CN217517842U - Light aggregate concrete floor insulation structure - Google Patents

Abstract

The application discloses lightweight aggregate concrete floor insulation construction relates to floor heat preservation technical field, and it includes wall body, floor panel and sets up the wall body with heated board between the floor panel, the wall body with be provided with the heat preservation groove between the floor panel, be provided with on the heated board be used for with heated board demountable installation in dismouting mechanism of heat preservation inslot. This application has the effect of convenient change heated board.

Description

Lightweight aggregate concrete floor insulation structure

Technical Field

The application relates to the technical field of floor heat preservation, in particular to a lightweight aggregate concrete floor heat preservation structure.

Background

At present, a floor system of light aggregate concrete and a heat insulation layer is usually adopted for heat insulation of a floor slab, so that the floor slab has good heat insulation performance, and the light aggregate concrete has the characteristics of light weight, high strength, heat insulation, good fire resistance, good shock resistance and the like, and has good deformation performance. The joints of the floor panels and the wall bodies have gaps, and in order to avoid the influence of the gaps between the floor panels and the wall bodies on the heat insulation performance of the floor slabs, heat insulation boards are generally arranged between the floor panels and the wall bodies.

Chinese patent No. CN209277415U in the related art proposes an assembled parapet lightning protection structure for a concrete house, which comprises a prefabricated parapet, a heat insulation board, a concrete layer and a floor board, wherein the heat insulation board is arranged between the parapet and the floor board, and the concrete layer is laid on the heat insulation board. The heated board carries out the separation to the gap between parapet and the floor board and promotes sealing performance with the concrete to promote the thermal insulation performance of floor board.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: when the vehicle passes through the house or decorates the house, the house produces the vibration, can lead to making to appear the crack between floor panel and the wall body (prefabricated parapet in the above-mentioned file) through long-time house vibration, lead to the heated board between floor panel and the wall body to appear the crack and break off even, need smash concrete layer this moment, then change the heated board, at last rethread is pour and is recovered concrete layer, whole operation flow is complicated, it is inconvenient to lead to the change of heated board.

SUMMERY OF THE UTILITY MODEL

In order to improve the inconvenient problem of change of heated board, this application provides a lightweight aggregate concrete floor insulation construction.

The application provides a light aggregate concrete floor insulation construction adopts following technical scheme:

the utility model provides a lightweight aggregate concrete floor insulation construction, is in including wall body, floor slab and setting the wall body with heated board between the floor slab, the wall body with be provided with the heat preservation groove between the floor slab, be provided with on the heated board be used for with heated board demountable installation in the dismouting mechanism of heat preservation inslot.

Through adopting above-mentioned technical scheme, when needs are changed the heated board, operating personnel unpack the heated board out from the heat-preserving groove between wall body and the floor board through dismouting mechanism, then change the heated board of damage, pass through dismouting mechanism again with new heated board and install in the heat-preserving groove, improve the inconvenient problem of change of heated board.

Optionally, the disassembly and assembly mechanism comprises a driving part for taking the insulation board out of the insulation groove and a locking structure for detachably mounting the insulation board in the insulation groove, the driving part is arranged on the insulation board, and the locking structure is arranged between the wall body and the insulation board.

By adopting the technical scheme, when the insulation board needs to be dismantled, an operator unlocks the insulation board through the locking structure, and then the insulation board is conveniently taken out of the insulation groove through the driving piece, so that the dismantling process of the insulation board is realized; when the insulation board needs to be installed, an operator inserts the insulation board into the insulation groove through the driving piece, and then locks the insulation board in the insulation groove through the locking structure, so that the installation process of the insulation board is realized; under the combined action of the driving piece and the locking structure, the insulation board can be conveniently replaced in the insulation groove.

Optionally, a fixing groove is formed in the wall body, the locking structure comprises a clamping piece arranged in the fixing groove in a sliding mode and an elastic piece used for driving the clamping piece to move towards the direction close to the heat preservation plate, and the elastic piece is arranged in the fixing groove.

By adopting the technical scheme, when an operator needs to dismantle the damaged insulation board, the insulation board is driven to move towards the direction far away from the bottom wall of the insulation groove, the clamping piece is extruded by the insulation board, and the elastic piece contracts to enable the clamping piece to be unlocked; when an operator installs a new insulation board, the insulation board extrudes the clamping piece and moves relative to the clamping piece to abut against the bottom wall of the insulation board, and the clamping piece locks the insulation board under the driving of the elastic piece; under the combined action of the elastic piece and the clamping piece, the insulation board can be quickly replaced in the insulation groove.

Optionally, a clamping groove is formed in the heat insulation plate, the clamping piece is a clamping ball arranged on the elastic piece, and the clamping ball is matched with the clamping groove in a clamping mode.

