KR102309591B1 - Building finishing material spraying device - Google Patents

Abstract

The present invention relates to an ejection apparatus for a building finishing material and, more specifically, to an ejection apparatus that is configured to enable a mixture and a glass wool supplied through different supply pipes to be mixed in an ejection pipe so as to be ejected and attached to an exterior wall, thereby not only shortening the time required for building finishing work, but also suppressing the scattering of the glass wool.

Description

Building finishing material spraying device

The present invention relates to a finishing material spraying device for the construction of a finishing material to be installed on top of the existing exterior wall insulation system constructed by the building exterior wall insulation method (aka dry bit) without removal of the existing exterior wall insulation system, and more specifically, a mixture and glass wool It is supplied through different supply pipes and the mixture and glass wool are mixed through one injection pipe and attached to the exterior wall according to the spraying, so that it is possible to shorten the working time according to the building finishing work, as well as the scattering of the glass wool It relates to a building finishing material spraying device that can suppress the

Currently, various waterproofing materials are used in buildings.

Glass fiber, which is commonly used as a building material, is a mineral fiber in the form of a fiber.

However, there is a disadvantage that it is expensive to use as a single building material.

In addition, the durability of the waterproofing material is much lower compared to the lifespan of the building, and waterproofing construction is required every year.

Although we are aware of the problems of existing waterproofing materials such as cracks, leakage and lifting caused by structural cracks, as an alternative, special materials or construction methods are not concretely realized.

In addition, in the case of the conventional injection device, the length of the nozzle is formed longer than the length of the body. As the length of the nozzle increases, the straightness is high, but there is a problem in that clogging occurs when a material with high viscosity is used.

In order to reinforce the above, a mortar spraying device and a mortar construction method using the mortar spraying device have been proposed.

The above technology relates to a mortar spraying device and a construction method having an improved structure so that the mortar can be smoothly sprayed and constructed at a desired point even when a large amount of short fibers for reinforcement is mixed in the mortar.

The above technical configuration includes a body having a first hollow into which mortar is introduced, a nozzle having one end coupled to the body, and a nozzle whose inner diameter decreases as it goes from one side to the other, and a high-pressure gas is introduced between the inside of the body and the outer circumferential surface of the nozzle. A gas chamber is provided.

The above technique has the advantage of high straightness due to the high pressure due to the short movement length until the fiber mortar containing a large amount of short fibers is sprayed. A problem arises.

In addition, the inlet through which the high-pressure gas flows is small, so that when only the fiber mortar is used, the inlet is clogged.

In consideration of this point, a glass fiber reinforced polyurea spraying device and spraying method have been proposed in Patent Application No. 10-2011-0095943.

Looking at the conventional glass fiber-reinforced polyurea injection device, in the injection gun for spraying polyurea, a venturi is provided inside the venturi socket, the injection socket is coupled to the front of the venturi socket, and the injection hole is in the injection socket A body portion provided with a crushing unit coupled to a flange formed at the lower end of the cutting blade case to integrate with a flange provided on the upper end of the body portion, and having an inlet on one side of the cutting blade case, and inside the body portion A first powder tube provided on one side of the body to inject powder into the provided air nozzle and a second powder tube provided on the other side to simultaneously inject powder into the body with the first powder tube. .

However, in the conventional general glass fiber reinforced polyurea spraying device configured as described above, a device for cutting glass fibers is provided in a spray gun for spraying polyurea, and glass fibers are impregnated and sprayed into the sprayed polyurea. Pinholes and bubbles can be prevented, and tensile strength is maximized by pulverizing glass fibers and impregnating them with polyurea. However, because polyurea is too expensive, it is practically impossible to use it for exterior finishing materials of buildings.

Patent Application No. 10-2011-0095943, filing date; September 22, 2011

Accordingly, the present invention has been devised to solve the above problems, and the mixture and the glass wool are supplied through different supply pipes, and the mixture and the glass wool are mixed through one injection pipe so that they can be attached to the outer wall according to the spraying. By composing, it is possible not only to shorten the working time according to the building finishing work, but also to suppress the scattering of glass wool, as well as to prevent glass wool, which is weak against moisture, from easily falling from the exterior wall due to the non-combustible foam insulation material. It is an object to provide an injection device.

Other objects of the present invention will become apparent as the technology progresses.

