CN208280436U - Energy-conserving construction bearing wall composite board - Google Patents

Abstract

The utility model discloses energy-conserving construction bearing wall composite boards, including insulating layer, the bottom of the insulating layer is provided with the first interlayer, the second interlayer is provided at the top of the insulating layer, the top that the first steel plate described in the first steel plate is welded at the top of the decorative panel equidistant offers the first groove, the bottom of first groove inner wall is welded with pillar, second interlayer includes backboard, the bottom of the backboard is welded with the second steel plate, the bottom of second steel plate is equidistant to offer the second groove, brute spring is welded at the top of second groove inner wall, it is related to apparatus for building technical field, the energy-conserving construction bearing wall composite board, pass through the first steel plate, first groove, pillar, second steel plate, second groove, brute spring, positioning tube and piston are used cooperatively, it solves composite board internal structure and gap occurs and lead The problem of causing bearing capacity decline solves the problems, such as that composite board internal structure be drawn into fastening Rong County and dilatancy occurs.

Description

Energy-conserving construction bearing wall composite board

Technical field

The utility model relates to apparatus for building technical fields, specially energy-conserving construction bearing wall composite board.

Background technique

In the building field of modernization, wall composite board be a kind of industrialized production high-performance building of new generation in every Plate is combined by multiple building materials, and instead of traditional brick and tile, wall composite board has environmental protection and energy saving pollution-free, lightweight Antidetonation, fire prevention, heat preservation, sound insulation, quick construction obvious advantage.

It, should if Chinese patent discloses " a kind of energy-conserving construction bearing wall composite board " (patent No.: CN205663097U) The load-bearing draw piece being arranged in patent can generate inside pulling force inside plate body so that internal insulating foam layer, first every Thermosphere and second thermal insulation layer are in clamping steady status in real time, reduce the natural frequency of vibration of entire plate body, play good carrying With tension protecting effect；But in actual operation due to foam heat-insulation layer material problem, it may occur that deformation volume can become smaller Situation, although load-bearing draw piece can to a certain extent tense first thermal insulation layer and second thermal insulation layer, with Using the continuous lengthening of time, though insulating foam small size can make insulating foam layer, first thermal insulation layer and second thermal insulation layer it Between gap become larger, and the deformation that can bend at work of load-bearing draw piece causes composite plate to deform.

Utility model content

(1) the technical issues of solving

In view of the deficiencies of the prior art, the utility model provides energy-conserving construction bearing wall composite board, solves compound The problem of intralamellar part structure is easy to appear larger gap.

(2) technical solution

In order to achieve the above object, the utility model is achieved by the following technical programs: energy-conserving construction bearing wall body is multiple Plywood, including insulating layer, the bottom of the insulating layer are provided with the first interlayer, the second folder are provided at the top of the insulating layer Layer, first interlayer includes decorative panel, and the first steel plate, the top etc. of first steel plate are welded at the top of the decorative panel Distance offers the first groove, and the bottom of first groove inner wall is welded with pillar, is bonded at the top of first steel plate First thermal insulation layer, the top of the first thermal insulation layer is equidistant to offer first through hole, and the top of the pillar is logical through first Hole simultaneously extends to the outside at the top of first thermal insulation layer, and second interlayer includes backboard, and the bottom of the backboard is welded with second Steel plate, the bottom of second steel plate is equidistant to offer the second groove, and strength is welded at the top of second groove inner wall Spring will weld at the top of brute spring and the second groove inner wall first when carrying out composite plate production, weld it Positioning tube is being socketed in the outside of brute spring and will welded at the top of positioning tube and the second groove inner wall afterwards, post-tensioning It stretches brute spring and welds its one end with piston, piston is placed to the inner cavity for carrying out positioning tube, Zhi Hou again later Second thermal insulation layer is carried out be bonded by viscose glue with the bottom of the second steel plate and positioning tube is allowed to pass through second thermal insulation layer, early period is also Need to handle the first steel plate, pillar be welded on to the bottom of the first groove inner cavity, similarly by viscose glue by first every It carries out be bonded between thermosphere and the first steel plate, then foam heat-insulation layer is fixed also by viscose glue and second thermal insulation layer, and And the bottom of positioning tube is allowed to run through the inner cavity into foam heat-insulation layer together with piston, finally carry out the first interlayer, the second folder Layer insulating layer between fixation, pull piston by one end together with brute spring pull out foam heat-insulation layer, and by piston with Pillar is welded, and is finally thoroughly connected and fixed first clamping plate and second clamping plate and insulating layer, described second is recessed Positioning tube is welded at the top of slot inner wall, the bottom activity of the positioning tube inner chamber is connected with piston, the bottom of second steel plate Portion is bonded with second thermal insulation layer, and the bottom of the second thermal insulation layer is equidistant to offer the second through-hole, the bottom of the positioning tube Through the second through-hole and the outside of second thermal insulation layer bottom is extended to, is welded with mortar block at the top of the backboard.

