KR20210157582A - Frame structure - Google Patents

Abstract

The present invention provides a frame structure, comprising: a frame unit installed in a structure to support a load; and an elastic fixation unit inserted into the frame unit and temporarily fixed to the inner surface of the frame unit through an elastic force. An objective of the present invention is to provide the frame structure with improved workability.

Description

Frame structure {FRAME STRUCTURE}

The present invention relates to a frame structure with improved workability.

It should be noted that the content described in this section merely provides background information on the present invention and does not constitute the prior art.

In general, the curtain wall method is applied to the exterior material of a building, and the work sequence consists of making a frame with a square pipe-type steel structure material, fixing it to the floor slab of the building, and then installing the exterior material.

As a disadvantage, since each member is joined by welding or a joining method using a direct screw, there is a difference in the construction quality depending on the worker in charge, and there is a problem in that it is difficult to secure a certain construction quality.

In addition, additional performance for insulation, etc. is secured by separately installing an insulation material, and there is a problem in that the insulation performance cannot be secured from the frame itself.

KR 20-0205624 Y1

An aspect of the present invention is to provide a frame structure that is prevented from falling off while installed on a structure and improved workability.

In one aspect, the present invention is to provide a frame structure with improved heat transfer barrier properties to the structure.

As an aspect for achieving the above object, the present invention is a frame part installed in a structure to support a load; It provides a frame structure including a; is inserted into the frame portion, the elastic fixing portion is temporarily fixed to the inner surface of the frame portion through an elastic force.

Preferably, in the frame part, a plurality of slit lines for increasing the heat transfer path in the direction of the structure may be formed to be spaced apart, and the slit holes of the adjacent slit lines may be alternately disposed.

Preferably, the frame part may further include a protruding slit protruding into the frame part along a circumference of the slit hole to reinforce rigidity around the slit hole.

Preferably, the frame unit includes: a pair of front frames spaced apart in the width direction with an insertion space into which the elastic fixing unit is inserted; a pair of side frames each extending rearwardly from the widthwise end of the front frame and having the plurality of slit lines; and a rear frame connecting between the pair of side frames.

Preferably, the front frame comprises: a front plate formed in front of the side frame and extending in the insertion space direction; and a support plate extending rearwardly to cross the front plate and contacting and supporting the fixing block of the elastic fixing part.

Preferably, the elastic fixing part, a fixing block disposed in the installation space inside the frame part; an elastic member installed on the fixing block and temporarily fixing the fixing block to the inner surface of the frame portion through an elastic force while in contact with the inner surface of the frame portion; and a fixing hardware extending forward from the fixing block and forming an installation part of the support object.

Preferably, the fixed block, the block body in which the elastic member is installed at the rear; and a pair of contact blocks each protruding forward from both ends of the block body in the width direction and supported in contact with the front frame of the frame unit.

Preferably, a support groove into which one side of the front frame of the frame part is inserted may be formed in the front of the block body.

Preferably, the elastic member may be composed of a leaf spring in elastic contact with the inner surface of the rear frame of the frame portion.

Preferably, the elastic member may be composed of a coil spring in elastic contact with the inner surface of the rear frame of the frame portion.

Preferably, the elastic member may further include a ground plate installed on the coil spring and in contact with the inner surface of the rear frame of the frame part.

Preferably, it is installed on the fixing hardware, the fastening portion for main fixing the elastic fixing portion to the frame portion; may further include.

According to an embodiment of the present invention, the frame structure is prevented from falling off in a state in which it is installed in the structure, and there is an effect that can improve workability.

In one aspect, the present invention is to provide a frame structure in which the frame structure has improved heat transfer barrier properties to the structure.

According to an embodiment of the present invention,

1 is a perspective view showing a frame structure according to an embodiment of the present invention.
2 is a perspective view illustrating a frame part of a frame structure according to an embodiment of the present invention.
3 is a perspective view illustrating an elastic fixing part of a frame structure according to an embodiment of the present invention.
4 is a perspective view illustrating in detail a process in which an elastic fixing unit is installed in a frame portion of the frame structure of FIG. 1 .
5 is a view illustrating an installation process of the frame structure of FIG. 1 .
6 is a view showing an installation process of a frame structure according to another embodiment of the present invention.
7 is a view showing an installation process of a frame structure according to another embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. However, the embodiment of the present invention may be modified in various other forms, and the scope of the present invention is not limited to the embodiments described below. In addition, the embodiments of the present invention are provided in order to more completely explain the present invention to those of ordinary skill in the art. The shapes and sizes of elements in the drawings may be exaggerated for clearer description.