The present invention building finishing material spraying device for achieving the above object is a glass wool supply pipe 110 having one end connected through the glass wool supply unit and the guide pipe 10 to supply the glass wool guided through the guide pipe 10 . ) and the other end of the glass wool supply pipe 110, one end is disassembled and assembled through a fastening member 115, and on the outer circumferential surface, a connecting part 121 connected to the connecting pipe 20 having one end connected to the mixture supply part is formed. A mixture supply pipe 120 provided to supply and mix with the glass wool being transported, and one end to the other end of the mixture supply pipe 120 is disassembled and assembled through a connecting member 125 so that the glass wool supply pipe 110 The mixing pipe 130 provided so that the glass wool supplied through the mixture and the mixture supplied through the mixture supply pipe 130 can be mixed to form a finishing material, and one end is fixedly connected to the other end of the mixing pipe 130, It includes a spray pipe 140 provided to spray the finishing material made through the mixing pipe 130 on the exterior of the building, and on the outer circumferential surface of the mixing pipe 130, the mixture supplied from the mixture supply unit is supplied to the mixing pipe ( 130) The mixture supplying means 150 is further provided so as to increase the adhesion of the finishing material by supplying it inside, and on the inner peripheral surface of the glass wool supply pipe 110, the grout supplied through the guide pipe 10 is released. A spiral portion 111 is further formed and provided so as to be transferred to the mixture supply pipe 120 side, and the mixture supply adding means 150 is formed in a plurality of mixtures at regular intervals in the longitudinal direction on the outer circumferential surface of the mixing pipe 130 . The additional connection hole 151 and the mixture additional supply hole 152a at regular intervals on the outer peripheral surface to communicate with the mixture additional connection hole 151 by being fixed in the longitudinal direction to the outer peripheral surface of the mixing pipe 130 is provided with a plurality of By being formed and provided on the outer circumferential surface of the mixture additional injection body 152 and the mixture additional injection body 152, one end is the mixture additional injection body. It communicates with the inner side of (152), and the other end is connected to the mixture additional supply pipe 30 and is composed of a mixture additional supply connection part 153 provided to additionally supply the mixture into the mixture additional injection body 152. do.

As described above, according to the building finishing material spraying device according to the present invention, the mixture and the glass wool are supplied through different supply pipes, and the mixture and the glass wool are mixed through one injection pipe so that they can be attached to the exterior wall according to the spraying. By doing so, it is possible not only to shorten the working time according to the building finishing work, but also to suppress the scattering of glass wool, thereby protecting workers and minimizing the occurrence of civil complaints.

1 is a combined cross-sectional view showing a building finishing material spraying device according to the present invention.
Figure 2 is a product photograph showing a building finishing material spraying device according to the present invention.
3 is a view showing the use state of the building finishing material spraying device according to the present invention.

Hereinafter, an embodiment of the building finishing material spraying device according to the present invention will be described in detail.

First, it should be noted that in the drawings, the same components or parts are denoted by the same reference numerals as much as possible. In describing the present invention, detailed descriptions of related known functions or configurations are omitted so as not to obscure the gist of the present invention.

As shown, the building finishing material spraying device 100 according to the present invention is a glass wool supply pipe having one end connected through the glass wool supply unit and the guide pipe 10 to supply the glass wool guided through the guide pipe 10 as shown. (110) and the other end of the glass wool supply pipe 110, one end is disassembled and assembled through the fastening member 115, the outer peripheral surface is formed with a connection part 121 connected to the connection pipe 20, one end of which is connected to the mixture supply part The mixture supply pipe 120 provided so that it can be mixed with the glass wool being transported by supplying the mixture, and the other end of the mixture supply pipe 120 is disassembled and assembled through a connecting member 125 to connect the glass wool supply pipe ( The mixing pipe 130 provided so that the glass wool supplied through 110 and the mixture supplied through the mixture supply pipe 130 are mixed to form a finishing material, and one end is fixedly connected to the other end of the mixing pipe 130 and a spray pipe 140 provided so that the finishing material made through the mixing pipe 130 can be sprayed on the exterior of the building.

In addition, the mixture supply additional means 150 is further provided on the outer peripheral surface of the mixing pipe 130 to supply the mixture supplied from the mixture supply unit to the inside of the mixing pipe 130 to increase the adhesion of the finishing material.

