CN114000608A - Cold-formed thin-wall light steel keel building structure - Google Patents

Abstract

The utility model relates to a thin wall light steel keel building structure of clod wash belongs to building structure technical field, and it includes the wall body, the wall body includes light steel keel frame and heat preservation, the heat preservation is including heat preservation inlayer and heat preservation skin, the heat preservation inlayer sets up at light steel keel frame inboard, the heat preservation skin sets up in the light steel keel frame outside, the heat preservation skin includes the mounting panel, be equipped with a plurality of connecting rods between mounting panel and the light steel keel frame, the pouring has the heat preservation filler between mounting panel and the light steel keel frame, the heat preservation inlayer includes two cardboards, two the cardboard links to each other with light steel keel frame, two be equipped with the heated board between the cardboard. The application has the effects of heat preservation and good living experience.

Description

Cold-formed thin-wall light steel keel building structure

Technical Field

The application relates to the technical field of building structures, in particular to a cold-formed thin-wall light steel keel building structure body.

Background

At present, the light steel keel building structure is a new building structure and is widely applied to places such as factories, office buildings, old building reconstruction, ceilings and the like. The light steel keel has a main supporting function, when the light steel keel support is installed on a building structure body, the light steel keel support is installed, then the accessories are installed on the light steel keel support, the light steel keel building structure body can be installed, and the installation time can be effectively saved.

Chinese patent that relevant bulletin number is CN211229007U discloses an intelligence wall body building structure, including the wall body, the wall body outside is provided with the frame, the spout has all been seted up at both ends about the frame inboard, two spout bilateral symmetry set up, the wall body lower extreme is connected with the waste liquid collecting box, the waste liquid collecting box is located between the frame, and waste liquid collecting box right-hand member downside is connected with first connecting pipe, the one end of first connecting pipe is connected with the water tank, the water tank is located frame right-hand member downside, the inboard left end of water tank is provided with first filter, and the water tank upper end is provided with the second filter, level sensor is installed to the inboard right-hand member of water tank, level sensor is located water tank right side upper end.

To the correlation technique among the above-mentioned, the inventor thinks that when using above-mentioned building structure as the outer wall, above-mentioned building structure keeps warm the effect relatively poor, and when the weather is comparatively cold, leads to the resident to live and experiences relatively poorly.

Disclosure of Invention

In order to improve the living experience of residents, the application provides a cold-formed thin-wall light steel keel building structure.

The application provides a cold-formed thin wall light gauge steel building structure adopts following technical scheme:

the utility model provides a cold-formed thin wall light gauge steel building structure, includes the wall body, the wall body includes light gauge steel skeleton and heat preservation, the heat preservation includes heat preservation inlayer and heat preservation skin, the heat preservation inlayer sets up at light gauge steel skeleton inboard, the heat preservation skin sets up in the light gauge steel skeleton outside, the heat preservation skin includes the mounting panel, be equipped with a plurality of connecting rods between mounting panel and the light gauge steel skeleton, the pouring has the heat preservation to pack between mounting panel and the light gauge steel skeleton, the heat preservation inlayer includes two cardboards, two the cardboard links to each other with the light gauge steel skeleton, two be equipped with the heated board between the cardboard.

Through adopting the above technical scheme, it is convenient for install heat preservation inlayer and heat preservation skin to set up light steel keel frame, during installation heat preservation inlayer, with cardboard and light steel keel frame welding together earlier, with the heated board joint between cardboard and light steel keel frame again, can accomplish the installation to heat preservation inlayer, during installation heat preservation skin, link together with mounting panel and light steel keel frame respectively earlier the both ends of connecting rod, pour the heat preservation packing between light steel keel frame and mounting panel again, treat that the heat preservation packs dry back, can accomplish the outer installation to the heat preservation, the heat preservation inlayer, light steel keel frame and the outer cooperation of heat preservation, can make this structure have better heat preservation effect, when the weather is comparatively cold, resident's experience of living has been guaranteed.