Hereinafter, a frame structure according to an embodiment of the present invention will be described in detail with reference to FIGS. 1 to 7 .

The frame structure according to an embodiment of the present invention may include a frame part 100 and an elastic fixing part 200 .

Referring to FIG. 1 , the frame part 100 may be installed on a structure W such as a building to support a load.

2 and 4 , the frame part 100 is formed to extend in the longitudinal direction D1, and an installation space S into which the elastic fixing part 200 is inserted may be formed.

The frame unit 100 may be fixed to a slab of a building through a fixing angle or the like. In addition, although not shown, of course, the frame unit 100 may be fixed to the wall of a building through a fixing angle or the like.

An installation space S that is temporarily fixed in a state in which the elastic fixing part 200 is inserted may be formed in the frame part 100 .

The frame part 100 is made of a metal material such as steel, and can be manufactured by processing a metal plate such as a steel plate by a roll forming method.

By manufacturing the frame part 100 by the roll forming method, there is an effect that dimensional accuracy is high, unnecessary scrap is hardly generated, and a product having a constant cross-sectional shape and a relatively long length can be produced very economically.

In addition, by forming by the roll forming process, there is an effect that the amount of welding can be reduced and the manufacturing cost of the parts can be reduced.

1 and 3 , the elastic fixing part 200 may be inserted into the frame part 100 and temporarily fixed to the inner surface of the frame part 100 through an elastic force.

The elastic fixing part 200 may be inserted into the installation space S inside the frame part 100 through the insertion space I of the frame part 100 .

A support object T, such as a panel support, may be fixed to the elastic fixing part 200, and an exterior material such as an exterior panel P may be installed in the panel support.

The frame structure of the present invention is inserted into the installation space (S) inside the frame portion 100 through the insertion space (I) of the frame portion 100, rotates on the installation space (S), and By being temporarily fixed to the frame part 100 through the elastic force, the operator can perform the main fixing operation for installation of the fastening part 300, etc. while simply adjusting the position of the elastic fixing part 200, so that the operator's site It has the effect of improving the constructability of

1 and 2, in the frame part 100, a plurality of slit lines for increasing the heat transfer path in the structure (W) direction are formed to be spaced apart, and the slit holes 131 of the adjacent slit lines are to be alternately arranged. can

A plurality of slit lines may be formed to be spaced apart from each other in the front-rear direction D3 of the frame part 100 which is the structure W direction.

The slit line may be formed with a plurality of slit holes 131 spaced apart from each other in the longitudinal direction D1 of the frame part 100 to form a line. At this time, the slit hole 131 may be formed of a hole having a long length in the longitudinal direction D1.

The plurality of slit lines may be disposed to be spaced apart in the front-rear direction D3, and the slit holes 131 of the adjacent slit lines may be alternately disposed and a heat transfer path in the direction of the structure W may be lengthened.

For example, referring to FIG. 2 , the side frame 130 of the frame part 100 has a first slit line L1 , a second slit line L2 , and a third slit line L3 in the front-rear direction D3 . These may be spaced apart.

For example, the slit hole 131 of the second slit line L2 and the slit hole 131 of the first slit line L1 are alternately arranged, and the slit hole 131 of the second slit line L2 and The slit holes 131 of the third slit line L3 may be alternately disposed.

That is, in the two adjacent slit lines, the slit hole 131 of the slit line on one side may be disposed across the two slit holes 131 of the slit line on the other side.

The slit hole 131 having a long hole shape can exhibit heat transfer blocking performance of up to 30% or more by elongating the heat transfer path while the long side is formed in a direction perpendicular to the heat transfer path.

Referring to the enlarged part of FIG. 2 , the frame part 100 is formed to protrude into the inside of the frame part 100 along the circumference of the slit hole 131 to reinforce the rigidity of the periphery of the slit hole 131 . It may further include a protruding slit 133 .

The protruding slit 133 is a component for reinforcing the structural rigidity of the frame part 100 by compensating for the cross-sectional loss of the slit hole 131 part.

