KR101914034B1 - Fixing apparatus for heat insulating material and finishing material - Google Patents

Abstract

The present invention discloses a supporting member for fixing a heat insulating material of various thicknesses attached to a vertical wall, and a heat insulating member including a joining member fixed to the supporting member and attaching the finish material easily and stably, and the fixing apparatus of the finishing material. The heat insulating material and the fixing apparatus of the heat insulating material reduce manufacturing costs and make installation convenient.

Description

Fixing apparatus for heat insulating material and finishing material

The present invention relates to a fixing member for a heat insulating material and a finishing material, and more particularly to a fixing member for fixing a heat insulating material having various thicknesses sequentially attached to a vertical wall, and a joining member fixed to the supporting member for easily and stably attaching the finishing material To a fixing member of a heat insulating material and a finishing material which are simple, reasonable, easy to assemble, reduced in manufacturing cost and convenient in construction.

Generally, when a building is expanded or repaired, it is attached to a vertical wall made of concrete or brick using a heat insulating material such as styrofoam or glass wool for the purpose of keeping the room warm and soundproof, and a finish material such as a gypsum board Respectively.

For example, as one of the methods of applying such a heat insulating material and a finishing material, a finishing material fastener for the construction of heat insulating material for polyurethane foam molding is proposed in Japanese Patent Registration No. 10-1214472 (Dec. 24, 2012). This is a finishing material fixture consisting of a perspin and a perspin gap. The fixture fixture is made by attaching a support plate of a perspin using a double-sided tape to a field wall, injecting liquid polyurethane around the fastening rod projected at the center of the support plate, The hook pin of the perspin cap is fixed by the through hole formed at the tip of the fastening rod, and then the finishing material is fixed to the mounting plate of the perspin gap and fixed through the piece. Since the perspex of the finishing material fastener is attached to the wall by double-sided tape, the fastpin can be separated during the operation due to its low binding force. In the process of spraying the liquid-phase pulley urethane which is a heat insulating material, So that the flatness of the surface can not be ensured, so that the finishing material can not be smoothly applied. Further, when fixing the attachment of the finishing material to the piece, it is difficult to grasp the position of the attachment plate of the perspin gap, thereby failing to stably attach the finishing material.

In addition, a registration hole 20-0163407 (Announcement on Feb. 15, 2000) and a registration hole 20-0321381 (announcement on July 31, 2003) 'registration hole for wall plate' No. 20-0333026 (Announcement of Nov. 13, 2003) was proposed. [0001] The present invention relates to a fixing device for a wall plate comprising a fixture for mounting a gypsum board and a fixture for mounting a gypsum board on a wall surface thereof, wherein a bottom plate of the fixture is attached to the field wall using an adhesive, After inserting the insulator so that the tip is exposed, inserting the insulator so that the inner side of the insulator is in close contact with the wall, inserting the inserting rod of the inserting hole with the through hole formed at the end of the inserting rod and applying adhesive to the bottom of the inserting hole, . The wall fasteners are adhered to the wall as an adhesive, so that there is a problem that the wall fasteners may be separated during operation due to weak adhesive force before curing.

In addition, all of the above prior arts can not be applied to the variation of the thickness of the heat insulating material, and the structure of the persin or fixture according to the thickness change of the heat insulating material is complicated, the volume is large, the cost of the manufacturing mold cost and the raw material are increased, have.

(Document 1) Domestic Registered Patent No. 10-1214472 (2012. 24th Announcement) (Document 2) Domestic Registered Utility Model No. 20-0163407 (Announced on February 15, 2000) (Document 3) Registered Utility Model No. 20-0321381 in Domestic Registration (Announced on July 31, 2003) (Document 4) Domestic Registration Utility Model No. 20-0333026 (Announced on November 12, 2003)

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is an object of the present invention to provide a method of manufacturing a vertical wall which is simple and simple in structure, So that the interval between the separated air layers can be adjusted according to the state where the joint member is fixed to the support member and is adhered to the support member and is fixed to the support member by the tacking nails, And to provide a fixture for a heat insulating material and a finishing material for enhancing the effect.

