KR20160138692A - Concrete mortar construction equipment pulsation prevention device - Google Patents

Abstract

The present invention relates to a pulsation prevention device for concrete mortar construction equipment, which prevents concrete mortar from being hardened in a pressure tank. To achieve this, the pulsation prevention device for concrete mortar construction equipment is configured as follows. A pressure tank (200) is vertically installed in a transfer pipe (110) connected to a concrete pump (100). The supply end (110a) of the transfer pipe (110) is bent upward to be connected to the top of the pressure tank (200), and the discharge end (110b) of the transfer pipe (110) is connected to the bottom of the pressure tank. An air supply device (300) having an air compressor (310) connected to the pressure tank (200) is additionally installed.

Description

Technical Field [0001] The present invention relates to a pulsation prevention device for a concrete mortar construction apparatus,

The present invention relates to a device for preventing pulsation of a concrete mortar construction apparatus, and more particularly, to a concrete pump for a concrete pump, which is provided with a pressure tank in a specific form so that the concrete mortar is supplied from above, Since the new concrete mortar is always put in the concrete mortar, the existing concrete mortar remains and does not cure at all,

When the concrete mortar filled in the pressure tank is discharged to the discharge side end of the transfer pipe by the air pressure in the pressure tank, the air pressure generated from the air compressor constituting the air supply device is supplied to the pressure tank through the air booster and the check valve, And the water level of the concrete mortar is lowered down to the lowermost end of the pressure tank, so that the concrete mortar does not remain and is always discharged completely. The present invention relates to a pulsation prevention device for a concrete mortar construction equipment.

Generally, in order to discharge concrete mortar mixed with sand, cement and gravel to a work site of a high-rise building such as an apartment or an office building, a large-pressure soil discharge is required. Therefore, a piston type concrete pump .

Such a piston type concrete pump discharges concrete by sucking concrete with a cylinder and reciprocating the piston, and is made of a so-called two-way-2-stroke structure which is usually made up of two cylinders using two cylinders.

1, the piston concrete pump 100 includes a hopper 10 supplied with a concrete mortar to be discharged from a mixer truck or the like, a concrete mortar 10 disposed on one side of the hopper 10, A drive cylinder 30 connected to the rear portion of the discharge cylinder 20 and a drive cylinder 30 connected to the discharge cylinder 20 by a left and right swing operation, And a left and right shift cylinder 50 for swinging the switching valve 40 from the rear side of the hopper 10 to the left and right, .

In the discharge cylinder 20, there is provided a piston 25 which reciprocates forward and backward by the hydraulic pressure of the drive cylinder 30.

The discharge cylinder (20) and the drive cylinder (30) are connected to each other with a water box (24) for cooling and cleaning the piston at the time of discharge of the concrete mortar.

The operation of the 2-2 type piston concrete pump 100 having such a structure is as follows.

The concrete mortar is discharged to the transfer pipe 110 side through the discharge operation in which the piston 25 advances in the one discharge cylinder 20 connected to the switching valve 30 and at the same time the other discharge cylinder 20 , The concrete is sucked into the concrete through the suction operation in which the piston 25 moves backward.

Subsequently, after the discharge operation of the one-side discharge cylinder 20 is completed, the switching valve 40 is swung by the shift cylinder 50 to connect the other-side discharge cylinder 20 to the transfer tube 110, The outlet of the cylinder 20 is opened.

Then, the concrete mortar is sucked through the suction operation in the one side discharge cylinder (20) and discharged from the other side discharge cylinder (20), so that the concrete mortar is transported to the transfer pipe (110).

That is, according to the conventional concrete pump 100, the discharge cylinders 20 alternately perform the discharge operation and the suction operation to perform the two-stroke movement of the suction stroke and the discharge stroke, and at the same time, the switching valve 40 swings, The concrete mortar in the hopper 10 is transferred through the transfer pipe 12 by connecting the cylinder 20 and the transfer pipe 110 alternately.

Since the concrete pump 100 performs the stroke in which both the discharge cylinders 20 are opposite to each other, the conveyance of the concrete mortar is stopped during the swing operation of the switching valve 30 And a conveying boom (not shown) in which the conveying pipe 110 is long attached due to the ripple phenomenon is irregularly shaken.

The phenomenon that the conveying boom is shaken due to the pulsation phenomenon becomes worse as the conveying boom becomes longer. Therefore, the stability of the conventional concrete type concrete pump 100 is low during the pouring operation of the concrete mortar and the durability of the conveying boom is also lowered. So that the efficiency of the pouring operation of the concrete mortar is lowered.

In order to solve these problems, Korean Patent Registration No. 10-0626805 (Piston concrete pump) has been developed.

As shown in FIG. 2, the piston concrete pump includes a hopper 10 having a transfer pipe 110 on one side thereof, a concrete mortar disposed on the other side of the hopper 10 and supplied to the hopper 10, And two drive cylinders 30 connected to the respective discharge cylinders 20 and having a front portion thereof rotatably connected to the transfer pipe 110 in the hopper 10, A shift valve 40 in which the two discharge cylinders 20 are alternately connected by swinging left and right with the main pipe section 41 as a rotation axis and a left and right shift cylinder 50 And a main pipe portion 41 of the switching valve 40 so as to suck a portion of the concrete mortar to be delivered to the main pipe portion 41 during the extrusion operation of the discharge cylinder 20, The concrete mortar is extruded into the main pipe portion 41 at the operation switching timing Discharge amount comprises a piston 61, the auxiliary cylinder 60 is provided to remove the pulsation caused by the pumping operation disconnection between the cylinder 20.