The protrusion slit 133 is installed over the entire circumferential direction of the slit hole 131 , and may be formed of a ring-shaped member protruding into the frame portion 100 .

Of course, the protruding slit 133 may be installed over a portion of the slit hole 131 in the circumferential direction.

The slit hole 131 and the protruding slit 133 may be simultaneously formed by press-fitting a metal plate such as a steel plate with a punching member.

Specifically, the punching member, whose cross section increases from the tip to the rear, press-fits the metal plate to form the slit hole 131 , and bends the metal plate existing in the portion corresponding to the slit hole 131 to close the slit hole 131 . It may be formed as a protruding slit 133 .

The protruding slit 133 may be formed to be bent perpendicularly or curvedly to a steel plate as a base material.

2 and 4 , the frame unit 100 may include a pair of front frames 110 , a pair of side frames 130 , and a rear frame 150 .

The pair of front frames 110 may be disposed to be spaced apart in the width direction D2 with an insertion space I into which the elastic fixing part 200 is inserted.

The insertion space I is disposed between the pair of front frames 110 in the width direction D2 and may be formed to extend in the height direction.

A pair of side frames 130 are formed to extend rearwardly from an end of the front frame 110 in the width direction D2, respectively, and a plurality of slit lines may be formed.

In the side frame 130 , the slit holes 131 of adjacent slit lines disposed to be spaced apart from each other in the front-rear direction may be alternately disposed and the heat transfer path in the direction of the structure W may be lengthened.

In the frame structure of the present invention, a pair of side frames 130 are formed to extend in the front-rear direction, and occupy most of the heat transfer path in the direction of the structure W, such as a building.

Accordingly, in the frame structure of the present invention, a plurality of slit lines are formed on a pair of side frames 130 extending in the front-rear direction D3, and the side frames 130 are spaced apart from the adjacent slit lines in the front-rear direction. As the slit holes 131 are arranged alternately with each other, the heat transfer path in the direction of the structure W is lengthened, thereby greatly improving the heat transfer barrier properties in the direction of the structure W, such as a building.

The rear frame 150 may connect between the pair of side frames 130 .

2 and 4 , the front frame 110 may include a front plate 111 and a support plate 113 .

The front plate 111 may be formed in front of the side frame 130 and extend in the insertion space (I) direction.

The support plate 113 is formed to extend backward to cross the front plate 111 , and the fixing block 210 of the elastic fixing part 200 may be contacted and supported.

3 and 4 , the elastic fixing part 200 may include a fixing block 210 , an elastic member 230 , and a fixing hardware 250 .

The fixing block 210 may be disposed in the installation space S inside the frame part 100 .

The fixing block 210 is inserted through the insertion space (I) and is to be temporarily fixed to the inner surface of the frame part 100 through the elastic force provided by the elastic member 230 in a state in which it is rotated and disposed in the installation space (S). can

The elastic member 230 is installed on the fixing block 210 , and while in contact with the inner surface of the frame part 100 , the fixing block 210 may be temporarily fixed to the inner surface of the frame part 100 through an elastic force.

The fixing hardware 250 may extend forward from the fixing block 210 and form an installation part of the support object T.

One end of the fixing hardware 250 is fixed to the fixing block 210 , and may be formed to extend to the outside of the frame part 100 via the insertion space I of the frame part 100 .

For example, the support object (T) installed on the fixing hardware 250 may be a panel support for fixing the exterior panel (P). An exterior panel (P) forming the outer surface of the building may be installed in the panel supporting hardware.

4 and 5, the process of installing the elastic fixing part 200 to the frame part 100 will be briefly described as follows.

First, referring to FIG. 4 , the elastic fixing part 200 may be inserted into the installation space S of the frame part 100 through the insertion space I. At this time, the fixing block 210 may be inserted through the insertion space (I) in a state in which the long side is arranged in the longitudinal direction.

Next, referring to FIGS. 4 and 5 ( a ), the elastic member 230 may be compressively deformed while in contact with the rear frame 150 of the frame part 100 .