In order to attain the above object, a fixing device for a heat insulating material and a finishing material according to the present invention comprises a tubular main body having a conical shape and an elongated tubular shape, the front end of which is inserted into the heat insulating material so as to fix the heat insulating material attached to the vertical wall, A supporting member formed integrally with a socket portion having a diameter enlarged in the vertical wall and fixed to the vertical wall by a concrete nail embedded in the vertical wall; A center bar fixed to the support member and fixed to the socket portion of the support member so as to attach the finishing material using an adhesive, and a through hole is formed radially from the rear of the center bar to the rectilinear frame and the circular frame to form a polygonal frame And a joining member having a joining portion formed by joining the joining portion and a supporting bar protruding in four directions and a fixing pin protruding from the joining portion in a state orthogonal to the rim of the joining portion and projecting at one place orthogonally to the joining portion, And a second socket portion is formed by extending one side of the circumference of the socket portion of the support member, and the support rods formed on the four sides of the joining portion of the joining member are sequentially arranged at a height of 3 mm to 5 mm So that the second socket portion of the support member is coupled to the support rod of the joining member May be that the air layer so that the spaced distance between the insulating material and the finishing material can be adjusted according to the condition characterized on the technical configuration.

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The fixture of the heat insulating material and the finishing material according to the present invention is characterized in that the structure of the supporting member for fixing the heat insulating material to the vertical wall is very simple so that the manufacturing cost is reasonable even if the unit is made into a length suitable for the heat insulating material specification, It is possible to fix the supporting member conveniently through the fixing operation and to selectively use the unit member of the supporting member suitable for the size of the heat insulating material thickness standard, so that the fastening member and the finishing material can be flatly constructed.

In addition, the gap between the heat insulating material and the support member can be adjusted according to the position where the second socket portion of the support member and the support rods having different height of the fastening member are mutually coupled, thereby enhancing the heat insulation effect.

Further, since the adhesive flows into the through-holes and the bridges in the form of bridges formed in the joint portion of the joining member and solidifies in a wrapped state, the joining ability of the heat insulating material and the finish material is further improved.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view of a fixing member of a heat insulating material and a finishing material according to a first embodiment of the present invention. FIG.
Fig. 2 is a sectional view showing the use state of the fastener of Fig. 1; Fig.
FIG. 3 is a perspective view showing a state in which a through hole and a bridge are formed in the joining member of FIG. 1 according to the present invention. FIG.
Fig. 4 is a sectional view showing the use of the fixture of Fig. 3; Fig.
FIG. 5 is a perspective view of a heat insulating material and a finishing material fastener according to a second embodiment of the present invention in exploded view. FIG.
Fig. 6 is a sectional view showing the use of the fixture of Fig. 5;
7 is a perspective view showing a state in which a second socket portion is formed in the support member of FIG. 5 according to the present invention;
8 is a cross-sectional view showing the use of the fixture of FIG.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The fixing member of the heat insulating material and the finishing material of the present invention includes a supporting member 2 for fixing a heat insulating material 200 such as styrofoam or glass wool attached to the vertical wall 100 as shown in FIGS. 1 and 2, 2 using a bonding material 3 for attaching a finishing material 300 such as a gypsum board or the like by using the adhesive 400. In this case,

The core technology of the present invention is to provide a vertical wall member 100 with a simple structure of a supporting member 2 for fixing a thermal insulating material 200, (50 mm, 60 mm, and 70 mm to 150 mm), respectively, so that a suitable fixed length can be selected and used. The fixing member is fixed to the supporting member (2) 300 can be adjusted according to the state in which the joining member 3 is fixed to the support member 2 by bonding the joining member 3 and the joining member 3 to each other.