Through adopting above-mentioned technical scheme, when operating personnel installation heated board, when needs insert the heated board in the heat preservation groove, order about the heated board towards the motion of heat preservation tank bottom wall, the heated board move to with joint ball butt after, the heated board promotes the elastic component shrink through the sphere of joint ball, until heated board and heat preservation tank bottom wall butt, the elastic component pushes the joint ball into the joint groove this moment, accomplishes the joint process to the heated board. Under the combined action of the elastic piece and the clamping ball, the insulation board can be quickly assembled and disassembled in the insulation groove.

Optionally, the driving member is a handle arranged at one end of the heat insulation plate far away from the bottom wall of the heat insulation groove.

Through adopting above-mentioned technical scheme, when the heated board that needs drive damage when keeping away from the one side motion of heat preservation tank diapire, the handle is convenient for operating personnel and is driven the heated board to make operating personnel can swiftly change the heated board of damage.

Optionally, the end face, away from the bottom wall of the heat preservation groove, of the heat preservation plate is provided with a hidden groove, and the handle is hinged to the hidden groove.

Through adopting above-mentioned technical scheme, for avoiding fixing the handle there is the handle to trip operating personnel's hidden danger in the heated board outside, the handle is articulated to be set up on the heated board, rotates the handle, can be so that the handle is located and hides the inslot, avoids operating personnel to be tripped by the handle.

Optionally, the heat-insulating plate is provided with a flexible heat-insulating strip for plugging a gap between the heat-insulating plate and the floor slab.

Through adopting above-mentioned technical scheme, use the flexible heat preservation strip on the heated board to carry out the shutoff to the gap between heated board and the floor board, further promote the heated board to the heat preservation effect of wall body and floor board junction.

Optionally, the insulation board is provided with a waterproof piece for shielding a gap between the insulation board and the wall.

Through adopting above-mentioned technical scheme, for avoiding water to cause the erosion to the locking structure from the gap between heated board and the wall body as far as possible, be provided with waterproof spare on the heated board, improved the life of locking structure.

By adopting the technical scheme, the method has the advantages that,

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

1. when the insulation board needs to be replaced, an operator detaches the insulation board from the insulation groove between the wall body and the floor panel through the detaching mechanism, then replaces the damaged insulation board, and installs a new insulation board in the insulation groove through the detaching mechanism, so that the problem of inconvenience in replacement of the insulation board is solved;

2. in order to avoid the hidden danger that the handle trips over the operator when the handle is fixed outside the heat insulation plate, the handle is hinged on the heat insulation plate, and the handle can be positioned in the hidden groove by rotating the handle, so that the operator is prevented from tripping over the handle;

3. the gaps between the heat-insulation boards and the floor board are plugged by the flexible heat-insulation strips on the heat-insulation boards, so that the heat-insulation effect of the heat-insulation boards on the joints of the wall body and the floor board is further improved.

Drawings

Fig. 1 is a schematic overall structure diagram of an embodiment of the present application.

FIG. 2 is a cross-sectional view of a wall body, an insulating layer, a floor plate, a locking structure and an insulating plate in the first embodiment of the present application.

Fig. 3 is a schematic structural diagram of a locking structure in the embodiment of the present application.

Fig. 4 is a schematic structural diagram of the heat-insulating plate and the driving member in the first embodiment of the present application.

FIG. 5 is a sectional view of the heat-insulating plate and the driving member in the second embodiment of the present application.

Reference numerals: 1. a wall body; 2. a limiting ring; 3. a floor panel; 4. a thermal insulation board; 5. a T-shaped round bar; 51. a cross bar; 52. a straight rod; 6. a locking structure; 61. an elastic telescopic cylinder; 62. clamping the ball; 7. hiding the groove; 8. fixing grooves; 9. a clamping groove; 10. a heat preservation groove; 11. a flexible heat-insulating strip; 12. a flexible water bar; 13. a handle; 14. the anti-drop ring; 15. and (6) sliding the circular groove.

Detailed Description

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

The first embodiment is as follows:

the embodiment of the application discloses a lightweight aggregate concrete floor insulation structure. Referring to fig. 1, fig. 2 and fig. 3, a lightweight aggregate concrete floor insulation construction includes wall body 1, floor panel 3 and the heated board 4 of setting between wall body 1 and floor panel 3, be provided with heat preservation groove 10 between wall body 1 and the floor panel 3, heat preservation groove 10 sets up in floor panel 3 and 1 junction of wall body, heat preservation groove 10 is seted up in 3 up end departments of floor panel along the direction of height of wall body 1, 4 demountable installation of heated board is in heat preservation groove 10, be provided with the dismouting mechanism that is used for 4 demountable installation of heated board in heat preservation groove 10 on the heated board 4.