Preferably, the bottom of the piston is welded with chassis, and the bottom of the brute spring is welded on the outer of top land Side.

Preferably, the middle part of the tray bottom and the middle part of top land offer fixation hole, and the chassis is consolidated Determine hole to be connected with the fixed cylinder of piston and on same center line.

Preferably, the insulating layer includes insulating foam layer, and the bottom of second thermal insulation layer is bonded at the top of insulating foam layer The bottom in portion, insulating foam layer is bonded in the top of first thermal insulation layer.

Preferably, the left side of second steel plate and the first steel plate offers dovetail groove, second steel plate and first The right side of steel plate is welded with strip.

Preferably, the brute spring is located at the inner cavity of positioning tube, and the bottom of the brute spring and the top of piston are solid Fixed connection.

Preferably, the diameter on the inside of the fixation hole is equal with the diameter of pillar, the quantity of the pillar and is set to cylinder Quantity is equal.

In use, the placement of backplane foundation wall is fixed composite plate and metope installation by mortar block and concrete, It is installed after first piece of composite plate, the strip active card welded on first block of first steel of composite plate and the second steel plate is tapped into Two pieces of composite plates are attached solid by the inner cavity for entering the dovetail groove opened up on first block of first steel plate of composite plate and the second steel plate It is fixed, then second piece of composite plate and metope are subjected to installation fixation with concrete, aforesaid operations are repeated until entire metope is installed It is laid with until completing, after the composite plate after being installed comes into operation, indoor heat passes through the transmission of wall and backboard Partial heat is stopped by second thermal insulation layer, and another part is absorbed by foam heat-insulation layer, and same outside heat is passed by decorative panel It leads a part to be stopped by first thermal insulation layer, another part can be absorbed by foam heat-insulation layer, when foam heat-insulation layer uses for a long time When, it may occur that aging deformation, when the bottom of foam heat-insulation layer has separated with first thermal insulation layer, brute spring can lead to Crossing piston pulls pillar to draw close to foam heat-insulation layer, and pillar drives the first steel plate to be subjected to displacement, and the first steel plate will drive decorative panel And movement occurs for first thermal insulation layer until first thermal insulation layer is bonded with foam heat-insulation layer again, is compared to documents In load-bearing draw piece drawing says, load-bearing draw piece tense its two sides structure when, its own folding that can bend, load-bearing drawing Part deformation occurs will the internal structure of extrusion cladding plate cause composite plate to deform.

(3) beneficial effect

The utility model provides energy-conserving construction bearing wall composite board, have it is following the utility model has the advantages that

(1), the energy-conserving construction bearing wall composite board passes through the first steel plate, the first groove, pillar, the second steel plate, second Groove, brute spring, positioning tube and piston are used cooperatively, so that first heat-insulated when insulating foam layer volume changes Layer and second thermal insulation layer can guarantee that composite board internal will not recurring structure offset to reach with change in location movement is carried out There is the purpose in gap, solves the problems, such as that composite board internal structure gap occurs and bearing capacity is caused to decline.

(2), the energy-conserving construction bearing wall composite board passes through the first steel plate, the first groove, pillar, the second steel plate, second Groove, brute spring, positioning tube and piston are used cooperatively, brute spring after enabling insulating foam volume change occur Pull pillar and the first steel plate and first thermal insulation layer to draw close to underground heat thermal insulation layer, from reach pull fasten composite plate when The purpose for being squeezed and deformed situation will not occur, solve composite board internal structure and be drawn into fastening Rong County and dilatancy occur The problem of.

Detailed description of the invention

FIG. 1 is a schematic structural view of the utility model；

Fig. 2 is the first sandwich of the utility model schematic diagram；

Fig. 3 is the second sandwich of the utility model schematic diagram；

Fig. 4 is the utility model piston top view.

In figure: 1 insulating layer, 2 first interlayers, 3 second interlayers, 4 decorative panels, 5 first steel plates, 6 first grooves, 7 pillars, 8 First thermal insulation layer, 9 first through hole, 10 backboards, 11 second steel plates, 12 second grooves, 13 brute springs, 14 positioning tubes, 15 pistons, 16 second thermal insulation layers, 17 second through-holes, 18 foam heat-insulation layers, 19 dovetail grooves, 20 strips, 21 mortar blocks, 22 bottom plates, 23 are fixed Hole.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.