Optionally, one surface of the mounting plate, which is close to the light steel keel frame, is wavy, one side of the mounting plate, which is close to the light steel keel frame, is provided with a plurality of convex rods, and one ends, which are far away from the mounting plate, of the convex rods are connected with the light steel keel frame.

Through adopting above-mentioned technical scheme, the mounting panel sets up the wavy surface, has improved the area of contact between heat preservation filler and the mounting panel, and then improves the bonding intensity between heat preservation filler and the mounting panel, has reduced the problem that drops between heat preservation filler and the mounting panel, and evagination pole one end links to each other with the mounting panel, and one end links to each other with light steel keel frame, sets up the evagination pole and has improved the steadiness of being connected between mounting panel and the light steel keel frame.

Optionally, the light steel keel frame comprises a support frame and a mounting frame, the mounting frame is arranged in the support frame, an outer protruding piece is arranged at a position, close to the mounting frame, of the outer protruding rod, and a mounting hole is formed in the outer protruding piece.

Through adopting above-mentioned technical scheme, support frame and mounting bracket have constituted light steel keel frame, and the evagination pole sets up outer lug to set up the mounting hole on outer lug, be convenient for through the mounting hole, link together outer lug and mounting bracket.

Optionally, a sliding plate is arranged on the mounting frame, the sliding plate is connected with a plurality of sliding blocks in a sliding mode, connecting strips are arranged on the sliding blocks, and the connecting strips are matched with the mounting holes.

Through adopting above-mentioned technical scheme, when needing to link together mounting bracket and evagination piece, slider slides on the slide, and the connecting strip slides with the slider together, when the connecting strip is just to the time with the slider, penetrates the connecting strip in the mounting hole, and crooked connecting strip again can be in the same place connecting strip and evagination piece installation.

Optionally, the slide has been seted up the spout, the slider is equipped with the draw runner with spout looks adaptation, the one end rotation that the slider was kept away from to the draw runner is connected with the pulley, the cladding of the pulley outside has the coating.

Through adopting above-mentioned technical scheme, when the slider slides for the slide, the draw runner slides in the spout, draw runner and spout cooperation, can make the gliding more steady smooth and easy of slider, can make and be difficult for droing between slider and the slide, the draw runner both ends set up the pulley, when the draw runner slides in the spout, the pulley can further improve the gliding smooth and easy nature between draw runner and the slide, the pulley outside sets up the coating and has reduced the friction between pulley and the slide, the problem that has great noise when having reduced the pulley simultaneously.

Optionally, the slider both ends are rotated and are connected with the fixture block, the one end that the slider was kept away from to the fixture block is equipped with the joint spare, the slide be equipped with the joint arch of joint spare looks adaptation.

Through adopting above-mentioned technical scheme, slider slides on the slide, makes the slider slide to needs the position after, rotates the fixture block, makes joint spare and the protruding inconsistent of joint, and after joint spare and the protruding counterbalance of joint, the fixture block continues to rotate, makes joint spare and the protruding joint of joint together, can accomplish spacing to the slider, has reduced the slider problem of gliding at will on the slide.

Optionally, one side of the support frame, which is close to the heat-insulating plate, is provided with an elastic limiting plate, the limiting plate is provided with a plurality of elastic limiting pieces, and the heat-insulating plate is provided with a limiting groove matched with the limiting pieces.

Through adopting above-mentioned technical scheme, when installing heated board and support frame together, can insert spacing piece earlier the spacing inslot, limiting plate one end links to each other with the support frame, and one end links to each other with the heated board, sets up limiting plate and spacing piece and has improved the joint strength between support frame and the heated board.

Optionally, an installation cavity is formed in the support frame, a rotating shaft is connected to the support frame in the installation cavity in a rotating mode, the limiting plate is wound on the rotating shaft, and one end, close to the rotating shaft, of the limiting plate is fixedly connected with the rotating shaft.