In order to solve this problem, the support member 2 of the first embodiment according to the present invention includes a tubular main body 21 having a straight conical shape and extending in such a manner that its tip is plugged into the heat insulating material 200 while passing therethrough, And a concrete nail 4 (hereinafter referred to as " concrete nail 4 ") which is embedded in the vertical wall 100 while integrally forming a socket portion 22 whose diameter is extended at the rear end of the socket portion 21 and a flange 23 extending orthogonally to the front end of the socket portion 22 ) So that the front end of the main body (21) contacts the vertical wall body (100) while being fixed by injection molding.

1 and 2, the support members 2 are formed of respective unit pieces 2a to 2c, each of which has a size according to thickness standard of the heat insulating material 200. The unit pieces 2a to 2c are 30 mm, 35 mm, 40 mm, 45 mm, 50 mm, 60 mm, and 70 mm to 150 mm thick.

Since the support member 2 is a very simple structure for providing the space for the concrete nails 4 of the punching tool not shown in the rear sockets 22 and the inside of the main body 21 to move, It is possible to manufacture the unit pieces 2a to 2c of the supporting member 2 to be used for the thickness of the heat insulating material 200 suitable for the installation place and to easily select and use the unit materials 2a to 2c The support member 2 is fixed to the vertical wall 100 by the concrete nail 4 as shown in FIG. 2 to fix the joint member 3 at the same height position while stably adhering the heat insulating material 200, The finishing material 300 is made flat.

1 and 2, the joining member 3 is fixed to the support member 2, and then the joining member 3 is attached to the joining member 3. The joining member 3 supports the joining member 3 so that the joining member 3 can be flatly mounted A cutout groove 311 and an engagement groove 312 extending from one side of the joint portion 32 to the center so that the socket portion 22 of the support member 2 and the flange 23 formed on the socket portion 22 are fitted and fixed, The first engaging portion 31 is provided.

After the adhesive agent 400 is applied to the joining portion 32 and the finish material 300 is attached to the joining portion 3, the finish material 300 is stuck to the joining portion 32 of the joining member 3 with the tacking nails 5, And it is proved that a screw or the like can be used instead of the tacking nail 5.

3 and 4, the joint portion 32 of the joint member 3 is provided with a fixing pin 33 protruding from the front surface thereof to be inserted into the heat insulating material 200 to prevent rotation, and an adhesive 400 is applied A plurality of through holes 322 are formed in the back surface of the heat insulating material 200 and the finishing material 300 so as to improve bonding strength when the heat insulating material 200 and the finishing material 300 are attached.

5 and 6, the support member 2 has a tubular shape that is conical and extends in a straight line shape so that its tip can be inserted into the heat insulating material 200 while passing therethrough. A concrete nail 4 is formed by integrally forming a socket 21 having a diameter larger than that of the main body 21 and a socket 22 having a larger diameter at the rear end of the main body 21, The unit pieces 2a to 2c are formed by injection molding so that the tip of the main body 21 is fixed while being in contact with the vertical wall body 100 and are respectively manufactured in sizes according to the thickness standards of the heat insulating material 200.

5 and 6, the joining member 3 of the second embodiment has a function of attaching the finishing material 300 after being fixed to the supporting member 2, and supporting the finishing material 300 so that the finishing material 300 can be flatly installed A central rod 31 fitted and fixed to the socket portion 22 of the support member 2 and a linear frame member 322 and a circular frame member 323 are radially connected from the rear side of the central member 31 A joining portion 32 provided with a through hole 322 and a polygonal rim 321 to which the heat insulating material 200 and the finishing material 300 are adhered using the adhesive agent 400 and a rim 321 of the joining portion 32, A fixing pin 33 protruding from the center rod 31 in a direction orthogonal to the center rod 31 in a direction perpendicular to the center bar 31 so as to be prevented from being rotated by being inserted into the heat insulating material 200 and supporting rods 34a to 34d protruding in four directions, Lt; / RTI >

 The through hole 322 formed between the linear frame structure and the linear frame structure of the joint part 32 of the joint member 3 serves to improve the adhesion force after the adhesive agent 400 is introduced, A bridge 35 is formed to protrude from the rear side of the rear surface of the member 3 so as to improve bonding strength when the adhesive 400 is applied to the joint portion 32 of the member 3 and the heat insulating material 200 and the finishing material 300 are attached.

