KR20100086732A - Shifting device for concrete using high pressure air tank - Google Patents

Abstract

PURPOSE: A concrete conveyor using a high-pressure air tank is provided to easily convey concrete in a high-rise building and to reduce maintenance and construction costs. CONSTITUTION: A concrete conveyor using a high-pressure air tank comprises an air compressor(10), first and second air tanks(20,20'), a concrete storage tank(30), a concrete supply pipeline(40), multiple transfer pipelines(50), mufflers(60), cameras(70), and a cleaner(80). The air compressor generates pressure air. The first and second air tanks alternatively supply concrete. The concrete storage tank stores concrete. The concrete supply pipelines are connected to the bottom of the first and second air tanks. The transfer pipelines are connected to the concrete supply pipeline and have a valve(V5). The mufflers are installed in one side of the top of the first and second air tanks. The cameras are installed in the other side of the top of the first and second air tanks. The cleaner is moved in the concrete supply pipeline and the transfer pipelines.

Description

Shipping device for concrete using high pressure air tank

The present invention relates to a concrete conveying apparatus, and more particularly, to a concrete conveying apparatus using a high pressure air tank for transporting concrete to a high-rise building or a high construction site using a high pressure air tank.

Recently, as the height of the building is gradually increased, many buildings with more than 100 floors are being built. Such high-rise buildings are booming not only in developed countries but also in the Middle East and South America such as Dubai. .

In order to construct such a high-rise building, a device capable of transporting concrete to a high floor is essential, and the use of a pump as a power source can be considered. However, in the case of a high-rise pump, a general pump cannot be used, so a special ultra-high pressure concrete pump must be used.

However, these ultrahigh pressure concrete pumps cause many problems.

First, the length of the pipe for transporting concrete should be more than a few hundred meters, and the conveying pressure must be very large in order to transport through this pipe. Instead of transferring a few hundred meters at a time, it is possible to think of how to transfer in several steps, but this increases the installation cost and the number of workers in each step increases the construction cost.

Second, it is difficult to secure the desired concrete performance due to the change in the properties of concrete in the middle of conveying pipes, which is disadvantageous in terms of quality control of buildings. This problem is a problem that occurs whether you transfer concrete at once or transfer it in several stages.

In order to solve this problem, in order to obtain the desired properties of concrete, there is a method of designing the quality of concrete, etc. in consideration of the quality change during transport before being transported through the pipe, but the outdoor conditions change frequently, and the design is complicated. This is not a desirable solution.

Third, the very long transfer pipe is exposed to the external environment, which causes a problem that the properties of the concrete change by the external temperature. In other words, if the long distance to move through the pipe, there is a risk of freezing in the winter, the risk of fraud in the summer.

Fourth, when attempting to transport concrete to the top of the super high-rise by using an ultra-high pressure pump, because the pressure of the pressure is very high, there is a risk of bursting by the pressure of the pipe, especially in the connection portion. In case of accident, concrete is sprayed around, so the human and material damage is serious.

Fifth, after all the concrete is transported, the concrete inside the pipe must be removed, but in the case of a long transport pipe is a very difficult problem. That is, if the concrete remaining inside the pipe is partially hardened, the blockage of the pipe occurs, so it must be cleaned. However, not only the amount of concrete remaining in very long pipes is very large, but even if the transport pipes are disassembled and cleaned, this is very cumbersome and expensive due to the increase in the number of workers.

Sixth, it is very expensive to design and manufacture an ultra-high pressure pump having a very large pressure feeding pressure, which may be a factor in delaying the construction process.

Many of these problems are in light of the current situation, which is gradually being built into high-rises, and the problem is very serious, and the solution is urgently needed.

The present invention has been invented in view of the above-described circumstances, and its object is to carry concrete in a high-rise or high-rise building, and to use a high-pressure air tank that can be formed into a structure that is easy to manage to reduce construction and maintenance costs. To provide a concrete conveying device.

Another object of the present invention to provide a concrete conveying apparatus using a high-pressure air tank that can be controlled to the maximum change in the properties of the concrete during conveying concrete to improve the quality and reliability of the building.

Still another object of the present invention is to provide a concrete conveying apparatus using a high pressure air tank which is easy to adjust the air pressure supplied and reduces the risk of freezing or crushing concrete by conditions such as temperature.