Through adopting above-mentioned technical scheme, set up the installation cavity in the support frame, and set up the axis of rotation in the installation cavity of support frame, be convenient for install the limiting plate, when installing the heated board without thickness, the axis of rotation is rotated to the accessible, adjusts the length of limiting plate, and then is convenient for carry out erection joint to the heated board of different thickness.

Optionally, the limiting piece is provided with a plurality of protrusions, one end, away from the limiting plate, of the limiting piece is provided with a limiting block, the clamping plate is provided with a separation blade, and the inner side of the separation blade is inconsistent with the insulation board.

Through adopting above-mentioned technical scheme, when inserting spacing piece spacing inslot, it is protruding inconsistent with the heated board, set up the arch and increased the area of contact between heated board and the spacing piece, make spacing piece be difficult for coming off from spacing inslot, insert spacing piece behind the spacing groove, the stopper can further improve the joint strength between spacing piece and the heated board, when setting up the heated board between two cardboards, the separation blade can improve the steadiness to the installation of heated board.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the heat preservation effect of the building structure body is improved by arranging the heat preservation inner layer and the heat preservation outer layer, and the living experience of residents is guaranteed when the weather is cold;

2. this application is convenient for carry out erection joint to heat preservation inlayer and heat preservation skin through setting up light steel keel frame.

Drawings

FIG. 1 is a schematic structural view of a cold-formed thin wall light gauge steel building structure according to the present application;

FIG. 2 is a schematic diagram of the structure of a highlighted connection in an embodiment of the present application;

FIG. 3 is a schematic cross-sectional view taken along line A-A of FIG. 1;

FIG. 4 is a schematic structural diagram of a highlighted light steel keel frame in the embodiment of the application;

FIG. 5 is an enlarged schematic view of the structure B of FIG. 4;

FIG. 6 is a schematic view showing the structure of a highlighted pulley in the embodiment of the present application.

Description of reference numerals: 1. a wall body; 11. a light steel keel frame; 111. a support frame; 112. a mounting frame; 12. a heat-insulating layer; 121. a heat-insulating inner layer; 1211. clamping a plate; 1212. a baffle plate; 1213. a thermal insulation board; 1111. installing a cavity; 1112. a rotating shaft; 1214. a limiting plate; 1215. a limiting sheet; 1216. a limiting groove; 1217. a protrusion; 1218. a limiting block; 122. an outer heat-insulating layer; 1221. mounting a plate; 1222. heat preservation filler; 13. a connecting mechanism; 131. a connecting rod; 132. an outer protruding rod; 133. a slide plate; 1331. a slider; 1332. a connecting strip; 1321. an outer tab; 1322. mounting holes; 1333. a chute; 1334. a slide bar; 1335. a pulley; 1336. a coating layer; 2. a clamping block; 21. a clamping piece; 22. and clamping the protrusion.

Detailed Description

The present application is described in further detail below with reference to figures 1-6.

The embodiment of the application discloses a cold-formed thin-wall light steel keel building structure body.

Referring to fig. 1 and 2, a cold-formed thin-wall light steel keel building structure comprises a wall 1, the wall 1 comprises a light steel keel frame 11, a heat preservation layer 12 and a connecting mechanism 13, the heat preservation layer 12 comprises a heat preservation inner layer 121 and a heat preservation outer layer 122, the light steel keel frame 11 is arranged between the heat preservation inner layer 121 and the heat preservation outer layer 122, the heat preservation inner layer 121 is arranged at the inner side of the light steel keel frame 11, the heat preservation outer layer 122 is arranged at the outer side of the light steel keel frame 11, the light steel keel frame 11 plays a role in installing and connecting the heat preservation inner layer 121 and the heat preservation outer layer 122, the connecting mechanism 13 is arranged between the heat preservation inner layer 121 and the light steel keel frame 11, the connecting mechanism 13 is arranged to facilitate the installation of the heat preservation inner layer 121 and the light steel keel frame 11 together, the heat preservation inner layer 121, the light steel keel frame 11 and the heat preservation outer layer 122 are matched, the structure has good heat preservation effect, and ensures the living experience of the residents when the weather is cold.

