KR20000073234A - A Mixing Apparatus for Manufacturing the Foam Concrete - Google Patents

Abstract

PURPOSE: A foam concrete mixing machine is provided to prevent damage and loss of foams in the process of mixing foam concrete to realize a superior quality and supply a fixed amount of foam concrete to a corresponding working position. CONSTITUTION: A foam concrete mixing machine includes a mixing channel(10) formed in a cylindrical shape with opened front and rear parts and having a foam introducing tube(11) branched at one side of the rear part for forming a space in which cement paste is mixed with foam, and a mixing runner(20) movably mounted in the mixing channel and having a plurality of guiding plates(21) for mixing the cement paste introduced into the mixing channel with the foam, wherein the mixing runner includes an axial rod(20a) in the shape of a polygon, of which every side is attached with the guiding plates alternately with a uniform interval in the longitudinal direction.

Description

A Mixing Apparatus for Manufacturing the Foam Concrete

The present invention is to mix the foam concrete used as insulation and soundproofing material in building construction, and in particular, it is possible to supply excellent foam concrete by mixing the foam paste with foam paste without loss of foam when mixing foam concrete It relates to a mixer for aerated concrete.

Normally, foam concrete is manufactured by mixing an appropriate amount of foam group with cement paste. Such foam concrete has a relatively low specific gravity compared to general concrete, and is light in weight, and has excellent heat insulating performance and soundproofing performance. It is useful as a soundproofing material.

As described above, the conventional foam concrete manufacturing apparatus 1 for mixing and manufacturing foam concrete used for building construction and supplying it to a working position is cement injected together with the bubble group supplied from the foam generator 2 as shown in FIG. 1. And a pair of agitators (3) having agitated blades (3a) internally mixed so that water and water are mixed with each other, and a feed hopper (4) disposed under the agitator (3) to supply bubble concrete discharged from the agitator; It is configured as a pressure feed pump (5) having a screw (5b) connected to the supply hopper (4) and installed to rotate with the driving force of the drive motor (5a).

The foamed concrete manufacturing apparatus 1 is mixed with foamed concrete by mixing cement and water together with the foamed group in the stirrer 3, and the mixed foamed concrete as a pumping pump 5 via the feed hopper 4 By forcibly feeding them to the working position, it is true that the foam concrete supplied to the working position can be used to efficiently construct the insulation floor or soundproof wall of the building.

However, since the conventional foam concrete manufacturing apparatus 1 has a structure in which cement and water are mixed directly with the bubble group by mixing them in the stirrer, the bubble group is stirred in contact with the cement powder or forcedly rotated in the stirrer. It is first broken by the wing, and during the feeding, the bubble group already mixed with the foam concrete is destroyed by the friction contact with the screw which is forcibly rotated and then destroyed. Due to the low foaming rate of foamed concrete, the construction quality was very poor, and the actual volume of foamed concrete decreased as much as the amount of foamed group, which hindered the efficient construction due to the reduced amount of foamed concrete per unit time. There was this.

The present invention is configured to prevent the bubble group from being destroyed in the process of mixing the foam concrete, the first bubble group is mixed to maintain the optimal mixing ratio with the cement paste to provide a high-quality foam concrete, and the second amount of foam The purpose of the present invention is to provide a mixer for aerated concrete that delivers concrete to a work site to improve construction efficiency.

Figure 1 illustrates a conventional foam concrete manufacturing apparatus in a plan view

Figure 2 is a perspective view of the foam concrete mixer of the present invention

Figure 3 is a side cross-sectional view of the foam concrete mixer of the present invention

Figure 4 is a longitudinal cross-sectional view showing a mixed runner of the present invention

5 is a longitudinal sectional view showing a modification of the mixed runner of the present invention;

Figure 6a, Figure 6b shows the assembly of the mixing passage according to an embodiment of the present invention

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

10: Mixed passage 11: bubble inflow pipe

12: cement paste inlet pipe 13: foamed concrete outlet pipe

20: mixed runner 20a: shaft

21: guide plate 22: ground plate

As shown in FIG. 2, the mixer 100 for foam concrete according to the present invention has a bubble inlet pipe 11 branched at a rear side thereof as a cylindrical body that is opened in the front-rear direction and has a cement paste and a bubble group introduced therein. A mixing runner having a mixing passage 10 constituting the mixing space and guide plates 21 arranged to mix the cement paste and the bubble group flown in the mixing passage 10 and flowing into the mixing passage 10. (20) is a basic feature of the technical construction of the present invention.

The mixer 100 for foam concrete of the present invention configured as described above, as shown in Figure 3, so that the front end of the mixing passage 10 is connected to the concrete pump 200 for supplying the cement paste, the mixing passage 10 The bubble inlet pipe (11) formed integrally therewith is connected to the bubble generator (300) for generating bubbles, and the cement paste and the bubble group introduced into the mixing passage (10) are flown in the mixing passage. The guide plate 21 of the mixing runner 20 is naturally mixed without impact or friction and supplied to the working position.