In addition, the spacing T1 and T2 can be adjusted according to the change in the position where the joining member 3 is coupled to the support member 2, thereby enhancing the heat insulating effect. 7 and 8, a second socket portion 24 is formed by extending one side of the circumference of the socket portion 22 of the support member 2, and the second socket portion 24 is formed on the circumference of the joining portion 32 of the joining member 3 The support rods 34a to 34d are sequentially formed to have a height of 3 mm to 5 mm so that the connection of the support rods 34a to 34d of the bonding member 3 to the second socket portion 24 of the support member 2 The spacing T1, T2 between the heat insulating material 200 and the finishing material 300 can be adjusted.

Therefore, in the first embodiment of the present invention constructed as described above, one of the unit pieces 2a to 2c of the support member 2 having a length suitable for the thickness of the heat insulating material 100 is selected as shown in FIGS. 1 and 2, The puncturing pin of the illustrated puncturing tool is introduced into the inner space of the main body 21 and then the conical tip of the main body 21 is inserted into the heat insulating material 200 and is pushed into contact with the vertical wall body 100 while using air or gas pressure The socket 22 is fixed orthogonally to the vertical wall 100 and the vertical wall 100 is fixed to the vertical wall 100 while the front end of the main body 21 contacts the vertical wall 100 by hitting the concrete nail 4, If the supporting member 2 is fixed at a predetermined interval by repeating the above-described process, the heat insulating material 200 stably contacts the vertical wall 100. At this time, when the unshown adhesive is applied between the vertical wall 100 and the heat insulating material 200, a more firm attachment state is obtained.

The support members 2 which are fixed to the vertical wall 100 by the concrete nails 4 at predetermined intervals are arranged as shown in Fig. 2 by selecting the unit 2a suitable for the thickness of the heat insulating material 200, The flange 23 formed in the socket portion 22 of the support member 2 is fitted and fixed to the first engagement portion 31 having the cutout groove 311 and the engagement groove 312 of the member 3. At this time, the fixing pin 33 protruding from the joining portion 32 is inserted into the heat insulating material 200 to prevent the joining member 3 from being rotated. Then, the adhesive 400 is applied to the joining portion 32, And the finish material 300 is stuck to the joining portion 32 of the joining member 3 with the tacking nails 5 after the joining member 3 is attached.

3 and 4, when the through hole 322 and the bridge 35 are formed in the joint portion 32 of the joint member 3, the adhesive 400 applied is passed through the through hole 322 and the bridge 35, The joint portion 32 and the heat insulating material 200 can be more stably cohered.

As a second embodiment, one of the unit pieces 2a to 2c of the support member 2 having a length suitable for the three types of heat insulating materials 100 having different thicknesses as shown in Fig. 5 is selected, And then the conical tip of the main body 21 is inserted into the heat insulating material 200 to be brought into contact with the vertical wall body 100 while pressing the concrete nail The main body 21 and the socket portion 22 are fixed to be perpendicular to the vertical wall 100 while the tip of the main body 21 contacts the vertical wall 100 as shown in FIG. The heat insulating material 200 stably contacts the vertical wall 100 when the support member 2 is fixed at a predetermined interval by repeating the above process and the vertical wall 100 When the adhesive is applied between the heat insulating materials 200, It is.