Still another object of the present invention is to provide a concrete conveying apparatus using a high pressure air tank which does not have a risk of an accident in which concrete is scattered around by breakage of a conveying pipe or the like.

Still another object of the present invention is to provide a concrete conveying apparatus using a high pressure air tank that can be easily cleaned inside the conveying pipe to maintain the cleanliness of the site without fear of blockage inside the conveying pipe.

Another object of the present invention is to provide a concrete conveying apparatus using a high-pressure air tank without the problem of concrete treatment in the pipe to be transported after the required amount of concrete pressure.

Concrete conveying apparatus using the present invention high pressure air tank for achieving the above object is an air compressor (10) for generating and supplying a pressurized air; First and second air tanks 20 and 20 'connected to the air compressor 10 through a pipe 21, a stop valve V1, and a pressure control valve V2 to alternately supply concrete; A concrete storage tank 30 connected to a lower side of the first and second air tanks 20 and 20 'through a pipe 31 and a valve V3 to store concrete; A concrete supply pipe 40 connected to a lower portion of each of the first and second air tanks 20 and 20 'through a valve V4; A plurality of transfer pipes 50 connected to the concrete supply pipes 40 and having a valve V5 for transferring concrete to a concrete placing place; A silencer (60) installed on one side of each of the first and second air tanks (20, 20 ') through a valve (V6); A camera 70 formed at the upper other side; The concrete supply pipe 40 and the transport pipe 50 is characterized by consisting of a cleaner 80 to move in.

The present invention is easy to transport concrete in a high-rise or high-rise building, it is formed of a structure that is easy to manage can reduce the construction cost and maintenance maintenance cost, the maximum quality of the building by refraining the change of the properties of the concrete during the concrete transport It can improve the reliability and improve the pressure of the supply air, reduce the risk of freezing or fracturing due to conditions such as temperature and the outside air, and reduce the risk of concrete scattering around due to breakage of the transfer pipe. Not only there is no risk, but the inside of the transfer pipe is easy to clean, so it is easy to maintain the cleanliness of the site and there is no fear of blockage inside the transfer pipe.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the concrete conveying apparatus using the present invention high pressure air tank.

1 is a configuration diagram of a concrete conveying apparatus using the high pressure air tank of the present invention, the concrete conveying apparatus using the high pressure air tank of the present invention is an air compressor 10 for generating and supplying pressurized air; First and second air tanks 20 and 20 'connected to the air compressor 10 through a pipe 21, a stop valve V1, and a pressure control valve V2 to alternately supply concrete; A concrete storage tank 30 connected to a lower side of the first and second air tanks 20 and 20 'through a pipe 30 and a valve V3 to store concrete; A concrete supply pipe 40 connected to a lower portion of each of the first and second air tanks 20 and 20 'through a valve V4; A transfer pipe 50 connected to the concrete supply pipe 40 and having a valve V5 for transferring concrete to a concrete placing site; A silencer (60) installed on one side of each of the first and second air tanks (20, 20 ') through a valve (V6); A camera 70 formed at the upper other side; The concrete supply pipe 40 and the plurality of transport pipe 50 is composed of a cleaner 80 to move.

The air compressor 10 generates high-pressure air and supplies the air to the first and second air tanks 20 and 20 ', and the generated air is generated by the first air tank according to the opening and closing of the stop valve V1. 20 or supplied to the second air tank 20 ', the pressure of the supplied air is controlled by the pressure regulating valve (V2).

The first and second air tanks 20 and 20 'alternately operate with each other, and the inside of the first and second air tanks 20 and 20' are coated with one of high-build epoxy, teflon, or nignanbite, and the pipe 30 from the concrete storage tank 30 When concrete is supplied through the valve and V3, and the amount of concrete in the first and second air tanks 20 and 20 'is 10% of the concrete amount in the original state, it is preferable to exchange the motions with each other. .

The concrete storage tank 30 is a tank in which the concrete to be poured is stored, the concrete stored in the concrete storage tank 30 is the first and second air tanks 20, through the pipe 30 in accordance with the opening and closing of the valve (V3) 20 ').

The concrete supply pipe 40 is to transfer the concrete in the first, second air tank (20, 20 ') to the concrete pouring place through the transfer pipe 50, one end is through the valve (V4) It is connected to the first and second air tanks 20 and 20 ', and the other end is connected to the plurality of transfer pipes 50 through the valve V5.