Therefore, in the present invention, since the bubble group is mixed with the cement paste without destroying the bubble concrete in the process of mixing the foam concrete, the high-quality foam concrete is mixed to the working position by mixing the cement paste and the bubble group to maintain the optimum mixing ratio. It will be able to supply. In addition, the mixed foam concrete is kept in its original volume

As the amount of foam concrete is transported to the working position, it has the advantage of increasing the foaming capacity of the foam concrete per unit time and efficiently constructing it.

Hereinafter, each component will be described in more detail with reference to specific embodiments of the present invention.

The mixing passage 10 functions as a space for mixing the cement paste and the bubble group introduced into the bubble concrete.

In addition, the mixing passage 10 is formed as a cylindrical hollow inside, and the bubble inlet pipe 11 connected to the bubble generator 300 and the connection hose on one side of the rear is integrally formed.

In the embodiment of the present invention, the length of the tube passage is narrowed to the rear end of the mixing passage 10 to form a cement paste inlet pipe 12 connected to the concrete pump 200 as a connection hose, the mixing passage ( It is illustrated that the foamed concrete discharge pipe 13 is formed by extending the tube diameter at the distal end portion of 10) to be connected to the discharge hose.

The mixing passage 10 allows the bubble group supplied from the bubble generator 300 to flow through the bubble inlet pipe 11, and is supplied from the concrete pump 2 to the cement paste inlet pipe 12. The cement paste is introduced, and the foamed concrete mixed with the foam group and the cement paste introduced into the mixing passage 10 is discharged through the foamed concrete discharge pipe 13 to be supplied to the working position.

The mixing runner 20 is internally flowed in the mixing passage 10 to perform a function of mixing the cement paste and the bubble group introduced into the mixing passage 10.

In addition, the mixing runner 20 has several guide plates 21 fixedly attached and fixed around the outer circumferential surface of the shaft rod 20a having a predetermined length and a cross-sectional shape, and mutually at both ends of the shaft rod 20a. The ground plates 22 are alternately attached and fixed. The mixing runner 20 is freely flowable in the mixing passage 10 by the ground plates 22 on both sides of the shaft rod 20a, and the guide plates 21 attached and fixed on the shaft rod 20a are mixed. The cement paste introduced into the passage 10 and the bubble group are naturally mixed with each other to induce mixing so that the bubble group can be mixed without loss of destruction.

In the embodiment of the present invention, the mixing runner 20 forms a shaft bar 20a as a cross-sectional shape of a polyhedron, as shown in FIGS. 3 and 4, and alternates at equal intervals with respect to the longitudinal direction of each side of the shaft bar 20a. As illustrated by attaching and fixing the guide plates 21 to form an oblique angle.

5 shows a modified example of the mixed runner, wherein the mixed runner 20 forms a cylindrical rod 20a as a cylindrical cross-sectional shape, and forms an oblique angle alternately at regular intervals around the outer circumferential surface of the cylindrical rod 20a. Note that the guide plates 21 may be attached and fixed.

On the other hand, Figure 6a shows an embodiment of the present invention, the mixing passage 10 is divided into any portion of the front side of the bubble inlet pipe 11 as a location point, the mixed passages of the bilateral both sides (10) Connecting jaw portions (10a) are formed to correspond to each other at the ends of the), and the mixing passages (10) on both sides can be attached and detached as a clamp (14) fastened to the contact portion contacted through the connecting jaw portion (10a) By assembling the connection so as to be able to easily replace the mixing runner 20 in the mixing passage 10. At this time, as shown in Figure 6b, by connecting the connection hose or connecting pipe between the bidirectional mixed passage 10, the length of the entire mixing passage 10 is arbitrarily extended, into the mixing passage 10 Note that the cement paste and the bubble group to be introduced can be premixed before being mixed by the mixing runner 20.

As described above, the present invention allows the bubble group to be mixed with cement paste without destroying and destroying, thereby providing excellent quality foam concrete, and providing useful effects such as supplying foam concrete to the work location. To have.

Claims (4)

The mixing passage 10 and the mixing passage 10 forming a space in which the cement paste and the bubble group introduced into the inside having a bubble inlet pipe 11 branched on one side of the cylindrical body opened in the front and rear directions, and the mixing passage 10 And a mixing runner (20) having guide plates (21) arranged so as to mix the cement paste and the bubble group introduced in the mixing passage. 2. The mixing runner (20) according to claim 1, wherein the mixing runner (20) forms a shaft bar (20a) as a cross-sectional shape of a polyhedron, and the guide plates (21) to form an oblique angle alternately at equal intervals with respect to the longitudinal direction of each side of the shaft bar (20a). A mixer for foam concrete, characterized in that the fixing is fixed. The guide plate (21) according to claim 1 or 2, wherein the mixing runner (20) forms an axial rod (20a) as a cylindrical cross-sectional shape, and forms an oblique angle alternately at regular intervals around the outer circumferential surface of the axial rod (20a). Mixer for aerated concrete, characterized in that by fixing them. According to claim 1, wherein the mixing passage 10 is divided into any part of the front side of the bubble inlet pipe 11 as a location point, the connecting jaw portion so as to correspond to each other at the ends of the mixed passages of the bilateral side Bubbles characterized in that each of the forming passages (10a) are formed so as to be detachably connected and assembled as a clamp (14) fastened to a connection portion abutted between the mixing passages (10) on both sides thereof. Concrete mixers.