CN213296705U - Building insulation structure - Google Patents

Abstract

The utility model relates to a building insulation construction, including first insulation board, first insulation board laminates in the wall body, the wall body is arranged along its length direction has two guide pillars, the guide pillar is vertical setting, the guide pillar passes through the fastener and connects in the wall body, be equipped with the slide bar between two guide pillars, open the expert in the side of guide pillar perpendicular to slide bar has the groove of sliding, the groove of sliding is seted up along the length direction of guide pillar, the both ends of slide bar slide in the groove of sliding of both sides, the slide bar distributes along vertical direction has a plurality ofly, it has first insulation board to press from both sides tightly between two adjacent slide bars, the both ends of slide bar are equipped with locking Assembly respectively, locking Assembly includes the check lock lever, lock nut, the check lock lever is connected in the slide bar one side that the guide pillar deviates from the wall body is opened has the locking groove that supplies the check lock lever to. This application has the structure that does not destroy the heated board, has reduced the possible effect of heated board fracture.

Description

Building insulation structure

Technical Field

The application relates to the field of buildings, in particular to a building heat-insulating structure.

Background

Building heat preservation is a measure for reducing the indoor heat of a building to be dissipated outdoors, and plays an important role in creating a suitable indoor environment and saving energy. The heat preservation of the building is mainly carried out on the peripheral structure of the building, and heat preservation materials are generally paved on the outer enclosure wall. When the heat insulation material is paved, two ways are mainly used, one way is to sequentially pave a steel wire mesh frame, a leveling layer, heat insulation mortar, grid cloth, putty and decorative paint on the outer enclosure wall, and the other way is to fix the prefabricated heat insulation board on the outer enclosure wall.

Chinese patent with publication number CN206607698U discloses a building insulation board, including the platelike plate body, be equipped with a plurality of hollow position sleeves in the plate body, the position sleeve axis is perpendicular with the plate body, and a plurality of position sleeves are the rectangular array form in the plate body and distribute, and the position sleeve front end is located the middle part of plate body thickness direction, and the rear end is located the plate body trailing flank, and the position sleeve front end is the flaring form, is equipped with the crisscross sign line of violently indulging on the plate body leading flank, and the crossing and coaxial setting of position sleeve of sign line intersect.

Above-mentioned technical scheme, during the installation, operating personnel utilizes the outside to take the connecting nail of baffle to aim at the crossing point position of sign line and nail into the plate body, and the connecting nail penetrates the position sleeve and fixes on the wall, and the connecting nail is connected the plate body on the wall. However, when the connection nail passes the heated board, can cause certain destruction to the structure of heated board, simultaneously, make this department easy fracture.

SUMMERY OF THE UTILITY MODEL

In order not to destroy the structure of heated board, reduced the possibility of heated board fracture, this application provides a building insulation structure.

The application provides a building insulation construction adopts following technical scheme:

a building heat-insulating structure comprises a first heat-insulating plate, wherein the first heat-insulating plate is attached to a wall body, two guide posts are arranged on the wall body along the length direction of the wall body, the guide posts are vertically arranged, the guide posts are connected to a wall body through fasteners, a sliding rod is arranged between the two guide posts, the side surface of the guide post, which is vertical to the sliding rod, is provided with a sliding groove, the sliding groove is arranged along the length direction of the guide post, two ends of the sliding rods respectively slide in the sliding grooves on two sides, a plurality of sliding rods are distributed along the vertical direction, a first heat-preserving plate is clamped between two adjacent sliding rods, two ends of the sliding rod are respectively provided with a locking component, the locking component comprises a locking rod and a locking nut, the locking rod is connected to the sliding rod, a locking groove for the locking rod to slide is formed in one side, away from the wall body, of the guide column, and the locking nut is connected to the locking rod in a threaded mode and tightly pressed on the guide column.

Through adopting above-mentioned technical scheme, during the installation first heat preservation board, operating personnel inserts the groove of sliding with the slide bar of first heat preservation board top earlier, screws up lock nut again and fastens the position of slide bar, then, operating personnel places first heat preservation board on the slide bar of first heat preservation board below, then, adjusts the position of slide bar below first heat preservation board, makes two adjacent slide bars press from both sides tight first heat preservation board, and rethread lock nut locks the slide bar of first heat preservation board below. Through above-mentioned technical scheme when the first insulation board of installation, can not destroy the structure of first insulation board, reduced the possibility of first insulation board fracture, prolonged the life of first insulation board.

Preferably, one side of the sliding rod, which is far away from the wall body, is provided with a limiting groove, and the top surface of the first heat-insulating plate is fixedly connected with a limiting block which slides in the limiting groove.

