CN215485710U - Door and window connection heat-insulation structure applying embedded wall heat-insulation component - Google Patents

Abstract

A door and window connection heat preservation structure applying an embedded wall heat preservation component comprises the embedded wall heat preservation component, a door and window auxiliary frame body and a door and window frame body, wherein the door and window auxiliary frame body is integrally embedded in an outer wall body and is sleeved on the frame periphery of the door and window frame body, two ends of the door and window auxiliary frame body are respectively structurally connected with the embedded wall heat preservation component and the door and window frame body, the structure is in transition connection through the door and window auxiliary frame body, and an omnibearing enclosure heat preservation structure of a building outer wall from a door and window frame to the embedded wall heat preservation component through the door and window auxiliary frame body is constructed, so that the problem that a cold (hot) bridge possibly exists at the periphery of the door and window frame of the building outer wall can be solved, the embedded wall heat preservation function is free of dead angle and full coverage, the door and window connection heat preservation structure has the advantages of simple structure, reliable process, good heat insulation effect and excellent fireproof performance, is applied to the field of embedded wall heat preservation, and the heat conductivity coefficient of the building enclosure outer wall can be reduced, reduce indoor heat loss, improve the heat preservation effect, solve energy consumption and reduce production cost.

Description

Door and window connection heat-insulation structure applying embedded wall heat-insulation component

Technical Field

The utility model relates to a connecting heat-insulating structure, in particular to a door and window connecting heat-insulating structure applying an embedded wall heat-insulating component.

Background

Nowadays, the technological development is gradually different, the energy problem is increasingly prominent, the energy waste phenomenon in the building field is particularly serious, the heat preservation and heat insulation performance of a plurality of buildings is poor, the internal energy is transmitted to the outside, and huge loss is caused, and the application of the heat preservation and heat insulation material is an important ring for improving the utilization rate of the building energy. At present, the traditional frame structure wall construction method in China is that an inner template and an outer template and a support system are respectively arranged inside and outside a binding steel bar, a concrete (concrete) pouring cavity between the inner template and the outer template is constructed, concrete is poured, after the concrete reaches the template removal strength, the template is removed to obtain a main body wall frame, building structural materials are filled in the frame space to construct a main wall structure, after the frame structure is constructed, external wall heat insulation measures are usually adopted, heat insulation materials are laid on the outer wall surface to reduce the occurrence of cavity thermal bridges and improve the heat insulation performance of the cavity, the adopted construction process method is mainly that heat insulation materials, usually foam polystyrene plates, are anchored on the outer wall surface through bolts, metal nets are hung on the outer side, then adhesives are coated, fireproof layers, waterproof layers and the like are laid, and finally, the outer structure layer is laid. Although the external wall heat insulation measure can reduce the heat loss of the external wall surface and simultaneously play a certain role in protecting the external wall surface, the defects of complicated construction process and limited heat insulation effect of the external wall heat insulation measure are increasingly highlighted, particularly, the phenomena of cracking, hollowing or peeling between the heat insulation layer and the main wall body are easily caused due to the fact that the heat insulation material is large in thickness and obvious in characteristic difference with building structure materials, and sometimes even large-area peeling is generated, so that the external wall heat insulation measure has large quality and potential safety hazards. Therefore, the intensive research on building heat-insulating materials and the exploration of building wall heat-insulating process technology have become a directional subject in the field of building engineering development in China.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a door and window connection heat-insulation structure applying an embedded wall heat-insulation component, which is applied to heat-insulation fencing of a building outer wall, improves the heat-insulation effect and reduces the production cost.

An embedded wall insulation assembly comprising: embedded wall body heat preservation component, PVC sharp connecting strip and PVC dog-ear connecting strip, embedded wall body heat preservation component comprises the PVC plate body and inlays tapping screw on the PVC plate body, the PVC plate body has well cavity, well cavity is the bar cavity along longitudinal distribution, and the longitudinal correspondence both ends are provided with the joint structure of circulated connection respectively, the joint structure is along the longitudinal correspondence complex public female socket structure, in order to realize between the PVC plate body at longitudinal direction circulation connection in proper order, and horizontal correspondence both ends have seted up vertical joint groove respectively, have seted up irregular bar fishtail groove on the face of both sides along longitudinal respectively, strengthen the crab-bolt function of PVC plate body, so that make after the PVC plate body imbeds the wall body, the sclerosis concrete in the wall body can utilize irregular bar fishtail groove effectively fixed lock the PVC plate body, tapping screw distributes respectively simultaneously and inlays on the face of both sides of PVC plate body, the self-tapping screw is exposed on the plate surface of the PVC plate body and fixed on the PVC plate body, so that the anchor bolt function of hardened concrete in the PVC plate body and a wall body is further enhanced, the PVC linear connecting strip and the PVC dog-ear connecting strip are respectively provided with 2 vertical clamping bodies, the 2 vertical clamping bodies on the linear connecting strip are mutually linearly and symmetrically arranged on two sides of the rod body, the 2 vertical clamping bodies on the PVC dog-ear connecting strip are mutually arranged at an angle A corresponding to two sides of the rod body, the vertical clamping bodies are of a wedge-shaped structure and form a clamping structure with the vertical clamping grooves formed at two transverse ends of the PVC plate body for matching, the two ends of the PVC linear connecting strip are respectively clamped with the embedded wall body heat-insulating component, so that the embedded wall body heat-insulating component can be linearly connected with each other, and the two ends of the PVC dog-ear connecting strip are respectively clamped with the embedded wall body heat-insulating component, the embedded wall insulation components can be connected with each other at a deflection angle A.