Next, in a state in which the elastic fixing part 200 is being pushed in the rear frame 150 direction, the elastic fixing part 200 is rotated 180 degrees on the insertion space I to turn the long side of the fixing block 210 in the transverse direction. can be placed

Next, referring to FIG. 5B , when the force pushing the elastic fixing part 200 toward the rear frame 150 is removed, the compressive force provided to the elastic member 230 is released while the fixing block 210 is removed. The elastic fixing part 200 may be temporarily fixed to the frame part 100 while moving in the direction of the front frame 110 of the frame part 100 and being in close contact with it.

Thereafter, the elastic fixing part 200 can be firmly fixed to the frame part 100 by installing the fastening part 300 composed of a nut member, which will be described later, on the fixing hardware 250 .

Referring to FIG. 3 , the fixed block 210 may include a block body 211 and a pair of contact blocks 215 .

The block body may have an elastic member 230 installed at the rear thereof.

A pair of contact blocks 215 may be formed to protrude forward from both ends of the block body 211 in the width direction D2 , respectively, and may be supported in contact with the front frame 110 of the frame unit 100 .

For example, the block body 211 may be in contact with the support plate 113 of the front frame 110 , or the contact block 215 may be in contact with the front plate 111 of the front frame 110 .

As another example, the block body 211 may be in contact with the support plate 113 of the front frame 110 , and the contact block 215 may be in contact with the front plate 111 of the front frame 110 .

In this case, as the block body 211 and the pair of contact blocks 215 come into contact with the front frame 110 of the frame part 100 , respectively, the elastic fixing plate part can be more stably fixed to the frame part 100 . there is

The contact block 215 may be configured in a shape in which the cross section of the front frame 110 increases toward the front so that the contact area with the front plate 111 is large.

For example, the contact block 215 may have a cross-section of a trapezoidal shape in which the long side is disposed in the front.

Referring to FIGS. 3 and 5 , a support groove 212 into which one side of the front frame 110 of the frame part 100 is inserted may be formed in the front of the block body 211 .

The support grooves 212 are formed in front of the block body 211 , and support grooves 212 may be formed on both sides of the block body 211 , respectively.

The block body 211 may have support grooves 212 formed on both sides in the width direction D2, respectively, and a plurality of support grooves 212 may be spaced apart from each other on one side in the width direction D2.

By inserting the support plate 113 of the front frame 110 into the support groove 212 formed in the block body 211 , the elastic fixing part 200 is fixed to the frame part 100 by a fastening part 300 to be described later. In this case, it is possible to prevent the nut loosening of the fastening unit 300 due to vibration factors such as wind.

In addition, since the support plate 113 of the front frame 110 is inserted into the support groove 212 formed in the block body 211 , the elastic fixing part 200 can be more stably fixed to the frame part 100 .

Referring to FIG. 5 , the elastic member 230 may include a leaf spring 231 in elastic contact with the inner surface of the rear frame 150 of the frame part 100 .

The plate spring 231 may be configured by bending a metal plate such as a steel plate, and both ends of the plate spring 231 may be joined to the rear of the fixing block 210 .

In a state in which the elastic fixing part 200 is installed in the frame part 100, the protruding part of the central part of the leaf spring 231 is in contact with the rear frame 150, and the fixing block 210 is the front frame 110. The elastic fixing part 200 may be temporarily fixed to the frame part 100 while in contact with it.

The leaf spring 231 is a contact protrusion section curvedly protruding in the direction of the rear frame 150 of the frame portion 100 in the central region in the width direction D2 and the fixing block 210 in the end region in the width direction D2. It may include a pair of internal entry sections.

The contact protrusion section is formed in the central region in the width direction D2 of the leaf spring 231 , and may protrude curvedly in the direction of the rear frame 150 of the frame part 100 .

The inner entrance section is formed in both end regions in the width direction D2 of the leaf spring 231, respectively, and when the contact protrusion section comes into contact with the inner surface of the rear frame 150, the inner entrance section is more smoothly in the direction of the fixed block 210 As it approaches, it is possible to facilitate the deformation of the leaf spring 231 .

The inner inlet section may be formed between a portion where the leaf spring 231 is joined to the fixing block 210 and the contact protrusion section.

Referring to FIG. 6 , the elastic member 230 may include a coil spring 235 that is in elastic contact with the inner surface of the rear frame 150 of the frame unit 100 .

The coil spring 235 may be installed at the rear of the fixing block 210 .