In addition, the finishing material mixed in the mixing pipe 130 is configured to be mixed in a ratio of 10:1 to 1:10 by weight depending on when the glass wool and the mixture are for insulation purposes and where adhesion is more required.

Hereinafter, the building finishing material spraying device according to the present invention will be described in more detail with reference to the accompanying drawings 1 to 3 as follows.

First, the glass wool supply pipe 110 of the building finishing material spraying device according to the present invention has one end connected through the glass wool supply unit and the guide pipe 10, and the glass wool guided through the guide pipe 10 is provided so as to be able to supply it. do.

That is, the glass wool supply pipe 110 is formed as a hollow pipe having a circular cross section so that one end is fixedly connected to the guide pipe and can be supplied to the mixture supply pipe 120 side. By rotatably engaging the 115, a turning protrusion (reference numeral omitted) for fastening is formed so as to be disassembled and assembled with the mixture supply pipe 120 .

In addition, a spiral portion 111 is further formed on the inner circumferential surface of the glass wool supply pipe 110 to be transferred to the mixture supply pipe 120 side while the grurl supplied through the guide pipe 10 is released.

Therefore, since the glass wool supplied through the glass wool supply pipe 110 is fed while being bitten, it can be evenly mixed with the mixture in the mixture supply pipe 120 .

The mixture supply pipe 120 is disassembled and assembled at one end through a fastening member 115 at the other end of the glass wool supply pipe 110, and on the outer circumferential surface of the glass wool supply pipe 110, one end is connected to the connection pipe 20 connected to the mixture supply unit. 121) is formed so that the mixture can be supplied.

That is, the mixture supply pipe 120 is formed as a hollow pipe having a circular cross section, and one end of the glass wool supply pipe ( 110) so as to be fixedly connected to the fastening screw part and the fastening screw part on one side of the fastening screw part, so that the fastening stop protrusion is formed to protrude so as to stop the fastening member 115, and the other end is rotatable at one end of the mixing pipe 130 on the outer circumferential surface. A connecting stop protrusion is formed so as to stop the connecting member 125 on one side of the connecting screw part and the connecting screw part so that the mixing pipe 130 can be fixedly connected through the connecting member 125 installed in the middle. And, on the outer circumferential surface between the stopper for fastening and the stopper for connection, a connecting portion 121 connected to the connecting pipe 20 having one end connected to the mixture supply unit is formed and provided.

Here, the above-mentioned mixture is prepared by mixing an adhesive binder with the inorganic non-combustible foam insulation published in Patent Registration No. 10-2152004 registered for the present applicant, and detailed descriptions of the inorganic non-combustible foam insulation material are described below. to be omitted.

The mixing pipe 130 is connected to the other end of the mixture supply pipe 120 via a connecting member 125 so that one end can be disassembled and assembled, and the glass wool supplied through the glass wool supply pipe 110 and the mixture supply pipe ( 120) is provided so that the mixture supplied through the mixture is mixed to form a finishing material.

That is, the mixing pipe 130 is formed as a hollow pipe having a circular cross section, and one end of the outer circumferential surface is rotatably caught by a connecting member 125 having a threaded portion formed on the inner circumferential surface, and the other end of the mixture supply pipe 120 and A turning protrusion for connection is formed and provided so that it can be disassembled and assembled.

The injection pipe 140 has one end fixedly connected to the other end of the mixing pipe 130 so as to spray the mixed finishing material on the exterior of the building through the mixing pipe 130 .

That is, the injection pipe 140 is formed as a hollow pipe, and one end is fixedly connected to the other end of the mixing pipe 130 so that the mixed finishing material can be sprayed on the exterior of the building through the mixing pipe 130 . From one end to the other end, the diameter is gradually reduced and provided.

The mixture supply adding means 150 is fixedly installed on the outer circumferential surface of the mixing pipe 130 to supply the mixture supplied from the mixture supply unit to the inside of the mixing pipe to increase the adhesion of the finishing material.

That is, the mixture supply adding means 150 includes a plurality of mixture addition connection holes 151 formed at regular intervals in the longitudinal direction on the outer circumferential surface of the mixing pipe 130 , and longitudinally on the outer circumferential surface of the mixing pipe 130 . By being fixed, a plurality of additional mixture supply holes 152a are formed at regular intervals on the outer circumferential surface to communicate with the mixture additional connection hole 151, and the mixture additional injection body 152 is provided, and the mixture additional injection body 152. By being formed on the outer circumferential surface, one end communicates with the inside of the mixture additional injection body 152, and the other end is connected to the mixture additional supply pipe 30 so as to additionally supply the mixture to the inside of the mixture additional injection body 152 It is composed of a mixture additional supply connection (153).