Preferably, in the structure of the male and female sockets, the female socket is a groove structure, the width of the groove is the same as that of the strip-shaped cavity formed in the PVC board, the male socket is a wedge-shaped structure, and the width of the wedge-shaped root is the same as that of the groove formed in the PVC board, so that the male socket can be correspondingly matched with the female socket in a good inserting manner.

Further, preferably the PVC straight line connecting strip with set up on the PVC dog-ear connecting strip vertical joint body is the wedge structure, the width of wedge root with set up on the PVC plate body vertical joint groove width is the same, in order to guarantee vertical joint body can with vertical joint groove corresponds and forms good grafting cooperation.

And furthermore, the width of the irregular strip-shaped fishtail groove which is preferably arranged on the two side plate surfaces of the PVC plate body along the longitudinal direction is 1.5-2.0 times of the depth of the irregular strip-shaped fishtail groove, so that the anchor bolt function of the PVC plate body is optimized, and the fixing locking strength of the PVC plate body to the hardened concrete in the wall body is enhanced.

The utility model provides an use door and window of embedded wall body heat preservation component connects insulation construction, by embedded wall body heat preservation component, door and window subframe body and door and window framework constitute, embedded wall body heat preservation component inlays in outer wall, door and window subframe body is the frame construction that crossbar pole and the perpendicular frame pole combination that is made by thermal-insulated insulation material are formed, wholly inlay in among the outer wall, overlap put on the frame periphery of door and window framework, with the periphery of door and window framework forms the structure cooperation, both ends respectively with embedded wall body heat preservation component with door and window framework forms structural connection, wherein: the embedded wall heat-insulation member is integrally and completely connected with the periphery of the door and window auxiliary frame body; the door and window frame body is provided with a positioning shoulder at the connecting end and is provided with a limiting pressing frame in a matching way, the limiting pressing frame is correspondingly matched with the positioning shoulder, and the door and window frame body can be fixed on the door and window auxiliary frame body in a limiting way.

Preferably, the component clamping bodies are respectively arranged in connecting grooves formed in the transverse frame rod and the vertical frame rod, the connecting grooves are respectively matched with the thicknesses of the edges of the PVC plate body in the transverse direction and the longitudinal direction of the embedded wall heat-insulation component, when the embedded wall heat-insulation component is clamped and connected with the door and window auxiliary frame body, the embedded wall heat-insulation component can be respectively matched and embedded into the connecting grooves formed in the transverse frame rod and the vertical frame rod, and the heat insulation effect of the embedded wall heat-insulation component and the connecting part of the door and window auxiliary frame body is improved.

And preferably, the component clamping bodies are of wedge-shaped structures, wherein the width of the wedge-shaped root of the component clamping bodies arranged on the cross frame rods is the same as that of the female sockets arranged at the two longitudinally corresponding ends of the PVC plate body of the embedded wall heat-insulating component, and the width of the wedge-shaped root of the component clamping bodies arranged on the vertical frame rods is the same as that of the vertical clamping grooves arranged at the two transversely corresponding ends of the PVC plate body of the embedded wall heat-insulating component, so that the embedded wall heat-insulating component can be well clamped, connected and matched with the door and window subframe body.

Further, preferably, the door and window subframe body is made of a PVC structural material.

The utility model has the advantages that the utility model provides a door and window connecting heat preservation structure applying an embedded wall heat preservation component, the door and window auxiliary frame body is integrally embedded in the embedded heat preservation wall body, the door and window auxiliary frame body is matched and sleeved at the periphery of the door and window frame, the door and window auxiliary frame body can play a role in supporting a structural component, fixing and positioning the door and window frame, and improving the installation precision and the fixing strength of doors and windows, more importantly, the omnibearing enclosing heat preservation structure of the building outer wall from the door and window frame to the embedded wall heat preservation component through the clamping connection of the other end and the embedded wall heat preservation component is constructed, the problem that the periphery of the building outer wall door and window frame possibly has a cold (hot) bridge is solved, the embedded outer wall heat preservation function is realized without dead angle and full coverage, the structure is simple, the process is reliable, the heat preservation effect is good, the fireproof performance is excellent, and the door and window connecting heat preservation structure is applied to the embedded outer wall body heat preservation field, the heat conductivity coefficient of the building outer wall can be further reduced, the loss of indoor heat is reduced, and the purposes of energy conservation and consumption reduction are achieved.