Be provided with on the heated board 4 and be used for carrying out the waterproof piece that shelters from to the gap between heated board 4 and the wall body 1, the waterproof piece can set up to flexible water bar 12 or waterproof layer, sets up to flexible water bar 12 in this application embodiment waterproof piece, and 12 one end bonds and sets up and move about the butt with wall body 1 towards the slope of the terminal surface of 10 diapalls of heat preservation groove, the other end in heated board 4. The heat insulation plate 4 is provided with a dismounting mechanism for mounting or dismounting the heat insulation plate 4 from the heat insulation groove 10.

For further promoting the heat preservation effect of heated board 4 to wall body 1 and floor board 3 junction, refer to fig. 4, be provided with on the heated board 4 and be used for carrying out the flexible heat preservation strip 11 of shutoff to the gap between heated board 4 and the floor board 3, flexible heat preservation strip 11 sets up the one end of keeping away from heat-preserving groove 10 diapire at heated board 4, flexible heat preservation strip 11 and floor board 3 activity butt. 11 one end fixed connection of flexible heat preservation strip is on heated board 4, and when heated board 4 joint was in heat-preserving groove 10, flexible heat preservation strip 11 was located heated board 4 on the part outside heat-preserving groove 10, and the lower terminal surface of flexible heat preservation strip 11 supports tightly on floor board 3 to carry out the shutoff to the gap between heated board 4 and the floor board 3.

Referring to fig. 2, 3 and 4, the dismounting mechanism comprises a driving member for taking the insulation board 4 out of the insulation slot 10 and a locking structure 6 for detachably mounting the insulation board 4 in the insulation slot 10. In this application embodiment, having seted up on the terminal surface that heated board 4 kept away from insulating groove 10 diapire and having hidden groove 7, the driving piece is the handle that sets up in hiding groove 7, and the handle articulates on heated board 4, and after operating personnel used the handle, the drive handle rotated to the handle and hidden 7 diapire butts in groove for the handle is located and hides the inslot 7.

Referring to fig. 2 and 3, fixed slot 8 has been seted up along perpendicular to heat preservation groove 10 perisporium direction on wall body 1, has seted up joint groove 9 on the heated board 4, and locking structure 6 sets up between wall body 1 and heated board 4, and locking structure 6 sets up the joint spare in fixed slot 8 and is used for ordering about the elastic component that joint spare is close to or keeps away from heated board 4 including sliding, and the elastic component setting is in fixed slot 8. Elastic component sets up to elastic expansion cylinder 61, and the joint spare sets up to fixed connection at the joint ball 62 of elastic expansion cylinder 61 one end, and elastic expansion cylinder 61 keeps away from the one end fixed connection that the joint ball 62 on the inner wall that the hot wall groove 10 was kept away from to fixed slot 8, and when elastic expansion cylinder 61 was in original length, half of joint ball 62 was located fixed slot 8, and half is located hot wall groove 10.

When needs insert heated board 4 in the heat preservation groove 10, order about heated board 4 towards the motion of heat preservation groove 10 diapire, heated board 4 move to with joint ball 62 butt after, heated board 4 promotes the shrink of elastic expansion cylinder 61 through the sphere of joint ball 62, until heated board 4 and heat preservation groove 10 diapire butt, elastic expansion cylinder 61 pushes away the recess with joint ball 62 this moment, accomplishes the joint process to heated board 4.

In other application embodiments, the locking groove 9 is a tapered groove, the locking structure 6 includes a spring and a locking block configured as a cone, one end of the spring is fixedly connected to the bottom surface of the locking block, the other end of the spring is fixedly connected to the inner wall of the fixing groove 8 far away from the thermal insulation groove 10, and when the spring is in original length, one end of the spring of the locking block is located in the thermal insulation groove 10. When needs insert heated board 4 in the heat preservation groove 10, order about heated board 4 towards the motion of heat preservation groove 10 diapire, heated board 4 move to with the side butt of joint piece after, heated board 4 promotes the spring shrink through the side of joint piece, until heated board 4 and heat preservation groove 10 diapire butt, the spring pushes the joint piece into the taper recess this moment, accomplishes the joint process to heated board 4.