Examples of the embodiments are shown in the accompanying drawings, and in which the same or similar labels are throughly indicated identical or classes As element or element with the same or similar functions.The embodiments described below with reference to the accompanying drawings are exemplary, purport It is being used to explain the utility model, and should not be understood as limiting the present invention.

In the description of the present invention, it should be understood that term " center ", " longitudinal direction ", " transverse direction ", " length ", " width Degree ", " thickness ", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom" "inner", "outside", " suitable The orientation or positional relationship of the instructions such as hour hands ", " counterclockwise ", " axial direction ", " radial direction ", " circumferential direction " is orientation based on the figure Or positional relationship, be merely for convenience of describing the present invention and simplifying the description, rather than the device of indication or suggestion meaning or Element must have a particular orientation, be constructed and operated in a specific orientation, therefore should not be understood as the limit to the utility model System.

In the present invention unless specifically defined or limited otherwise, term " installation ", " connected ", " connection ", " Gu It is fixed " etc. terms shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or integral；It can be Mechanical connection, is also possible to be electrically connected；It can be directly connected, two can also be can be indirectly connected through an intermediary The interaction relationship of connection or two elements inside element.It for the ordinary skill in the art, can basis Concrete condition understands the concrete meaning of above-mentioned term in the present invention.

Fig. 1-4 is please referred to, the utility model provides a kind of technical solution: energy-conserving construction bearing wall composite board, including protects Warm layer 1, insulating layer 1 include insulating foam layer 18, and the top of insulating foam layer 18 is bonded in the bottom of second thermal insulation layer 16, are kept the temperature The bottom of froth bed 18 is bonded in the top of first thermal insulation layer 8, and the bottom of insulating layer 1 is provided with the first interlayer 2, insulating layer 1 Top is provided with the second interlayer 3, and the first interlayer 2 includes decorative panel 4, and the top of decorative panel 4 is welded with the first steel plate 5, the first steel The top of plate 5 is equidistant to offer the first groove 6, and the bottom of 6 inner wall of the first groove is welded with pillar 7, the top of the first steel plate 5 It is bonded with first thermal insulation layer 8, the top of first thermal insulation layer 8 is equidistant to offer first through hole 9, and the top of pillar 7 runs through first Through-hole 9 and the outside for extending to 8 top of first thermal insulation layer, the second interlayer 3 includes backboard 10, and the bottom of backboard 10 is welded with second The left side of steel plate 11, the second steel plate 1 and the first steel plate 5 offers dovetail groove 19, the right side of the second steel plate 11 and the first steel plate 5 It is welded with strip 20, the bottom of the second steel plate 11 is equidistant to offer the second groove 12, the top weldering of 12 inner wall of the second groove It is connected to brute spring 13, brute spring 13 is located at the inner cavity of positioning tube 14, and the bottom of brute spring 13 and the top of piston 15 are solid It is fixed to connect, it is welded with positioning tube 14 at the top of 12 inner wall of the second groove, the bottom activity of 14 inner cavity of positioning tube is connected with piston 15, The bottom of piston 15 is welded with chassis 22, and the middle part at 15 top of middle part and piston of 22 bottom of chassis offers fixation hole 23, The diameter of 23 inside of fixation hole is equal with the diameter of pillar 7, and the quantity of pillar 7 is equal with the quantity for being set to cylinder 14, chassis 22 Fixation hole 23 is connected with the fixed cylinder of piston 15 and on same center line, and the bottom of brute spring 13 is welded on the top of piston 15 The outside in portion, the bottom of the second steel plate 11 are bonded with second thermal insulation layer 16, and the bottom of second thermal insulation layer 16 is equidistant to offer The bottom of two through-holes 17, positioning tube 14 runs through the second through-hole 17 and extends to the outside of 16 bottom of second thermal insulation layer, backboard 10 Top is welded with mortar block 21.

