KR101028831B1 - admixture input apparatus - Google Patents

Abstract

The present invention relates to a concrete feeding device for maintaining the quality of the concrete in the super-high pouring layer.

The main features of the present invention,

A pair of first and second pressure cylinders are provided to communicate with the hopper of the pump car, wherein one of the pressure cylinders sucks concrete from the hopper, and the other pressure cylinder has a concrete pressure pump that alternately repeats the operation of pumping. And a admixture inlet valve, which is opened and closed by an internal pressure of the first and second pressure cylinders, in an inlet-side pressure pipe of the first and second pressure cylinders, to the concrete to be pumped from the first and second pressure cylinders. It is the admixture feeding device for concrete conveying that minimizes the change of physical property of concrete by mixing admixture.

Concrete, Pressing, Admixture, Input

Description

Admixture input apparatus for concrete pumping

The present invention relates to a admixture injection device for the concrete pressing.

More specifically, the present invention relates to a concrete feeding device for maintaining the quality of concrete in the same high pouring layer.

1 schematically illustrates a process of conveying concrete to a high-rise building.

As shown in the drawings, the concrete transported by the ready-mixed concrete truck 1 is introduced into the hopper 2a of the pump car 2, and the concrete introduced into the hopper 2a is a high pressure pump (not shown) provided in the pump car 2. By the pumping force of) is pumped to the high place to be placed through the pressure feed pipe (3). Here, reference numeral 4 is a shut-off valve used to recover the residual concrete in the pressure feed pipe (3).

In case of construction of high-rise buildings that are being built in recent years, when concrete is directly pushed up to the high-rise by the above-mentioned concrete pumping device, concrete of the upper discharge part causes loss of fluidity and lack of filling due to severe property change and material separation. Or worse, there was a difficulty in quality control of the building.

As a solution according to this, there is a method of first feeding the induction material into the pressure pipe 3 to coat the inside of the pressure pipe 3, and then press the concrete. Partially coated, there was a problem that the clogging phenomenon occurs because the concrete partially stagnated on the upper side is not coated.

Accordingly, the present invention is to solve the conventional problems as described above, an object of the present invention is to provide a concrete pressure feeding admixture input device that can maintain the quality of the concrete even in the super-high pouring layer.

The present invention for achieving the above object,

A pair of first and second concrete cylinders are provided in communication with the hopper of the pump car, wherein one concrete cylinder sucks concrete from the hopper, and the other concrete cylinder is a concrete pumping device that alternately repeats the operation of feeding the concrete. And a admixture inlet valve which is opened and closed by the internal pressure of the first and second concrete cylinders in the inlet-side delivery pipe of the first and second concrete cylinders, thereby admixing the admixture to the concrete being pushed out from the first and second concrete cylinders. It is a concrete conveying device that can be mixed to minimize the change of properties of concrete.

In addition, the present invention is a concrete pumping device is provided with a stirring portion for the rapid mixing of the admixture and concrete in the delivery pipe.

In addition, the present invention is a concrete conveying apparatus consisting of a first helix groove in one direction and a second helix groove in the opposite direction formed in the rear of the first helix groove.

In addition, the present invention is a concrete pressure feeding device further comprising a straight section provided between the first spiral groove and the second spiral groove.

The present invention is a simple device to automatically add the admixture to the concrete conveyed from the hopper as a simple device to maintain the cohesiveness of the concrete when the concrete is transported to the (super) high layer and to increase the fluidity to prevent the material separation phenomenon It is possible to obtain the effect of preventing the property change in advance.

Advantages and features of the present invention, and methods of achieving them will become more apparent with reference to the embodiments described below in conjunction with the accompanying drawings.

2 and 3 are diagrams showing the installation state of the admixture for adding concrete admixtures according to the present invention.

As shown in the accompanying drawings, the present invention provides a admixture injector 10 in the concrete pressure pipe, to change the physical properties of the concrete, that is, material separation that can occur in the process of conveying concrete to the (super) high-rise This is to be prevented.

Since the admixture input device 10 is associated with the concrete pressure feeding device, the configuration of the concrete pressure feeding device will be described first.

1 to 3, the concrete pumping apparatus is provided with a pump car 2 having a hopper 2a for storing concrete carried by the ready-mixed concrete truck 1. In addition, the concrete pumping device is a first, second pressure cylinder in communication with the hopper (2a) for feeding the concrete stored in the hopper (2a) to the desired position through the pressure feed pipe (3) to one side of the hopper (2a) (5,6) is provided.

One of the first and second pressure-feeding cylinders 5 and 6 serves to suck concrete in the hopper 2a by retracting the pistons 5a and 6a, and the other cylinder moves forward of the piston. The operation of pumping the concrete sucked by the operation into the pressure feed pipe 3 alternates with each other.

