KR200493522Y1 - Insulating material spacer - Google Patents

Abstract

The present invention relates to a spacer for maintaining the spacer of an insulating material, and in particular, to a spacer for maintaining the spacer of an insulating material for maintaining a constant spacing of a plurality of insulating materials inserted between the molds.
To this end, in the present design, the coupling shaft 100 and the fixing member 200 are formed into a rectangular body to prevent rotation, and the rotating body 300 rotatably mounted between the coupling shaft 100 and the fixing member 200 By allowing the coupling shaft 100 to be inserted into or withdrawn from the fixing member 200 only by rotation of the spacer, the length of the spacer is adjusted in a state in which the left and right contact members 120 and 230 do not rotate. It is intended to provide a spacer for maintaining the insulation gap.

Description

Insulating material spacer

The present invention relates to a spacer for maintaining the spacer of an insulating material, and in particular, to a spacer for maintaining the spacer of an insulating material for maintaining a constant spacing of a plurality of insulating materials inserted between the molds.

In general, insulation is inserted inside the wall of a building to block cold or heat.When the wall of such a building is poured with concrete, a number of insulation materials (plate-shaped insulation materials such as styrofoam) are placed inside the formwork to be spaced at regular intervals. Next, concrete is poured between the insulation and the insulation.

However, when the concrete is poured, the insulation effect is excellent only when the spacing between the insulation materials is kept uniform, and the thickness of the concrete to be poured can be uniform.

Therefore, in order to keep the spacing of the heat insulators constant, in Patent Registration 10-1830577 [Name of the invention: the spacing of plate-shaped heat insulators attached to the building wall], the left side contact member in the form of'a', and the shape of a circular bar A fixing member that is vertically fixed to the inner side of the left contact member and has a threaded coupling shaft on the outer periphery, a circular hollow portion in the form of an elongated cylinder into which the coupling shaft is inserted, and rotatably coupled to the right end of the fixing member It is composed of a right side contact member in the form of'ㄱ'.

Therefore, by hanging the left contact member on the top of one insulating material and then rotating the fixing member and extending or compressing the coupling shaft to adjust the length so that the right contact member can be caught on the top of another insulating material, the adjusted total length is achieved. This keeps the gap between the insulation materials.

However, such a conventional technique is to hold the fixing member with one hand and rotate it to insert or withdraw the coupling shaft provided with the left adhesion member into the inside of the fixing member, while the other hand grabs the small left adhesion member fixed to the insulating material. Since there must be, there is a problem that the workability is not very good.

In addition, although it is said that the right contact member is rotatably coupled to the fixing member, the right contact member also rotates when rotating the fixing member. Since it is necessary to hold and fix the right contact member with the hand holding the left contact member so that it does not rotate, the coupling shaft rotates with the fixing member, and accordingly, the left contact member also rotates, so there is a problem that the workability is even worse. .

Eventually, when the fixing member is rotated to insert or withdraw the coupling shaft into or out of the fixing member, the left adhesive member or the right adhesive member rotates with the coupling shaft or the fixing member, so that the left adhesive member or the right adhesive member is firmly fixed to the insulating material. It becomes very difficult to do.

For this reason, when concrete is poured in a state where the spacing tool of the prior art is not tautly fixed between the insulating materials, it is easily separated and the possibility of occurrence of defects in the installation of the insulating material is very large.

Therefore, in order to solve this problem of the prior art, the present invention is to prevent rotation by forming the coupling shaft and the fixing member into a square body, and the coupling shaft An object of the present invention is to provide a spacer for maintaining a space of an insulating material so that the length of the spacer is adjusted while the left and right contact members do not rotate by being inserted into or withdrawn from the fixing member.