Backboard 10: being bonded the placement of foundation wall by working principle, is pacified composite plate and metope by mortar block 21 and concrete Dress is fixed, and is installed after first piece of composite plate, the strip that will be welded on first block of composite plate first steel 5 and the second steel plate 11 20 active cards tap into the inner cavity of the dovetail groove 19 opened up on first block of composite plate first steel plate 5 and the second steel plate 11, by two pieces Composite plate is attached fixation, then second piece of composite plate and metope are carried out installation fixation with concrete, and it is straight to repeat aforesaid operations Until installing entire metope and being laid with completion, after the composite plate after being installed comes into operation, indoor heat passes through wall The hop heat of wall and backboard 10 is stopped by second thermal insulation layer 16, and another part is absorbed by foam heat-insulation layer 18, equally Outside heat by decorative panel 4 conduct a part stopped by first thermal insulation layer 8, another part can be inhaled by foam heat-insulation layer 18 It receives, when the 18 long-time use of time of foam heat-insulation layer, it may occur that aging deformation, when the bottom of foam heat-insulation layer 18 and first heat-insulated When layer 8 has separated, brute spring 13 can pull pillar 7 to draw close to foam heat-insulation layer 18 by piston 15, and pillar 7 drives First steel plate 5 is subjected to displacement, and the first steel plate 5 will drive decorative panel 4 and movement occurs for first thermal insulation layer 8 until first thermal insulation layer Until 8 are bonded with foam heat-insulation layer 18 again, the load-bearing draw piece drawing being compared in documents says that load-bearing draw piece is tensing it When the structure of two sides, its own folding that can bend, load-bearing draw piece deformation occurs will extrusion cladding plate internal junction It is configured to composite plate deformation.

The preferable specific embodiment of the above, only the utility model, but the protection scope of the utility model is not It is confined to this, anyone skilled in the art is within the technical scope disclosed by the utility model, practical according to this Novel technical solution and its utility model design are subject to equivalent substitution or change, should all cover the protection model in the utility model Within enclosing.

Claims (7)

1. a kind of energy-conserving construction bearing wall composite board, including insulating layer (1), it is characterised in that: the bottom of the insulating layer (1) It is provided with the first interlayer (2), is provided with the second interlayer (3) at the top of the insulating layer (1), first interlayer (2) includes dress Plaque (4) is welded with the first steel plate (5) at the top of the decorative panel (4), and the top of first steel plate (5) is equidistant to be opened up Have the first groove (6), the bottom of the first groove (6) inner wall is welded with pillar (7), and the top of first steel plate (5) is viscous It is connected to first thermal insulation layer (8), the top of the first thermal insulation layer (8) is equidistant to be offered first through hole (9), the pillar (7) Top through first through hole (9) and the outside at the top of first thermal insulation layer (8) is extended to, second interlayer (3) includes backboard (10), the bottom of the backboard (10) is welded with the second steel plate (11), and the bottom of second steel plate (11) is equidistant to be offered Second groove (12) is welded with brute spring (13) at the top of the second groove (12) inner wall, in second groove (12) It being welded at the top of wall positioning tube (14), the bottom activity of positioning tube (14) inner cavity is connected with piston (15), and described second The bottom of steel plate (11) is bonded with second thermal insulation layer (16), and the bottom of the second thermal insulation layer (16) is equidistant, and to offer second logical The bottom in hole (17), the positioning tube (14) runs through the second through-hole (17) and extends to the outside of second thermal insulation layer (16) bottom, Mortar block (21) are welded at the top of the backboard (10).

2. energy-conserving construction bearing wall composite board according to claim 1, it is characterised in that: the bottom of the piston (15) It is welded with chassis (22), the bottom of the brute spring (13) is welded on the outside at the top of piston (15).

3. energy-conserving construction bearing wall composite board according to claim 2, it is characterised in that: chassis (22) bottom Middle part at the top of middle part and piston (15) offers fixation hole (23), the fixation hole (23) of the chassis (22) and piston (15) Fixed cylinder be connected and on same center line.

4. energy-conserving construction bearing wall composite board according to claim 1, it is characterised in that: the insulating layer (1) includes Insulating foam layer (18) is bonded in the bottom of second thermal insulation layer (16), insulating foam layer (18) at the top of insulating foam layer (18) Bottom be bonded in the tops of first thermal insulation layer (8).

5. energy-conserving construction bearing wall composite board according to claim 1, it is characterised in that: second steel plate (11) and The left side of first steel plate (5) offers dovetail groove (19), and the right side of second steel plate (11) and the first steel plate (5) is welded There are strip (20).

6. energy-conserving construction bearing wall composite board according to claim 1, it is characterised in that: brute spring (13) position In the inner cavity of positioning tube (14), it is fixedly connected at the top of the bottom and piston (15) of the brute spring (13).

7. energy-conserving construction bearing wall composite board according to claim 3, it is characterised in that: on the inside of the fixation hole (23) Diameter it is equal with the diameter of pillar (7), the quantity of the pillar (7) is equal with the quantity for being set to cylinder (14).