Through adopting above-mentioned technical scheme, operating personnel when the first heat preservation board of installation, the spacing groove cooperatees with the stopper, provides the location for the installation of first heat preservation board, has improved the installation effectiveness.

Preferably, the limiting block is provided with a limiting hole, the locking groove is internally provided with a fixing hole, and a fixing rod is inserted into the fixing hole and the limiting hole.

Through adopting above-mentioned technical scheme, the fixed rod has fixed the position of first heat preservation board, has improved the stability after the installation of first heat preservation board.

Preferably, one side of each of the two guide pillars, which is far away from the corresponding guide pillar, is fixedly connected with a reinforcing plate, and the reinforcing plates are connected with the wall body through fasteners.

Through adopting above-mentioned technical scheme, setting up of reinforcing plate makes being connected between guide pillar and the wall body more firm, has further promoted the stability of being connected between this application and the wall body.

Preferably, the fixing holes are arranged along the length direction of the locking groove.

Through adopting above-mentioned technical scheme, the setting of a plurality of fixed orifices makes can install the first insulation board of different dimensions between two adjacent poles that slide, has improved the application scope of this application.

Preferably, a second heat-insulating plate is laid between the guide pillars on the two sides and attached to one side, away from the wall body, of the first heat-insulating plate.

Through adopting above-mentioned technical scheme, setting up of second heated board has improved the heat preservation effect of this application.

Preferably, the four corners of the second heat-insulating plate are respectively provided with a clamping assembly, the clamping assembly comprises a mounting seat and an insertion rod, the mounting seat is fixedly connected to the guide pillar, a clamping hole is formed in the mounting seat, the insertion rod slides in the clamping hole, an insertion hole for the insertion rod to insert is formed in the second heat-insulating plate, and an ejection pressure spring is arranged between the insertion rod and the bottom of the clamping hole.

Through adopting above-mentioned technical scheme, operating personnel removes the inserted bar and makes it get into the chucking downthehole, and at this moment, ejecting pressure spring elastic deformation, then, operating personnel installs four apex angles of second heated board in the L type region of four mount pads is laminated respectively, then loosens the inserted bar, and the elastic potential energy release of ejecting pressure spring, this elasticity promote the inserted bar make it insert in the jack, have realized the high-speed joint between second heated board and the mount pad.

Preferably, the mounting seat is provided with a shifting groove, the shifting groove is parallel to and communicated with the clamping hole, and the inserted rod is fixedly connected with a shifting piece sliding in the shifting groove.

Through adopting above-mentioned technical scheme, the plectrum provides the application of force point, simple operation for operating personnel.

To sum up, the application comprises the following beneficial technical effects: when installing first insulation board, can not destroy the structure of first insulation board, reduce the possibility of heated board fracture, prolonged the life of first insulation board.

Drawings

Fig. 1 is a schematic structural diagram for embodying the present application.

Fig. 2 is a schematic structural diagram for showing a connection relationship between the first heat-insulating plate and the slide rod.

Fig. 3 is a schematic structural view for embodying the slide lever.

Fig. 4 is a sectional view for embodying the connection relationship of the mounting seat and the chucking assembly.

Fig. 5 is an enlarged view for embodying a portion a in fig. 4.

Description of reference numerals: 1. a first heat-insulating plate; 101. a wall body; 2. a guide post; 201. mounting a plate; 202. a reinforcing plate; 203. a sliding groove; 204. a locking groove; 2041. a fixing hole; 3. a slide bar; 301. a locking assembly; 3011. a locking lever; 3012. locking the nut; 302. a locking hole; 303. a limiting groove; 304. a limiting block; 3041. a limiting hole; 3042. fixing the rod; 4. a second insulation board; 401. a jack; 5. a clamping assembly; 501. a mounting seat; 5011. a clamping hole; 5012. a groove is poked; 502. inserting a rod; 5021. a shifting sheet; 503. and ejecting the pressure spring.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

The embodiment of the application discloses a building insulation structure. Referring to fig. 1 and 2, a building insulation structure includes a first insulation board 1, a guide pillar 2. Two guide pillars 2 are arranged along the length direction of the wall body 101, and the guide pillars 2 are vertically arranged. The top surface and the bottom surface of the guide pillar 2 are fixedly connected with a mounting plate 201 respectively. The mounting plate 201 is perpendicular to the guide pillar 2 and is attached to the wall 101, and the mounting plate 201 is connected to the wall 101 through expansion bolts.

Referring to fig. 1, the two guide pillars 2 are fixedly connected to a reinforcing plate 202 on the side away from each other, and the reinforcing plate 202 is attached to the wall 101 and connected to the wall 101 through expansion bolts. The reinforcing plate 202 is matched with the mounting plate 201 together, so that the connection stability between the guide pillar 2 and the wall body 101 is improved.