The spacer for maintaining the insulation gap according to the present invention,

It is formed in a rectangular body, a screw groove 110 is formed at each corner portion, and a coupling shaft 100 formed by fixing the left contact member 120 to the left end;

It is a rectangular tubular body so that the coupling shaft 100 is inserted into the inner side so that it can be inserted or withdrawn, and a locking part 210 is formed in the corner portion on the outer side, and the right contact member 230 is fixed at the right end. Formed fixing member 200;

A through hole 310 is formed through the center, and a locking protrusion 330 is formed around the inner circumference of the lower part, so that the locking part 210 of the fixing member 200 is inserted and rotatably coupled, through The ball 310 has an inner circumference of which a screw thread 320 is formed and a rotating body 300 coupled to the screw groove 110 of the coupling shaft 100; consists of,

The coupling shaft 100 is configured to be inserted or drawn out of the fixing member 200 by the rotation of the rotating body 300.

The present invention enables insertion and withdrawal of the coupling shaft 100 from the fixing member 200 in a non-rotating state by the rotation of the rotation body 300, so that the user holds the fixing member 200 and the rotation body 300 ) By rotating only the left contact member 120 and the right contact member 230 can be easily positioned on the upper end of the insulating material to be fixed.

For this reason, by fixing the spacer of the present invention easily and quickly between the heat insulators, workability is very good and work efficiency is greatly increased.

1 is an exploded view of a spacer according to the present invention.
Figure 2 is a combined cross-sectional view of the present invention.
3 is a cross-sectional view of a coupling shaft and a rotating body.
Figure 4 is a view showing the installation state of the present invention.

The present invention configured as described above will be described in detail with reference to the accompanying drawings.

1 is an exploded view of a spacer according to the present invention, FIG. 2 is a combined cross-sectional view of the present invention, and FIG. 3 is a combined cross-sectional view of a coupling shaft and a rotating body. 200), and consists of a rotating body (300).

The coupling shaft 100 is a bar-shaped body having a square cross section, and at the left end, a left contact member 120 of a'a' shape is integrally formed, and the top of the bottom portion of the left contact member 120 A plurality of fixing pins 130 are protruded and formed to be fixed by being inserted into an insulating material such as styrofoam.

Each of the rectangular corners of the coupling shaft 100 is provided with a screw groove 110 in the longitudinal direction, and the screw groove 110 has a structure formed to be inclined downward at each corner.

That is, if the four-sided portion is cut so that the cross section is square in the shape of a circular bar with a thread formed around the outer circumference, it will be a structure in which the thread remains only at each corner, and this coupling shaft 100 is made of a synthetic resin material. It is molded by a mold.

A rib 140 is formed between the bottom portion 121 of the left contact member 120 and the portion 122 erected at a right angle, and a side portion of the fixing pin 130 adjacent to the portion 122 erected at a right angle and a right angle Ribs 140 are formed between the erected portions 122 so that the fixing pins 130 are stably supported and the portion 122 erected at a right angle from the bottom portion 121 is supported.

In addition, a rib 150 is also formed between the lower end of the bottom and the coupling shaft 100 so that the left contact member 120 can be stably fixed from the coupling shaft 100.

The fixing member 200 is formed of a rectangular body, and a rectangular insertion groove 220 for receiving and inserting the coupling shaft 100 is formed inside, so that the coupling shaft 100 is inserted into the insertion groove 220 Is inserted in the left and right direction to be inserted or withdrawn.

The size of the insertion groove 220 is formed slightly larger than the coupling shaft 100 so that the coupling shaft 100 can be inserted or withdrawn without receiving resistance, and the coupling shaft 100 is It will not rotate from the inside.

In addition, a groove-shaped locking part 210 is formed at the same location of each corner on the outside of the left side, and a right-side contacting member 230 having the same shape as the left contacting member 120 is integrally formed at the end. And is fixed so as not to rotate from the fixing member 200.

In addition, a rib 240, a fixing pin 250, and a rib 260 are formed in the right contact member 230 in the same manner as the left contact member 120.

The fixing member 200 is also formed of a synthetic resin material by a mold.

The rotating body 300 is in the form of a nut, and a circular through hole 310 penetrating through the rotating body 300 is formed inside, and a thread 320 is formed along the inner circumference of the through hole 310 Is formed.