In addition, the silencer 60 is installed on the upper side of each of the first and second air tanks 20 and 20 'through a valve V6 to reduce noise generated during the concrete conveying operation of the apparatus.

The camera 70 is installed on one side of each of the first and second air tanks 20 and 20 'to observe the inside of the first and second air tanks 20 and 20'.

In addition, the cleaner 80 moves the concrete supply pipe 40 and the transfer pipe 50 to clean and remove residual concrete in the pipe. The cleaner 80 is placed in a pipe and piped by high pressure air by the operation of the air compressor 10. The inside is moved to clean the inside of the pipe.

Next will be described the action of the concrete conveying apparatus using the present invention high pressure air tank configured as described above.

First, in the concrete conveying apparatus using the high pressure air tank of the present invention, if you want to use the concrete stored in the first air tank 20, the second air tank 20 'side stop valve (V1) and the valve (V3) is closed The first air tank 20 side stop valve V1 and the valve V3 are opened to operate the air compressor 10.

Then, the concrete stored in the concrete storage tank 30 is transferred to the first air tank 20 via the pipe 31, the concrete transferred to the first air tank 20 is generated in the air compressor 10 When the high pressure air is introduced into the first air tank 20, and when the valve V4 under the first air tank 20 is opened, the concrete in the first air tank 20 is connected to the concrete supply pipe 40. Through the transfer pipe 50 that opened the valve (V5) through is transferred to the place to place the concrete.

When the concrete in the first air tank 20 is transferred to the concrete placing site, the concrete stored in the concrete storage tank 30 is transferred in the second air tank 20 ', and the amount of concrete in the first air tank 20 When the tank volume is reduced to 1/10 of the tank volume, the first air tank 20 side stop valve V1 and the valve V3 are closed, and the second air tank 20 'side stop valve V1 and the valve V3 are closed. By opening the first and second air tanks 20 and 20 'alternately operate with each other.

When the concrete transfer operation, the operator checks the amount or state of concrete in the first and second air tanks 20 and 20 'through the camera 70, and to reduce the noise of the device, the silencer 60 It works.

As described above, when the concrete is transferred to the concrete conveying apparatus using the high pressure air tank of the present invention, and the concrete supply pipe 40 and the conveying piping 50 of the concrete conveying apparatus are to be cleaned, the cleaner (80) is inserted into an unshown insertion hole installed in the piping. ), The air compressor 10 is operated to circulate the cleaner 80 inside the pipe to clean the concrete supply pipe 40 and the transfer pipe 50.

While the present invention has been described as a preferred embodiment, the present invention is not limited thereto, and various modifications can be made without departing from the gist of the invention.

1 is a block diagram of a concrete conveying apparatus using the present invention high pressure air tank.

Description of the Related Art

10: air compressor 20, 20 ': 1st, 2nd air tank

21: piping, 30: concrete storage tank

31: piping 40: concrete supply piping

50: transfer piping 60: silencer

70: camera 80: cleaner

V1: Stop valve V2: Pressure regulating valve

V3 to V6: Valve

Claims (3)

An air compressor 10 generating and supplying pressurized air; First and second air tanks 20 and 20 'connected to the air compressor 10 through a pipe 21, a stop valve V1, and a pressure control valve V2 to alternately supply concrete; A concrete storage tank 30 connected to a lower side of the first and second air tanks 20 and 20 'through a pipe 31 and a valve V3 to store concrete; A concrete supply pipe 40 connected to a lower portion of each of the first and second air tanks 20 and 20 'through a valve V4; A plurality of transfer pipes 50 connected to the concrete supply pipes 40 and having a valve V5 for transferring concrete to a concrete placing place; A silencer (60) installed on one side of each of the first and second air tanks (20, 20 ') through a valve (V6); A camera 70 formed at the other side; Concrete delivery device using a high pressure air tank, characterized in that consisting of a cleaner (80) to move the concrete supply pipe 40 and the transfer pipe (50). The high pressure air tank of claim 1, wherein the first and second air tanks 20 and 20 'are coated with any one of high-build epoxy, teflon, and nignanbite, and operate alternately with each other. Concrete transfer device using. According to claim 1, wherein the camera 70 is installed to observe the inside of the first and second air tank (20, 20 ') on the upper side of each of the first, second air tank (20, 20'). Concrete conveying apparatus using a high pressure air tank, characterized in that.

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