However, in the conventional piston concrete pump 100, the concrete mortar of the auxiliary cylinder 60 is not transferred to the conveyance pipe 110 when the switching valve 40 is moved, but is discharged to the side where the concrete mortar having a relatively low pressure is sucked There is a problem in that the actual pulsation is not removed by the cylinder 20 or the hopper 10 side.

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and more particularly, it is an object of the present invention to provide a concrete tank for a concrete pump which is provided with a pressure tank in a specific form, The new concrete mortar is always introduced, so that the existing concrete mortar remains and does not cure at all,

When the concrete mortar filled in the pressure tank is discharged to the discharge side end of the transfer pipe by the air pressure in the pressure tank, the air pressure generated from the air compressor constituting the air supply device is supplied to the pressure tank through the air booster and the check valve, The concrete mortar is lowered to reach the lowest end of the pressure tank so that the concrete mortar does not remain and is always discharged completely so that the concrete mortar can be conveniently used for a long time without breakdown. The present invention has been made in view of the above problems.

In order to accomplish the above object, the present invention provides a device for preventing pulsation of a concrete mortar construction apparatus, comprising a pair of cylinder inner pistons reciprocally operated alternately to suck and discharge a concrete mortar, The concrete mortar is connected to the concrete pump and the pressure tank is installed perpendicular to the conveying pipe to which the concrete mortar is forcibly transferred,

The feed side end portion of the conveyance pipe is bent upward and connected to the upper portion of the pressure tank,

Wherein the discharge side end portion of the conveyance pipe is connected to the lower portion of the pressure tank so that the concrete mortar is conveyed through the lower side discharge side end portion through the upper side supply side end portion,

The time required for the pumping (discharging) operation of the concrete pump to be temporarily stopped, that is, the time when the switching valve is moved to the other cylinder where the discharge of the concrete mortar installed in the one cylinder is completed and the concrete suction is completed, An air supply device having an air compressor which supplies air pressure through an air booster and a check valve when the concrete mortar is lowered due to the air pressure in the pressure tank caused by pressure feeding to lower the residual concrete mortar in the pressure tank to the lowermost end of the pressure tank As shown in FIG.

The apparatus for preventing pulsation of a concrete mortar construction apparatus according to the present invention comprises:

The concrete mortar is supplied from the upper side through the supply side end of the transfer pipe into the pressure tank and is discharged downward through the discharge side end of the transfer pipe so that the new concrete mortar is always inserted into the pressure tank, There is no curing phenomenon at all.

Meanwhile, in order to transfer the concrete mortar through the cylinder on the other side of the concrete pump, the time during which the switching valve is operated, that is, the pumping of the concrete pump is stopped and the pressure is released to the conveying pipe of the concrete pump, The air pressure generated in the air compressor constituting the air supply device is supplied to the pressure tank through the air booster and the check valve to always maintain a constant pressure when discharging the concrete mortar filled in the pressure tank to the discharge side end of the conveyance pipe At the same time, the level of the concrete mortar is lowered to reach the lowermost part of the pressure tank, so that the concrete mortar is not left but always discharged completely.

Therefore, when the concrete pump equipped with the pulsation prevention device of the present invention is used, new concrete mortar is always supplied into the pressure tank, and residual concrete mortar charged in the pressure tank can be completely discharged, Concrete pump and pulsation device are completely prevented from breakage, so it can be used conveniently without any trouble for a long time.

FIGS. 1 and 2 are views showing a concrete configuration of a conventional concrete mortar construction equipment. FIG.
3 is a structural view of a concrete pump in which a pulsation prevention device according to the present invention is installed.
4 is an enlarged view of a main part of a pulsation preventing device according to the present invention.
5 to 6 are operational states of the pulsation prevention device of the present invention,
FIG. 5 is a view showing a state in which a concrete mortar is conveyed to a conveyance pipe by operating a concrete pump. FIG.
6 is a view showing a state in which the concrete pump is pumped by the movement of the switching valve and air pressure is supplied into the pressure tank using the air supply device when the concrete mortar is discharged by air pressure in the air tank by releasing pressure to the conveyance pipe, . Fig.

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings. It is to be understood that the exemplary embodiments described below are provided for illustrative purposes only, and that the present invention may be embodied with various modifications and alterations. In the following description, well-known functions or constructions are not described in detail to avoid obscuring the subject matter of the present invention. In addition, the attached drawings are not drawn to scale in order to facilitate understanding of the invention, but the dimensions of some of the components may be exaggerated.