A plurality of coil springs 235 may be installed at the rear of the fixing block 210 to be spaced apart from each other. For example, two coil springs 235 may be installed to be spaced apart from the rear of the fixing block 210 .

Referring to FIG. 7 , the elastic member 230 may further include a ground plate 237 installed on the coil spring 235 and in contact with the inner surface of the rear frame 150 of the frame unit 100 .

A plurality of coil springs 235 may be integrally connected to the ground plate 237 , and the plurality of coil springs 235 may be fixed to the fixing block 210 by being spaced apart from each other in the width direction D2 .

The ground plate 237 is in contact with the inner surface of the rear frame 150 through the elastic force provided by the plurality of coil springs 235 to temporarily fix the fixing block 210 to the front frame 110 of the frame unit 100 . can

5 to 7 , the frame structure may further include a fastening part 300 installed on the fixing hardware 250 to fix the elastic fixing part 200 to the frame part 100 .

The fastening part 300 is composed of a nut member, etc., and is fixed to the fixing hardware 250 composed of a bolt member to firmly fix the elastic fixing part 200 to the frame part 100 .

Although the embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and various modifications and variations are possible within the scope without departing from the technical spirit of the present invention described in the claims. It will be apparent to those of ordinary skill in the art.

100: frame part 110: front frame
111: front plate 113: support plate
130: side frame 131: slit hole
133: protrusion slit 150: rear frame
200: elastic fixed part 210: fixed block
211: block body 212: support groove
215: contact block 230: elastic member
231: leaf spring 235: coil spring
237: ground plate 250: fixed hardware
300: fastening part D1: longitudinal direction
D2: Width direction D3: Front-back direction
I: insertion space L1: first slit line
L2: second slit line L3: third slit line
P: Exterior panel S: Installation space
T: support object W: structure

Claims (12)

a frame part installed in a structure to support a load; and
The frame structure including a; is inserted into the frame portion, the elastic fixing portion temporarily fixed to the inner surface of the frame portion through an elastic force.
According to claim 1, wherein the frame portion,
A frame structure in which a plurality of slit lines for increasing a heat transfer path in the direction of the structure are formed to be spaced apart, and slit holes of the adjacent slit lines are alternately disposed.
According to claim 2, wherein the frame portion,
The frame structure further comprising a; protruding slit formed to protrude into the frame portion along the circumference of the slit hole to reinforce the rigidity of the periphery of the slit hole.
According to claim 2, wherein the frame portion,
a pair of front frames spaced apart from each other in the width direction with an insertion space into which the elastic fixing part is inserted;
a pair of side frames each extending rearwardly from the widthwise end of the front frame and having the plurality of slit lines; and
A frame structure comprising a; rear frame connecting between the pair of side frames.
According to claim 4, wherein the front frame,
a front plate formed in front of the side frame and extending in the insertion space direction; and
A frame structure comprising a; a support plate extending rearward to cross the front plate and supporting the fixing block of the elastic fixing part in contact.
According to claim 1, wherein the elastic fixing portion,
a fixed block disposed in the installation space inside the frame part;
an elastic member installed on the fixing block and temporarily fixing the fixing block to the inner surface of the frame portion through an elastic force while in contact with the inner surface of the frame portion; and
A frame structure comprising a; fixed hardware extending forward from the fixed block and forming an installation part of the support object.
The method of claim 6, wherein the fixed block,
a block body in which the elastic member is installed at the rear; and
A frame structure comprising a; a pair of contact blocks respectively protruding forward from both ends of the block body in the width direction and supported in contact with the front frame of the frame part.
8. The method of claim 7,
A frame structure in which a support groove into which one side of the front frame of the frame part is inserted is formed in the front of the block body.
The method of claim 6, wherein the elastic member,
A frame structure comprising a leaf spring in elastic contact with the inner surface of the rear frame of the frame part.
The method of claim 6, wherein the elastic member,
A frame structure comprising a coil spring in elastic contact with the inner surface of the rear frame of the frame part.
The method of claim 10, wherein the elastic member,
The frame structure further comprising; a ground plate installed on the coil spring and in contact with the inner surface of the rear frame of the frame part.
7. The method of claim 6,
The frame structure further comprising a; it is installed on the fixing hardware, the fastening portion for main fixing the elastic fixing portion to the frame portion.

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