 3 to the right and left, for example, when the pressure feeding tube is set incorrectly.

The present invention is devised to solve the problems of the prior art, the cushioning means is installed on each leg, the cradle for holding the pressure pipe is installed so as to be movable left and right of the pressure pipe acting in the vertical direction, or left and right directions The purpose of the present invention is to provide a support for the concrete pressure pipe that can be mitigated by the shock absorbing means and the cradle, as well as to easily move the pressure pipe from side to side.

1 is a perspective view showing the support for the concrete pressure pipe according to the prior art,

Figure 2 is a perspective view showing the support for the concrete pressure pipe according to the present invention,

3 is a perspective view showing the configuration of the cradle shown in FIG.

4 is a cross-sectional view taken along the line A-A of FIG.

5 is a cross-sectional view showing the configuration of the buffer means shown in FIG.

6 is a cross-sectional view showing an operating state of the shock absorbing means shown in FIG.

<Explanation of symbols on main parts of the drawings>

100: pedestal 110: support leg

111: center portion 120: connecting bar

200: cradle 210: slider

211: protrusion 220: mounting plate

230: cushion pad 300: cushioning means

310: case 313: foot

330: elastic member

The present invention for realizing the technical problem is a pair of supporting legs, the center portion is bent at both ends toward the lower side, the connecting bar is connected to both ends of the central portion of each of the supporting legs, and installed to surround the connection bar Slider sliding along the bar, the mounting plate is installed on the upper side of the slider, the pressure pipe is placed, the cushion pad attached to the upper side of the mounting plate, and both ends of the support leg is inserted so as to move up and down It is characterized in that it comprises a case and an elastic member for elastically supporting the support leg in the inside of the case.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings.

2 is a perspective view showing the support for the concrete pressure pipe according to the present invention.

As shown in FIG. 2, the present invention provides a pedestal 100, a pedestal 200 installed above the pedestal 100 to support a pressure pipe (see reference numeral 3 in FIG. 1), and the pedestal 100. Installed on the lower side of the shock absorbing means for absorbing the shock transmitted from the pressure pipe 300 is composed of roughly.

The pedestal 100 is bent so that the central portion (111) is symmetrical, and is formed in a substantially ∩ shape with both ends facing downwards and a pair of support legs (110) respectively disposed on the left and right to face each other, and the support legs (110) The connecting portion 120 is connected to both ends of the central portion 111, respectively, and the auxiliary connecting bar 130 is connected to both ends on both sides of the support leg 110, respectively.

The pedestal 100 is made of a steel tube, the connection of each component is preferably connected by welding.

3 is a perspective view showing the configuration of the holder shown in Figure 2, Figure 4 is a cross-sectional view taken along the line A-A of FIG.

As shown in FIGS. 3 and 4, the cradle 200 is installed on the connection bar 120 so as to be slid, and the slider 210 moves left and right along the connection bar 120 and the slider 210. It is composed of a mounting plate 220 is installed on the upper side and the pressure-feeding pipe is placed thereon, and a cushion pad 230 attached to the upper side of the mounting plate 220.

Here, the slider 210 is a cylinder installed to surround the connecting bar 120, and a plurality of hemispherical protrusions 211 are formed along the circumferential direction of the inner circumferential surface to minimize friction by reducing the contact area with the connecting bar 120. do.

At this time, four protrusions 211 are installed at intervals of 90 degrees, and also serves to reinforce the strength of the slider 210.

In addition, the mounting plate 220 is formed in an arc shape of which the upper side is opened so that the pressure pipe can be mounted vertically with respect to the connection bar 120.

FIG. 5 is a cross-sectional view showing the configuration of the shock absorbing means shown in FIG. 2, and FIG. 6 is a cross-sectional view showing an operating state of the shock absorbing means shown in FIG.

As shown in FIGS. 5 and 6, the shock absorbing means 300 are installed at both ends of each support leg 110, respectively, and a hollow portion 311 is formed therein so that the support leg 110 is supported by the hollow portion 311. End of the case is inserted into the case 310 to move up and down, and the inside of the case 310 is installed at the end of the support leg 110, the support leg 110 is moved up and down along the hollow portion 311 The lifting member 320 and the sliding member, and the elastic member 330 is installed on the hollow portion 311 from the lower side of the lifting member 320 to support the support leg 110 elastically.