Referring to fig. 2, a sliding rod 3 is arranged between the two guide posts 2, and the sliding rod 3 is a square rod. The guide post 2 is opened with a sliding groove 203 on the side perpendicular to the sliding rod 3, and the sliding groove 203 is opened along the length direction of the guide post 2. The two ends of the sliding rod 3 slide in the sliding grooves 203 on the two sides respectively. The sliding rods 3 are distributed in a plurality along the vertical direction, and the first heat preservation plate 1 is clamped between two adjacent sliding rods 3. The first heat preservation board 1 between two slide rods 3 is attached to the wall body 101, and a plurality of heat preservation boards are distributed along the length direction of the slide rods 3.

Referring to fig. 2 and 3, the two ends of the slide rod 3 are respectively provided with a locking assembly 301, and the locking assembly 301 comprises a locking rod 3011 and a locking nut 3012. Two ends of the sliding rod 3 are provided with locking holes 302 for the locking rod 3011 to pass through, and one end of the locking rod 3011 is connected in the locking holes 302 by screw threads. One side of the guide pillar 2, which is far away from the wall 101, is provided with a locking groove 204 for the locking rod 3011 to slide, the locking groove 204 is communicated with the sliding groove 203 and is arranged along the length direction of the guide pillar 2, and the locking nut 3012 is connected to the locking rod 3011 through threads and is pressed on the guide pillar 2.

Referring to fig. 2, during installation, an operator connects the guide post 2 with the wall 101 through an expansion bolt, inserts the sliding rod 3 into the sliding groove 203, and then inserts the locking rod 3011 into the sliding rod 3 through the locking groove 204. Next, the operator moves the sliding rod 3 in the vertical direction, adjusts the sliding rod 3 to the position where the adjacent sliding rod 3 clamps the first heat insulating plate 1, and then connects the lock nut 3012 to the lock rod 3011 to press the guide post 2, thereby fixing the sliding rod 3.

Referring to fig. 2, one side of the sliding rod 3 departing from the wall 101 is provided with a limiting groove 303, the top surface of the first heat preservation plate 1 is fixedly connected with a limiting block 304, and the limiting block 304 slides in the limiting groove 303. When the limiting block is installed, an operator attaches one side of the limiting block 304, which faces the wall 101, to the bottom of the limiting groove 303. At this time, the limiting groove 303 is matched with the limiting block 304, so that positioning is provided for the installation of the first heat-insulating plate 1, and the installation efficiency of the first heat-insulating plate 1 is improved.

Referring to fig. 2, a limiting hole 3041 is formed on the limiting block 304, and a fixing hole 2041 is formed in the locking groove 204. When the first heat preservation plate 1 is installed between two adjacent sliding rods 3, the fixing hole 2041 is communicated with the limiting hole 3041 and penetrates through the fixing rod 3042, the first heat preservation plate 1 is fixed between the two sliding rods 3 through the fixing rod 3042, and the installation stability of the first heat preservation plate 1 is improved. In addition, in order to be suitable for the first heat preservation plates 1 with different dimensions, a plurality of fixing holes 2041 are formed along the length direction of the locking groove 204.

Referring to fig. 1 and 4, one side of first heated board 1 that deviates from wall 101 is equipped with second heated board 4, and the setting of second heated board 4 has further strengthened the heat preservation effect to wall 101. The second heat-insulating plate 4 is attached to the first heat-insulating plate 1 and is located between the two guide pillars 2. Four corners of second heated board 4 are equipped with chucking subassembly 5 respectively, and chucking subassembly 5 has realized operating personnel to the quick installation of second heated board 4, the simple operation. In addition, the clamping assembly 5 does not damage the second heat-insulating plate 4, and the possibility of fracture and failure of the second heat-insulating plate 4 is reduced.

Referring to fig. 5, the clamping assembly 5 includes four mounting seats 501 and insert rods 502, the mounting seats 501 are L-shaped, and four corners of the second insulation board 4 abut against the L-shaped areas of the four mounting seats 501. When an operator installs the second insulation board 4, the four top corners of the second insulation board are respectively attached to the L-shaped areas of the four mounting seats 501. The mount 501 limits the placement of the second insulation board 4 and provides a supporting force.

Referring to fig. 5, clamping holes 5011 are respectively formed in the inner side walls of the four installation bases 501, the clamping holes 5011 are located in the vertical inner side walls in the L-shaped areas of the installation bases 501, and the axes of the clamping holes 5011 are parallel to the length direction of the second insulation board 4. The inserted bar 502 slides in the clamping hole 5011, and an ejection compression spring 503 is arranged between the inserted bar 502 and the bottom of the clamping hole 5011. The second insulation board 4 has a socket 401 at a position corresponding to the fastening hole 5011. The mounting base 501 is provided with a shifting groove 5012, and the shifting groove 5012 is in a long strip shape. The slot 5012 is parallel to and communicated with the clamping hole 5011, and the insert rod 502 is fixedly connected with a shifting piece 5021 which slides in the slot 5012. The poking piece 5021 provides a force application point for an operator, and is convenient and fast to operate.