FIG. 3 is a structural view of a concrete pump in which a pulsation prevention device according to the present invention is installed, FIG. 4 is an enlarged view of a main portion of the pulsation prevention device of the present invention,

5 to 6 are operational states of the pulsation prevention device of the present invention,

FIG. 5 is a view showing a state in which concrete mortar is transferred to a conveyance pipe by operating a concrete pump,

6 is a view showing a state in which the concrete pump is pumped by the movement of the switching valve and air pressure is supplied into the pressure tank using the air supply device when the concrete mortar is discharged by air pressure in the air tank by releasing pressure to the conveyance pipe, As shown in Fig.

As shown in the accompanying drawings, the apparatus for preventing pulsation of a concrete mortar according to the present invention includes a pair of cylinders (20) and inner pistons (25) alternately reciprocally operated to suck and discharge a concrete mortar to force the concrete mortar A pressure tank 200 is vertically installed in a conveying pipe 110 connected to the concrete pump 100 for conveying the concrete mortar.

That is, the supply side end portion 110a of the transfer pipe 110 is bent upward and connected to the upper portion of the pressure tank 200,

The discharge side end portion 110b of the transfer pipe 110 is connected to the lower portion of the pressure tank 200.

Therefore, the concrete mortar 1 is configured to be conveyed through the lower supply side end portion 110b through the upper supply side end portion 110a.

Meanwhile, according to the present invention, when the discharge of the concrete mortar filled in the one cylinder 20 is completed in connection with the pressure tank 200, the switching valve 40 is moved to the other cylinder 20 in which the suction of the concrete mortar is completed. When the concrete mortar 1 is lowered by the air pressure in the pressure tank 200 generated when the concrete mortar is pushed during the pause (pumping) operation of the concrete pump 100, An air supply device 300 having an air compressor 310 for supplying air pressure through a valve 330 to lower the concrete mortar 1 charged in the pressure tank 200 to the lowermost end of the pressure tank 200 ).

The operation of the apparatus for preventing pulsation of the concrete mortar according to the present invention will now be described.

5, when the concrete mortar is pushed by the conveying pipe 110 in the cylinder 20 provided at the concrete pump 100 as the concrete mortar construction equipment, the concrete mortar 1 is pushed upward by the feed side Is introduced into the pressure tank 200 through the end portion 110a and is conveyed through the lower discharge side end portion 110b.

Then, the concrete mortar 1 is overloaded, and the pressure of the air is increased while the pressure is absorbed in the upper part of the pressure tank 200.

At this time, when the air pressure generated in the pressure tank 200 becomes higher than the set pressure, the check valve 330 blocks the pipe to prevent the pressure from escaping.

In this state, the time when the switching valve 40 is operated to transfer the concrete mortar through the cylinder 20 on the other side of the concrete pump 100, that is, the time when the pumping of the concrete pump 100 is stopped The pressure is released to the conveying pipe 110 of the concrete pump 100.

6, the concrete mortar 1 charged in the pressure tank 200 is discharged to the discharge side end portion 110b of the transfer pipe 110 by the increased air pressure in the pressure tank 200 Pulse generation is blocked.

However, as the remaining concrete mortar 1 charged in the pressure tank 200 escapes, the air in the pressure tank 200 also gradually escapes. As a result, the pneumatic pressure is rather generated over time, The water level gradually increases, so that the pressure tank 200 itself can not prevent pulsation.

In the present invention, however, when the remaining concrete mortar is discharged, the air pressure generated in the air compressor 310 constituting the air supply device 300 is supplied to the pressure tank 200 through the air booster 320 and the check valve 330, The concrete mortar 1 is always lowered to the lowermost end of the pressure tank 200 so that the concrete mortar 1 is not completely left but is always completely discharged.

Accordingly, the present invention completely solves the existing problems that the residual concrete mortar 1 remains on the lower part of the inside of the pressure tank 200 without hardening, and thus hardened, thereby preventing the pulsation prevention device from operating.

100: Concrete pump 110: Transfer pipe
110a: supply side end portion 110b: discharge side end portion
200: pressure tank 300: air supply device
310: Air Compressor 320: Air Booster
330: Check valve

Claims (1)

A conveyor pipe connected to a concrete pump 100 for forcedly conveying the concrete mortar by sucking and discharging the concrete mortar by alternately reciprocating the inner piston 25 of the pair of the cylinders 20, 110, a pressure tank (200)
The supply side end portion 110a of the transfer pipe 110 is bent upward and connected to the upper portion of the pressure tank 200,
The discharge side end portion 110b of the transfer pipe 110 is connected to the lower portion of the pressure tank 200 so that the concrete mortar 1 is connected to the lower side discharge side end portion 110b through the upper supply side end portion 110a, And then,
The time when the switching valve 40 is moved to the other cylinder 20 installed in connection with the pressure tank 200 and the discharge of the concrete mortar filled in the one cylinder 20 is completed and the concrete mortar suction is completed, When the concrete mortar is lowered due to the air pressure in the pressure tank 200 generated when the concrete mortar is pushed for a while, the air pressure is supplied through the air booster 320 and the check valve 330 And an air compressor (310) having an air compressor (310) for lowering the remaining concrete mortar (1) in the pressure tank (200) to the lowermost end of the pressure tank (200) Pulsating device for mortar construction equipment.

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