Referring to fig. 1 and 3, the light steel keel frame 11 includes a support frame 111 and a mounting frame 112, the mounting frame 112 is disposed in the support frame 111, the heat insulation inner layer 121 includes two clamping plates 1211 and a heat insulation plate 1213, the clamping plates 1211 are fixedly welded to the support frame 111, the heat insulation plate 1213 is disposed between the two clamping plates 1211, and the clamping plates 1211 can be used for mounting and connecting the mounting plate 1221. Cardboard 1211 fixedly connected with separation blade 1212, separation blade 1212 and cardboard 1211 set up perpendicularly mutually, and separation blade 1212 inboard offsets with heated board 1213, sets up separation blade 1212 and has further improved the steadiness to the installation of heated board 1213.

Referring to fig. 1 and 3, a mounting cavity 1111 is formed inside the upper end and the lower end of the support frame 111, an opening is formed at one end of the support frame 111 close to the thermal insulation board 1213, a rotating shaft 1112 is rotatably connected to the support frame 111 in the mounting cavity 1111, the rotating shaft 1112 is fixedly connected to an elastic limiting board 1214, the limiting board 1214 can extend out of the opening, a plurality of elastic limiting pieces 1215 are arranged on the limiting board 1214, a limiting groove 1216 matched with the limiting pieces 1215 is formed on the thermal insulation board 1213, when the thermal insulation board 1213 is installed, after the thermal insulation board 1213 is clamped between the two clamping plates 1211, the limiting plate 1214 is pulled out from the installation cavity 1111, after the limiting plate 1214 is pulled out for a required length, the limit plate 1214 and the supporting frame 111 are fixedly bonded, the limit piece 1215 on the limit plate 1214 is inserted into the limit groove 1216, the installation connection between the support frame 111 and the heat insulation plate 1213 can be realized, and the connection tightness between the support frame 111 and the heat insulation plate 1213 is improved.

Referring to fig. 3, the limiting plate 1214 is wound on the rotating shaft 1112, and when the limiting plate 1214 is needed to be used for installing and connecting the heat-insulating plates 1213, the heat-insulating plates 1213 with different lengths can be pulled out according to the thickness of the heat-insulating plates 1213, so that the application range of the installation and connection of the heat-insulating plates 1213 with different thicknesses is enlarged.

Referring to fig. 3, the limiting piece 1215 is provided with a plurality of protrusions 1217, one end of the limiting piece 1215, which is far away from the limiting plate 1214, is provided with a limiting block 1218, when the limiting piece 1215 is inserted into the limiting groove 1216, the protrusions 1217 can increase the friction between the limiting piece 1215 and the heat-insulating plate 1213, so that the limiting piece 1215 is not easy to slide out of the limiting groove 1216, the limiting block 1218 is arranged at the end of the limiting piece 1215, and the connection tightness between the limiting piece 1215 and the heat-insulating plate 1213 is further improved.

Referring to fig. 1 and 2, the heat-insulating outer layer 122 includes a mounting plate 1221 and a heat-insulating filler 1222, the connection mechanism 13 is disposed between the mounting plate 1221 and the light steel skeleton 11, the heat-insulating filler 1222 is disposed between the mounting plate 1221 and the light steel skeleton 11, the connection mechanism 13 is disposed in the heat-insulating filler 1222, and the connection mechanism 13 facilitates mounting of the mounting plate 1221 and the light steel skeleton 11 together, and further facilitates pouring of the heat-insulating filler 1222 between the mounting plate 1221 and the light steel skeleton 11.