Referring to fig. 5, during installation, the operator moves the finger 5021 to slide the plunger 502 into the clamping hole 5011, and at this time, the ejection compression spring 503 is elastically deformed. Then, the operator attaches the four top corners of the second heat-insulating plate 4 to the L-shaped regions of the four mounting seats 501. Next, the operator releases the toggle piece 5021, at this time, the elastic potential energy of the ejection compression spring 503 is released, and the elastic force pushes the insertion rod 502 to insert the insertion rod 502 into the insertion hole 401, so that the second insulation board 4 is quickly connected with the mounting seat 501.

The implementation principle of the building heat insulation structure in the embodiment of the application is as follows:

1. the operator realizes the connection of the guide pillar 2 and the wall body 101 through the expansion bolts.

2. The operator inserts the sliding rods 3 into the guide posts 2, and adjusts the sliding rods 3 to clamp the first heat-preserving plate 1.

3. The operator inserts the locking rod 3011 into the locking hole 302, and the locking of the sliding rod 3 is realized through the locking nut 3012.

4. An operator inserts the fixing rod 3042 into the first heat insulation plate 1, so as to lock the position of the heat insulation plate.

5. On operating personnel placed mount pad 501 with second heated board 4, chucking subassembly 5 carried out the chucking to second heated board 4.

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 (8)

1. The utility model provides a building insulation construction, includes first insulation board (1), first insulation board (1) is laminated in wall body (101), its characterized in that: the wall body (101) is provided with two guide pillars (2) along the length direction, the guide pillars (2) are vertically arranged, the guide pillars (2) are connected to the wall body (101) through fasteners, a sliding rod (3) is arranged between the two guide pillars (2), the side surfaces, perpendicular to the sliding rod (3), of the guide pillars (2) are provided with sliding grooves (203), the sliding grooves (203) are formed along the length direction of the guide pillars (2), two ends of the sliding rod (3) are respectively slid in the sliding grooves (203) on the two sides, the sliding rods (3) are distributed in a plurality along the vertical direction, a first heat preservation plate (1) is clamped between every two adjacent sliding rods (3), two ends of each sliding rod (3) are respectively provided with a locking assembly (301), each locking assembly (301) comprises a locking rod (3011) and a locking nut (3012), and the locking rods (3011) are connected to the sliding rods (3), one side of the guide post (2) departing from the wall body (101) is provided with a locking groove (204) for the locking rod (3011) to slide, and the locking nut (3012) is in threaded connection with the locking rod (3011) and is pressed on the guide post (2).

2. The building insulation structure of claim 1, wherein: one side of the sliding rod (3) departing from the wall body (101) is provided with a limiting groove (303), and a limiting block (304) which slides in the limiting groove (303) is fixedly connected to the top surface of the first heat preservation plate (1).

3. A building insulation structure according to claim 2, wherein: the limiting block (304) is provided with a limiting hole (3041), the locking groove (204) is internally provided with a fixing hole (2041), and a fixing rod (3042) is inserted into the fixing hole (2041) and the limiting hole (3041).

4. The building insulation structure of claim 1, wherein: one sides of the two guide pillars (2) which are deviated from each other are fixedly connected with reinforcing plates (202) respectively, and the reinforcing plates (202) are connected with a wall body (101) through fasteners.

5. A building insulation structure according to claim 3, wherein: the fixing holes (2041) are arranged along the length direction of the locking groove (204).

6. The building insulation structure of claim 1, wherein: and a second heat insulation plate (4) is laid between the guide columns (2) on the two sides, and the second heat insulation plate (4) is attached to one side, deviating from the wall body (101), of the first heat insulation plate (1).

7. The building insulation structure of claim 6, wherein: four corners of second heated board (4) are equipped with chucking subassembly (5) respectively, chucking subassembly (5) are including mount pad (501), inserted bar (502), mount pad (501) fixed connection is in guide pillar (2), it has chucking hole (5011) to open on mount pad (501), inserted bar (502) slide in chucking hole (5011), it has supply inserted bar (502) male jack (401) to open on second heated board (4), be equipped with ejecting pressure spring (503) between the hole bottom in inserted bar (502) and chucking hole (5011).

8. The building insulation structure of claim 7, wherein: the mounting seat (501) is provided with a shifting groove (5012), the shifting groove (5012) is parallel to and communicated with the clamping hole (5011), and the inserted bar (502) is fixedly connected with a shifting piece (5021) which slides in the shifting groove (5012).

Images