Here, the elevating member 320 is formed with a through hole 321 which passes up and down, and the case 310 is fitted into the through hole 321 at the bottom so that the elevating operation of the elevating member 320 is more stable. A guide rod 312 for guiding is formed.

In addition, the case 310 has a support foot 313 having a larger circumference than that of the case 310 main body so that the case 310 can be reliably erected at the bottom thereof.

On the other hand, the elastic member 330 is to absorb the shock acting in the vertical direction of the pressure pipe, a coil spring made of high-strength carbon steel.

Reference numeral 340 not described above is a sealing material for maintaining the airtightness between the support leg 110 and the case 310.

Looking at the operation of the present invention is configured as described above as follows.

If you want to pour concrete into the mold far away from the pump car, first set the present invention at a predetermined interval between the pump car and the formwork, put the pressure pipe on the mounting plate 220 and then connect the pressure pipe to the pump car.

When the concrete is supplied at a high pressure from the pump car, the concrete is transferred through the pressure pipe, and the pressure pipe vibrates or swings.

At this time, the mounting plate 220 is prevented from being in direct contact with the pressure feed pipe by the cushion pad 230 to prevent damage due to contact.

In addition, the shock (vibration, shaking) of the pressure pipe is transmitted to the pedestal 100 through the cradle 200, whereby the support leg 110 of the pedestal 100 to enter the case 310 of the buffer means 300. The elastic member 330 of the shock absorbing means 300 is compressed by the entering leg 110. (See FIG. 6).

Therefore, the impact of the pressure pipe, that is, the up and down shock is absorbed by the elastic member 330 and transmitted to the mold is minimized.

In addition, the left and right shocks of the pressure pipe are also absorbed by the slider 210 that slides along the connecting bar 120.

On the other hand, if you want to move the pressure pipe to the left and right as necessary, it can be moved by pushing the slider 210 in the desired direction.

At this time, the slider 210 has a small contact area with the connecting bar 120 by the protruding portion 211, and thus the slider 210 is moved without great force.

The present invention is constructed and operated as described above is a pair of supporting legs, connecting bars for connecting the supporting legs, the slider is installed to be movable left and right on the connecting bar, the pressure pipe mounting plate and the supporting legs installed on the slider Since it is composed of shock absorbing means installed at the end, the left and right shocks (vibration and oscillation) of the feed pipe are absorbed by the slider according to this shock, and the up and down shocks are absorbed by the elastic member (coil spring) of the shock absorbing means. It is rarely delivered to the formwork, etc. There is an advantage that can protect the formwork.

In addition, the present design has an advantage that the cushion pad is attached to the mounting plate to prevent direct contact between the mounting plate and the pressure feed tube, thereby preventing damage to the mounting plate due to the impact of the pressure feed tube.

In addition, the present invention has an advantage in that the protrusion is formed on the inner circumferential surface of the slider surrounding the connecting bar to minimize the contact area with the connecting bar, so that the friction between each other is smooth and the left and right movement of the slider is smooth.

In addition, the present invention has the advantage that can be more stably erect the present invention is formed on the bottom of the case having a larger circumference than the case at the bottom of the case in which the elastic member of the buffer means is built.

Claims (3)

A pair of supporting legs having a central portion bent at both ends thereof, a connecting bar having both ends connected to a central portion of each supporting leg, a slider installed to surround the connecting bar, and a slider sliding along the connecting bar; A mounting plate installed on an upper side of the mounting plate, on which a pressure pipe is placed, a cushion pad attached to an upper side of the mounting plate, a case into which both ends of the supporting legs are movable up and down, and the inside of the case Supporting device for a concrete pressure pipe, characterized in that composed of an elastic member for elastically supporting the supporting leg. The method of claim 1, The slider is a support for the concrete pressure pipe, characterized in that the plurality of protrusions are formed in a hemispherical shape in the circumferential direction on the inner peripheral surface. The method of claim 1, The case is a support base for a concrete pressure pipe, characterized in that the support feet are formed at the lower end is formed to have a larger circumference than the case.