Referring to fig. 1, one surface of the mounting plate 1221, which is close to the light steel keel frame 11, is wavy, and the mounting plate 1221 is wavy, so that the contact area between the mounting plate 1221 and the thermal insulation filler 1222 is increased, and the adhesion tightness between the mounting plate 1221 and the thermal insulation filler 1222 is further improved.

Referring to fig. 2 and 4, the connecting mechanism 13 includes a connecting rod 131, an outer convex rod 132 and a sliding plate 133, the connecting rod 131 is disposed between the mounting plate 1221 and the support bracket 111, ends of the connecting rod 131 are welded to the mounting plate 1221 and the support bracket 111, respectively, and the connecting rod 131 is disposed to improve the tightness of connection between the mounting plate 1221 and the support bracket 111. The sliding plate 133 is fixedly installed on one surface of the mounting frame 112 close to the mounting plate 1221, one end of the outer convex rod 132 is fixedly welded with the mounting plate 1221, the other end of the outer convex rod 132 is connected with the sliding plate 133, and the arrangement of the outer convex rod 132 improves the connection tightness between the mounting plate 1221 and the mounting frame 112.

Referring to fig. 4 and 5, the sliding plate 133 is slidably connected with a plurality of sliding blocks 1331, the sliding blocks 1331 are provided with connecting strips 1332, the connecting strips 1332 are made of a ductile metal material, the outer convex pieces 1321 are arranged at positions, close to the mounting frame 112, of the outer convex rods 132, the outer convex pieces 1321 are provided with mounting holes 1322, the mounting holes 1322 are matched with the connecting strips 1332, the sliding blocks 1331 are slid on the sliding plate 133, the sliding blocks 1331 are opposite to the outer convex pieces 1321, the connecting strips 1332 are bent after passing through the mounting holes 1322, the outer convex pieces 1321 and the sliding blocks 1331 can be connected together, and therefore the connection between the mounting plate 1221 and the mounting frame 112 is achieved.

Referring to fig. 5 and 6, the sliding plate 133 is provided with a sliding groove 1333, the sliding block 1331 is provided with a sliding strip 1334 matched with the sliding groove 1333, when the sliding plate 133 slides the sliding block 1331, the sliding strip 1334 slides in the sliding groove 1333, and the sliding strip 1334 is matched with the sliding groove 1333, so that the sliding stability between the sliding plate 133 and the sliding block 1331 is ensured.

Referring to fig. 5 and 6, a pulley 1335 is rotatably connected to an end of the slide bar 1334 away from the slide block 1331, and when the slide bar 1334 is slid in the slide groove 1333, the pulley 1335 rotates to limit the slide bar 1334 and improve the smoothness of the sliding between the slide plate 133 and the slide block 1331. The outside of the pulley 1335 is coated with a coating layer 1336, and when the pulley 1335 rotates in the chute 1333, the coating layer 1336 can play a role of buffering, so that the friction between the pulley 1335 and the sliding plate 133 is reduced, and the noise generated when the pulley 1335 rolls is further reduced.

Referring to fig. 5, the two ends of the sliding block 1331 are rotatably connected with the clamping blocks 2, one end of each clamping block 2, which is far away from the sliding block 1331, is provided with the clamping piece 21, the sliding plate 133 is provided with the clamping protrusion 22 matched with the clamping piece 21, after the sliding block 1331 is slid to a required position on the sliding plate 133, the clamping blocks 2 are rotated, the clamping pieces 21 are clamped with the clamping protrusion 22, so that the sliding plate 133 is connected with the sliding block 1331, and the sliding block 1331 is conveniently installed and connected with the outer convex piece 1321.