Drawings

Fig. 1 is a schematic structural view of an embedded wall insulation component.

Fig. 2 is a partial enlarged view of fig. 1 at point i.

Fig. 3 is a schematic structural composition diagram of an embedded wall insulation assembly.

FIG. 4 is a cross-sectional view of the embedded wall insulation member and the vertical frame rod in a connected state.

Fig. 5 is a cross-sectional view of the embedded wall insulation member and the cross-frame rod in a connected state.

Detailed Description

The technical solution claimed by the present invention is further described below with reference to the specific embodiments and the accompanying drawings.

An embedded wall insulation component, as shown in fig. 1 and fig. 2, the wall insulation component 15 is composed of a PVC plate 1 and self-tapping screws 2 embedded on the PVC plate 1, the PVC plate 1 has a hollow cavity 3, the hollow cavity 3 is a bar-shaped cavity distributed along the longitudinal direction, the longitudinal corresponding two ends are respectively provided with a male socket structure and a female socket structure correspondingly matched along the longitudinal direction, in the male socket structure and the female socket structure, a female socket 4 is a groove structure, the width of the groove is the same as the width of the bar-shaped cavity 3 arranged in the PVC plate 1, a male socket 5 is a wedge-shaped structure, the width of the wedge-shaped root is the same as the width of the groove, so as to ensure that the male socket 5 can form a good inserting fit corresponding to the female socket 4, the transverse corresponding two ends are respectively provided with vertical clamping grooves 14, the two side faces are respectively provided with irregular bar-shaped fishgrooves 6 along the longitudinal direction, the width of the irregular strip-shaped fishtail groove 6 is 2 times of the depth of the irregular strip-shaped fishtail groove, galvanized self-tapping screws 2 are respectively distributed and embedded on the board surfaces on the two sides of the PVC board body 1, the self-tapping screws 2 are exposed on the board surface of the PVC board body 1, the exposed length is larger than or equal to 100 mm, the irregular strip-shaped fishtail groove is fixed on the PVC board body 1, and the depth of the embedded board surface is larger than or equal to 10 mm.

The utility model provides an embedded wall body heat preservation subassembly, uses embedded wall body heat preservation component, as shown in fig. 3, comprises wall body heat preservation component 15, PVC linear connection strip 12 and PVC dog-ear connecting strip 13, PVC linear connection strip 8 with 2 vertical joint bodies have respectively on the PVC dog- ear connecting strip 9, 2 vertical joint bodies on the linear connection strip 8 are the sharp symmetry setting each other in body of rod both sides, 2 vertical joint bodies on the PVC dog-ear connecting strip 9 are angle A each other and correspond the setting in body of rod both sides, angle A is 90, vertical joint body is the wedge structure, with set up at the horizontal both ends of PVC plate body 1 vertical joint groove 14 forms the joint structure cooperation.

A door and window connection heat preservation structure is applied to an embedded wall heat preservation component, as shown in figures 4 and 5, the door and window connection heat preservation structure is composed of the embedded wall heat preservation component 15, a door and window auxiliary frame body and a door and window frame body 9, the embedded wall heat preservation component 15 is embedded in an outer wall body, the door and window auxiliary frame body is formed by combining a cross frame rod 8a and a vertical frame rod 8b which are made of PVC structural materials, the embedded wall body is integrally embedded in the outer wall body and is sleeved on the periphery of a frame of the door and window frame body 9 in a matched mode, and two ends of the embedded wall heat preservation component 15 and the door and window frame body 9 are structurally connected.