In the case of spraying the finishing material on the exterior wall of the building using the building finishing material spraying device according to the present invention configured as described above, the worker uses the glass wool with the left and right hands or the right and left hands as shown in FIGS. 1 to 3 of the accompanying drawings. After gripping the supply pipe 110 and the mixing pipe 130 , the injection pipe 140 is directed toward the outer wall side.

Thereafter, the glass wool supply unit and the mixture supply unit are driven.

By driving the glass wool supply part and the mixture supply part, the glass wool is introduced into the glass wool supply pipe 110 through the guide pipe 10 and moves to the mixture supply pipe 120 side, and the mixture is passed through the connection pipe 20 to the mixture supply pipe ( 120) flows inward.

For this reason, the glass wool is transferred to the mixing pipe 130 side while the mixture supplied into the mixture supply pipe 120 is buried while passing through the mixture supply pipe 120 .

The glass wool in which the mixture transferred to the mixing pipe 130 is buried is mixed with a finishing material before spraying through the spray pipe 140, which is gradually reduced from one direction to the other, that is, the mixture is more permeated into the glass wool and the spray pipe ( 140) and is sprayed on the outer wall.

Since the finishing material is sprayed on the outer wall using the spraying device as described above, the working time can be shortened.

The above description is merely illustrative of the technical spirit of the present invention, and various modifications and variations will be possible without departing from the essential characteristics of the present invention by those skilled in the art to which the present invention pertains. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical spirit of the present invention, but to explain, and the scope of the technical spirit of the present invention is not limited by these embodiments. The protection scope of the present invention should be construed by the following claims, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the present invention.

10 ; guide pipe 20 ; connector
30 ; Mixture additional supply pipe 100 ; Building finishing material spraying device
110 ; Glass wool supply pipe 120 ; mixture supply pipe
130 ; mixing tube 140 ; injection tube
150 ; Mixture supply additional means

Claims (1)

Building finishing material spraying device,
a glass wool supply pipe 110 having one end connected through the glass wool supply unit and the guide pipe 10 so as to be able to supply the glass wool guided through the guide pipe 10;
At the other end of the glass wool supply pipe 110, one end is disassembled and assembled through a fastening member 115, and on the outer circumferential surface, a connection part 121 connected to the connection pipe 20, one end of which is connected to the mixture supply part, is formed to supply the mixture. a mixture supply pipe 120 provided to be mixed with the glass wool being transported;
One end of the mixture supply pipe 120 is connected to the other end to be disassembled and assembled through a connection member 125 so that the glass wool supplied through the glass wool supply pipe 110 and the mixture supplied through the mixture supply pipe 120 are mixed. a mixing pipe 130 provided so that the finishing material can be formed;
One end is fixedly connected to the other end of the mixing pipe 130, and the injection pipe 140 is provided so that the finishing material made through the mixing pipe 130 can be sprayed on the exterior of the building.
On the outer circumferential surface of the mixing pipe 130, a mixture supplying means 150 is further provided so that the mixture supplied from the mixture supply unit can be supplied to the inside of the mixing pipe 130 to increase the adhesion of the finishing material,
On the inner circumferential surface of the glass wool supply pipe 110, a spiral part 111 is further formed and provided so that the glass wool supplied through the guide pipe 10 is released and transferred to the mixture supply pipe 120 side,
The mixture supply addition means 150, the mixture addition connection hole 151 formed in a plurality of predetermined intervals in the longitudinal direction on the outer peripheral surface of the mixing pipe 130, and is fixed in the longitudinal direction to the outer peripheral surface of the mixing pipe 130 Thus, a plurality of additional mixture supply holes 152a are formed at regular intervals on the outer circumferential surface to communicate with the mixture additional connection hole 151 and the mixture additional injector 152 is provided, and on the outer peripheral surface of the mixture additional injector 152. By being formed, one end communicates with the inside of the mixture additional injection body 152, and the other end is connected to the mixture additional supply pipe 30 to additionally supply the mixture to the inside of the mixture additional injection body 152 Add a mixture Building finishing material injection device, characterized in that composed of the supply connection (153).

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