In one embodiment of the application, an implementation principle of a lightweight aggregate concrete floor insulation structure is as follows: when the heat preservation plate 4 is replaced at regular time, the handle 13 is driven to rotate out of the hidden groove 7, an operator drives the heat preservation plate 4 to move towards the direction far away from the bottom wall of the heat preservation groove 10 through the handle 13, the heat preservation plate 4 is clamped with the heat preservation plate 4 through the spherical surface of the clamping ball 62 to compress the elastic telescopic cylinder 61, and the heat preservation plate 4 is pulled out of the heat preservation groove 10;

then aim at heat preservation groove 10 with new heated board 4, during operating personnel pushed heat preservation groove 10 along heat preservation groove 10 inner wall with the joint board for heated board 4 promotes joint ball 62 and until heated board 4 butt on heat preservation groove 10 diapire, and joint ball 62 gets into the recess under the promotion of elastic expansion cylinder 61, with heated board 4 joint in heat preservation groove 10, accomplishes heated board 4's installation, changes over to hidden inslot 7 with handle 13 at last.

Example two:

referring to fig. 5, the difference between the second embodiment and the first embodiment is the driving member. Circular slot 15 that slides has been seted up along heated board 4's direction of height on the terminal surface of heated board 4 back wall of keeping away from heat preservation groove 10 diapire, the driving piece is for setting up T shape round bar 5 in the circular slot 15 that slides, T shape round bar 5 divide into straight-bar 52 with horizontal pole 51, straight-bar 52 perpendicular to horizontal pole 51, and fixed connection is at horizontal pole 51 middle part, the fixed cover of one end that horizontal pole 51 was kept away from to straight-bar 52 is equipped with spacing ring 2, straight-bar 52 slides through spacing ring 2 and sets up in the circular slot 15 that slides, the fixedly connected with anticreep ring 14 of notch department in the circular slot 15 that slides, anticreep ring 14's internal diameter size is less than spacing ring 2's external diameter size.

In the second embodiment of the present application, an implementation principle of a lightweight aggregate concrete floor insulation structure is as follows: when the heat preservation board 4 needs to be drawn out, an operator drives the T-shaped round rod 5 to move to the direction far away from the heat preservation groove 10, the limiting ring 2 is abutted against the anti-falling ring 14, and the damaged heat preservation board 4 is drawn out. When needs insert the heat preservation groove 10 with new heated board 4, T shape round bar 5 slides along the groove depth direction of the circular slot 15 that slides under the effect of gravity, and the horizontal pole 51 butt is kept away from on the terminal surface of heat preservation groove 10 bottom at heated board 4, then drives heated board 4 and moves until heated board 4 butt on heat preservation groove 10 diapire towards the direction of heat preservation groove 10 diapire, accomplishes heated board 4's installation.

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 lightweight aggregate concrete floor insulation construction, includes wall body (1), floor board (3) and sets up wall body (1) with heated board (4) between floor board (3), its characterized in that: the wall body (1) with be provided with between floor board (3) heat preservation groove (10), be provided with on heated board (4) be used for with heated board (4) demountable installation be in dismouting mechanism in heat preservation groove (10).

2. The lightweight aggregate concrete floor insulation structure according to claim 1, wherein: the dismounting mechanism comprises a driving piece and a locking structure (6), the driving piece is used for taking the heat-insulation board (4) out of the heat-insulation groove (10), the locking structure is used for detachably mounting the heat-insulation board (4) in the heat-insulation groove (10), the driving piece is arranged on the heat-insulation board (4), and the locking structure (6) is arranged between the wall body (1) and the heat-insulation board (4).

3. The lightweight aggregate concrete floor insulation structure according to claim 2, wherein: the heat insulation board is characterized in that a fixing groove (8) is formed in the wall body (1), the locking structure (6) comprises a clamping piece and an elastic piece, the clamping piece is arranged in the fixing groove (8) in a sliding mode, the elastic piece is used for driving the clamping piece to move towards the direction close to the heat insulation board (4), and the elastic piece is arranged in the fixing groove (8).

4. The lightweight aggregate concrete floor insulation structure according to claim 3, wherein: be provided with joint groove (9) on heated board (4), the joint spare is for setting up joint ball (62) on the elastic component, joint ball (62) with joint groove (9) joint adaptation.

5. The lightweight aggregate concrete floor insulation structure according to claim 2, wherein: the driving piece is a handle arranged at one end, far away from the bottom wall of the heat preservation groove (10), of the heat preservation plate (4).

6. The lightweight aggregate concrete floor insulation structure according to claim 5, wherein: keep away from heated board (4) seted up on the terminal surface of heat preservation groove (10) diapire and hidden groove (7), the articulated setting of handle is in hide in groove (7).

7. The lightweight aggregate concrete floor insulation structure according to claim 1, wherein: and the heat insulation plate (4) is provided with a flexible heat insulation strip (11) for plugging a gap between the heat insulation plate (4) and the floor plate (3).

8. The lightweight aggregate concrete floor insulation structure according to claim 2, wherein: the heat insulation board (4) is provided with a waterproof piece for shielding a gap between the heat insulation board (4) and the wall body (1).

Images