On the other hand, the admixture injector 10 is opened and closed by the internal pressure of the first and second pressure cylinders 5 and 6 to the inlet-side pressure tube 3 of the first and second pressure cylinders 5 and 6. It has a admixture inlet valve (11).

The admixture inlet valve 11 is opened by the internal pressure of the concrete cylinder at the time of inhaling the concrete from the hopper 2a so that the admixture is introduced into the feed pipe 3 and conversely pumps the sucked concrete. In the case of the check valve is applied that is closed by the internal pressure of the concrete cylinder is operated to block the input of the admixture.

This will be described in more detail as follows.

The admixture inlet valve 11 is connected to the admixture supply tank via the admixture supply tube 12. Therefore, when the admixture inlet valve 11 is opened, the admixture in the admixture supply tank 13 is introduced into the feed pipe 3 via the admixture supply tube 12, and when the admixture inlet valve 11 is closed, the admixture of admixture is stopped. It is blocked.

In this case, the admixture may be an AE agent (Air entrained agent) or pozzolan, and when the admixture is injected into the concrete, it is effective to prevent the material separation phenomenon by increasing the cohesiveness of the concrete, and also increase the fluidity to increase the unit quantity. It can be reduced to increase the separation resistance.

In general, when the concrete is transported to the (super) high layer, the aggregate absorbs the water in the concrete under pressure and then discharges the water absorbed when it is placed under atmospheric pressure after the transport, which causes problems such as slump drop and strength decrease. If the above admixture is added, the separation of water can be significantly reduced, and as a result, it is possible to prevent the change of physical properties of concrete.

The admixture inlet valve 11 is basically installed at the inlet side of the first and second pressure-feeding cylinders 5 and 6, but may be installed in various places in consideration of the pressure-feeding length of concrete.

On the other hand, in the pressure pipe (3), more precisely in the inlet-side pressure pipes of the first and second pressure cylinders (5,6) are provided with a stirring section (3) for good mixing of admixture and concrete It is preferable.

The stirring unit 30 has a first spiral groove 31 in one direction formed on the inner circumferential surface of the pressure feed tube 3 and a second spiral groove 32 formed in a reverse direction to the rear of the first spiral groove 31. Is done. The stirring part 30 is rotated in one direction while the admixture introduced into the pressure feed pipe (3) through the admixture inlet valve 11 passes through the first helix groove 31, the second helix groove 32 By rotating in the opposite direction while passing through the stirring force is generated to increase the mixing force with the concrete.

Here, if the first spiral groove 31 and the second spiral groove 32 are connected, the second spiral groove 32 is left as it is by the inertial force of the admixture rotating in one direction by the first spiral groove 31. Since passing through may cause a loss of function of the second spiral groove 31, the straight section 33 for removing the inertial force of the admixture between the first spiral groove 31 and the second spiral groove 32. It is preferable to further).

The stirring section 30 composed of the first spiral groove 31, the straight section 33, and the second spiral groove 32 may be installed at various locations in accordance with the installation location of the admixture inlet valve 11. .

The embodiments of the present invention described above are disclosed for purposes of illustration, and those skilled in the art having various ordinary knowledge of the present invention may make various modifications, changes, and additions within the spirit and scope of the present invention. Additions should be considered to be within the scope of the following claims.

1 is a view schematically showing a process of conveying concrete to a high-rise building

2 is a main configuration of the admixture injector according to the present invention 1

3 is a main configuration of the admixture injector according to the present invention 2

4 is a detailed view of portion A of FIG.

<Description of the symbols for the main parts of the drawings>

10: admixture inlet device 11: admixture inlet valve

12: admixture supply tube 13: admixture supply tank

30: stirring section 31: the first spiral groove

32: 2nd spiral groove 33: Straight section

Claims (4)

A pair of first and second pressure cylinders are provided to communicate with the hopper of the pump car, wherein one of the pressure cylinders sucks concrete from the hopper, and the other pressure cylinder has a concrete pressure pump that alternately repeats the operation of pumping. Include, Admixtures are mixed with concrete adsorbed from the 1st and 2nd pressure cylinders by installing the admixture inlet valve which opens and closes by the internal pressure of the 1st, 2nd pressure cylinders in the inlet side pressure pipe of the 1st, 2nd pressure cylinders. Admixture for concrete pumping to minimize the change of properties of concrete. The method of claim 1, Admixture for the concrete pumping admixture configured with a stirring portion for the rapid mixing of the admixture and concrete in the pressure pipe. The method of claim 2, The stirring unit, the admixture for admixture for the concrete pressurization composed of a first helix groove in one direction, a second helix groove having a spiral groove in the opposite direction to the first helix groove in the rear of the first helix groove. The method of claim 3, Concrete admixture injector for the concrete pump further comprising a straight section provided between the first spiral groove and the second spiral groove.

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