That is, the supporting member 2, which is fixed to the vertical wall 100 at a predetermined interval by the concrete nails 4, selects one of the unit pieces 2a to 2c suitable for the thickness of the insulating material 200, And then the center bar 31 of the joining member 3 is fixed to the socket portion 22 of the support member 22 by indirect fit or interference fit. At this time, the fixing pin 33 and the supporting rods 34a to 34d protruding from the bonding portion 32 are inserted into the heat insulating material 200 to prevent the bonding member 3 from being rotated or moved. Then, the adhesive 400 is bonded to the bonding portion 32 The adhesive 400 enters the space of the through hole 322 and the bridge 35 and becomes in a state where the bonding portion 32 and the heat insulating material 200 can cohere with each other.

Subsequently, when the finishing material 300 is attached and pressed, the contact surface of the finishing material 300 is adhered by the adhesive force of the adhesive 400 while being in contact with the surface of the bridge 35 on the rear surface of the bonding portion 32 of the bonding material 3, The adhesive 400 is brought into a flat state and the adhesive 400 is brought into contact with and filled with the through hole 322 of the joint portion 32 and the space of the bridge 35 and the polygonal rim 321 The solidification of the joint portion 32 of the heat insulating material 200 and the joining member 3 and the finish material 300 coagulate to maintain a firm attachment state.

In the case where the second socket portion 24 is provided on the support member 2 as shown in Figs. 7 and 8 and the support bars 34a to 34d having different heights are provided on the joining portion 32 of the joining member 3 The support bar 34a of the joining portion 32 having a low height is joined to the second socket portion 24 of the support member 2 as shown in Figure 8A to form a narrow space between the heat insulating material 200 and the finishing material 400 The spacing T1 of the separation air layer may be formed or the support bar 34a of the joint portion 32 may be joined to the second socket portion 24 of the support member 2 as shown in FIG. 200 and the finishing material 400, it is possible to adjust the interval of the heat insulating air layer suited to the temperature difference suitable for each region or place, thereby increasing the heat insulating effect.

Since the center bar 31 and the support rods 34a to 34d of the fastening member 3 are coupled to the socket portion 22 and the second socket portion 24 of the support member 2, ) Is more stable because it keeps more firmly fixed state without being rotated, moved and rocked.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. Accordingly, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims.

1: fixture 2: support member
2a to 2c: Unit 21:
22: socket portion 23: flange
24: second socket portion 3: joint member
31: first coupling portion 31 ': second coupling portion
32: connecting portion 33: fixing pin
34a to 34d: a support rod 35: a bridge
311: incision groove 312:
321: rim 322: through hole
4: Concrete Nail 5: Tacking Nail
100: vertical wall 200: insulation
300: Finishing material 400: Adhesive

Claims (5)

delete delete A tubular main body 21 having a conical shape and extending so as to be able to pass through the heat insulating material 200 with its tip end fixed so as to fix the heat insulating material 200 attached to the vertical wall 100, The vertical wall 100 is formed with a socket 22 having a diameter larger than the diameter of the vertical wall 100 and is fixed to the vertical wall 100 by the concrete nail 4, (2);
A center bar 31 fixed to the support member 2 and fixed to the socket portion 22 of the support member 2 so as to attach the finish material 300 using the adhesive 400, A joining portion 32 having a through hole 322 formed in a radial shape and interconnected by a straight frame and a rear frame from the rear and provided with a polygonal frame 321 and a joining portion 322 having a rim 321 and a straight frame (3) comprising a fixing pin (33) protruding at one place in an orthogonal state and support rods (34a - 34d) protruding in four directions,
The support member 2 is a fixture 1 composed of the unit pieces 2a to 2c, each of which is manufactured in a size according to the thickness standard of the heat insulating material 200,
The supporting sockets 22 of the supporting member 2 are extended to form the second socket portion 24 and the supporting rods 34a to 34d formed on the four sides of the connecting portion 32 of the connecting member 3 The first and second sockets 24a and 24b of the supporting member 2 and the supporting members 34a to 34d of the connecting member 3 are formed to have a height of 3 mm to 5 mm, Wherein the spacing (T1 to T2) of the spacing air layers between the finishing materials (300) is adjustable.
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