In addition, the right portion is formed so that the through hole 310 is extended so that the left portion of the fixing member 200 is inserted, and the locking jaw 330 is formed to protrude inwardly around the inner circumference of the extended portion. have.

This rotating body 300 is also molded by a mold made of a synthetic resin material.

Therefore, as shown in FIG. 2, the right side of the rotating body 300 is fitted to the outside of the left side of the fixing member 200, and then the locking protrusion 330 is inserted into the locking part 210, so that the rotating body 300 is Rotation becomes possible.

In addition, when the coupling shaft 100 is inserted to the left side of the rotary body 300 and rotates the rotary body 300, the coupling shaft is coupled by the screw groove 110 and the screw thread 320 as shown in FIG. 100 is accommodated in the insertion groove 210 of the fixing member 200.

That is, the screw groove 110 formed at the edge of the coupling shaft 100 is coupled to the screw thread 320 portion of the rotating body 300 to fix the coupling shaft 100 by the rotation of the rotating body 300 ( It is to be accommodated in the insertion groove (220) of 200).

When the rotating body 300 is rotated forward while the coupling shaft 100 is accommodated in the insertion groove 220, the coupling shaft 100 is accommodated in the fixing member 200 to shorten the overall length, and reverse rotation. Then, the coupling shaft 100 is withdrawn from the fixing member 200 to increase the overall length.

When explaining the state of use of the present invention, as shown in Fig. 4, after placing the spacer of the present invention between the insulation materials (I1, I2), the operator holds the fixing member 200 with one hand and the other hand When the rotating body 300 is rotated, the coupling shaft 100 is drawn out from the fixing member 200 to increase the length.

At this time, since the insertion groove 220 of the coupling shaft 100 and the fixing member 200 has a square shape, the coupling shaft 100 is drawn out without rotating, and the left contact member 120 and the left contact member 120 The right contact member 230 is caught on the upper end of the insulating materials I1 and I2, respectively, and when the rotating member 300 is further rotated, the left contact member 120 and the right contact member 230 are formed of the insulation materials I1 and I2. ) Is fixed between the insulation materials (I1, I2) to maintain a constant spacing.

In addition, the fixing pins 130 and 250 are not separated by digging into the insulating materials I1 and I2 made of styrofoam, etc. and are more stably fixed.

Eventually, when the coupling shaft 100 is pulled out from the fixing member 200 by the rotation of the rotating body 300, the left side contact member 120 is also in close contact with the insulating material T1 without rotating. It is fixed.

In addition, the operator rotates only the rotating body 300 while holding the large-sized fixing member 200, so that the workability is very excellent.

100: coupling shaft 110: screw groove
120: left contact member
200: fixing member 210: locking portion
220: insertion groove 230: right contact member
300: rotating body 310: through hole
320: thread 330: locking jaw
I1,I2: insulation

Claims (2)

It is formed in a rectangular body, a screw groove 110 is formed at each corner portion, and a coupling shaft 100 formed by fixing the left contact member 120 to the left end;
It is a rectangular tubular body so that the coupling shaft 100 is inserted into the inner side so that it can be inserted or withdrawn, and a locking part 210 is formed in the corner portion on the outer side, and the right contact member 230 is fixed at the right end. Formed fixing member 200;
A through hole 310 is formed through the center, and a locking protrusion 330 is formed around the inner circumference of the lower portion, and is inserted into the locking portion 210 of the fixing member 200 so as to be rotatably coupled. The inner circumference of the ball 310 has a screw thread 320 formed therein and a rotating body 300 coupled to the screw groove 110 of the coupling shaft 100; consists of,
The spacer for maintaining the spacing of an insulating material, characterized in that the coupling shaft 100 is inserted or withdrawn into the fixing member 200 without rotating from the inside by the rotation of the rotating body 300. The spacer according to claim 1, wherein ribs (150, 240) are formed between the coupling shaft (100) and the left contact member (120) or the fixing member (200) and the right contact member (230).

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