The implementation principle of the cold-formed thin-wall light steel keel building structure body in the embodiment of the application is as follows: after installing this wall body 1, heated board 1213 and heat preservation filler 1222 can play better heat preservation effect, reduce indoor thermal loss, and light steel keel frame 11 plays the supporting role, is convenient for carry out the joint support to heated board 1213 and heat preservation filler 1222.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. A cold-formed thin-wall light steel keel building structure is characterized in that: the wall comprises a wall body (1), the wall body (1) comprises a light steel keel frame (11) and a heat preservation layer (12), the heat preservation layer (12) comprises a heat preservation inner layer (121) and a heat preservation outer layer (122), the heat preservation inner layer (121) is arranged on the inner side of the light steel keel frame (11), the heat preservation outer layer (122) is arranged on the outer side of the light steel keel frame (11), the heat preservation outer layer (122) comprises a mounting plate (1221), a plurality of connecting rods (131) are arranged between the mounting plate (1221) and the light steel keel frame (11), heat preservation filler (1222) is poured between the mounting plate (1221) and the light steel keel frame (11), the heat preservation inner layer (121) comprises two clamping plates (1211), the clamping plates (1211) are connected with the light steel keel frame (11), and a heat preservation plate (1213) is arranged between the clamping plates (1211).

2. The cold-formed thin-walled light gauge steel building structure of claim 1, wherein: the one side that mounting panel (1221) is close to light steel keel frame (11) is the wave, one side that mounting panel (1221) is close to light steel keel frame (11) is equipped with a plurality of protruding poles (132), the one end that mounting panel (1221) was kept away from in protruding pole (132) links to each other with light steel keel frame (11).

3. A cold-formed thin wall light gauge steel building structure according to claim 2, characterized in that: light steel keel frame (11) include support frame (111) and mounting bracket (112), mounting bracket (112) set up in support frame (111), protruding pole (132) are close to mounting bracket (112) department and are equipped with outer lug (1321), mounting hole (1322) have been seted up in outer lug (1321).

4. A cold-formed thin wall light gauge steel building structure according to claim 3, characterized in that: be equipped with slide (133) on mounting bracket (112), slide (133) sliding connection has a plurality of sliders (1331), be equipped with connecting strip (1332) on slider (1331), connecting strip (1332) and mounting hole (1322) looks adaptation.

5. The cold-formed thin wall light gauge steel building structure of claim 4, wherein: the sliding plate (133) is provided with a sliding groove (1333), the sliding block (1331) is provided with a sliding strip (1334) matched with the sliding groove (1333), one end, far away from the sliding block (1331), of the sliding strip (1334) is rotatably connected with a pulley (1335), and the outer side of the pulley (1335) is coated with a coating layer (1336).

6. The cold-formed thin wall light gauge steel building structure of claim 4, wherein: slider (1331) both ends are rotated and are connected with fixture block (2), the one end that slider (1331) was kept away from in fixture block (2) is equipped with joint spare (21), slide (133) are equipped with joint arch (22) with joint spare (21) looks adaptation.

7. A cold-formed thin wall light gauge steel building structure according to claim 3, characterized in that: one side that support frame (111) are close to heated board (1213) is equipped with elastic limiting plate (1214), limiting plate (1214) are equipped with a plurality of elastic spacing pieces (1215), heated board (1213) are seted up with spacing groove (1216) of spacing piece (1215) looks adaptation.

8. The cold-formed thin-walled light gauge steel building structure of claim 7, wherein: install cavity (1111) has been seted up in support frame (111), support frame (111) are connected with axis of rotation (1112) at installation cavity (1111) internal rotation, limiting plate (1214) twine and establish on axis of rotation (1112), limiting plate (1214) are close to the one end and axis of rotation (1112) fixed connection of axis of rotation (1112).

9. The cold-formed thin-walled light gauge steel building structure of claim 7, wherein: the limiting piece (1215) is provided with a plurality of protrusions (1217), one end, away from the limiting plate (1214), of the limiting piece (1215) is provided with a limiting block (1218), the clamping plate (1211) is provided with a blocking piece (1212), and the inner side of the blocking piece (1212) is abutted to the heat insulation plate (1213).

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