Wherein: the connecting ends of the embedded wall heat-insulating member 15 are respectively provided with member clamping bodies, the member clamping bodies are respectively arranged in connecting grooves formed in the transverse frame rod 8a and the vertical frame rod 8b, the width of the connecting grooves formed in the transverse frame rod 8a and the vertical frame rod 8b is respectively matched with the thickness of the edge of a PVC plate body on the transverse direction and the longitudinal direction of the embedded wall heat-insulating member 15 correspondingly, the member clamping bodies arranged on the transverse frame rod 8a are matched with the female sockets formed at the two ends of the embedded wall heat-insulating member 15 longitudinally corresponding to the female sockets in a structural mode, the member clamping bodies arranged on the vertical frame rod 8b are matched with the vertical clamping grooves formed at the two ends of the embedded wall heat-insulating member 15 transversely corresponding to the female sockets in a structural mode, the member clamping bodies are in a wedge-shaped structure, the width of the wedge-shaped root of the member clamping bodies arranged on the transverse frame rod 8a is matched with the width of the vertical-shaped clamping grooves formed at the two ends of the PVC plate body on the embedded wall heat-insulating member 15 longitudinally corresponding to the two ends of the embedded wall heat-insulating member 15 The width of the female socket is the same, and the width of the wedge-shaped root of the component clamping body arranged on the vertical frame rod 8b is the same as the width of the vertical clamping groove arranged at the two transversely corresponding ends of the PVC plate body on the embedded wall heat-insulating component 15; and a positioning shoulder is arranged at the connecting end of the door and window frame body 9, a limiting pressing strip 16 is arranged in a matching manner, and the limiting pressing strip 16 and the positioning shoulder are correspondingly matched and limited and fixed on the door and window frame body 9.

The door and window connection heat-insulation structure is applied to the field of heat insulation of external wall bodies, as shown in fig. 3 and 4, two vertical frame rods 8b are positioned and installed on a civil engineering construction working face, a door and window frame body 9 is aligned and embedded between the two vertical frame rods 8b, and limiting pressing strips 16 are installed on the vertical frame rods 8b to fix the door and window frame body 9; then, building an inner wall surface 10 and an outer wall surface 9 of an outer wall body respectively, fixedly embedding two upright frame rods 8b between the inner wall surface 10 and the outer wall surface 9, forming a separation space of the outer wall body between the two, placing an embedded wall heat-insulating member 15 into the separation space of the outer wall body, inserting the embedded wall heat-insulating member 15 into the connecting grooves formed in the upright frame rods 8b in an aligned manner in a longitudinal direction, connecting a female socket formed in the longitudinal end of the embedded wall heat-insulating member 15 with a member clamping body arranged on the upright frame rods 8b in a matched manner, and then pouring prefabricated concrete in the separation space to form a concrete hardened layer 11; repeating the construction operation process until the construction working face provided with the upper cross frame rod 8a is reached, horizontally placing the cross frame rods 8a on the two vertical frame rods 8b and installing the limiting pressing strips 16, continuing civil engineering construction to build the inner wall surface 10 and the outer wall surface 9 respectively, then sequentially placing the embedded wall heat-insulating members 15 into the separated spaces of the newly built outer wall body in sequence again, rightly inserting the transverse ends of the embedded wall heat-insulating members 15 into the connecting grooves formed in the cross frame rods 8a, enabling the vertical clamping grooves formed at the transverse ends of the embedded wall heat-insulating members 15 to be matched and connected with the member clamping bodies arranged on the cross frame rods 8a, and then continuing to pour prefabricated concrete in the separated spaces to form a concrete hardened layer 11; through the above construction operation process, the building outer wall is constructed from the door and window frame 9 through the door and window subframe body to the omnibearing enclosure heat-insulation structure of the embedded wall heat-insulation component 15, the problem of cold (hot) bridges possibly existing at the periphery of the door and window frame of the building outer wall is solved, the dead-corner-free and full-coverage heat-insulation function of the embedded outer wall is realized, the heat conductivity coefficient of the building outer wall is reduced, and the loss and waste of indoor heat are reduced.

In the integral enclosure coating structure of the external wall body, the embedded wall heat-insulating member 15 and the PVC straight connecting strips 12 and the joint interfaces of the PVC dog-ear connecting strips 13, the joint interfaces between the embedded wall heat-insulating member 15 and the cross frame rods 8a and the vertical frame rods 8b are sealed by silica gel pads, moreover, the concrete hardened layer 11 formed between the inner wall surface 10 and the outer wall surface 9 is respectively and tightly locked with the irregular bar-shaped fishtail groove 6 arranged on the PVC plate body 1 and the self-tapping screw 2 embedded on the plate surface, so that the embedded wall heat-insulating member and the concrete hardened layer 11 are respectively formed to be fixed by a first anchor bolt and a second anchor bolt and are stably embedded in the external wall body to form the heat-insulating layer of the external wall body, the heat-insulating layer has multiple functions of heat insulation, fire prevention, water prevention, sound insulation and the like; meanwhile, the complex procedures that bolt anchoring, net hanging, adhesive pasting, fireproof layer laying, waterproof layer laying and the like are needed to be carried out on the heat insulation material of the traditional outer wall body are overcome, a large number of overhead working links and later potential safety hazards are avoided, the construction period is shortened, the efficiency is improved, and the production costs of raw materials, labor and the like are reduced.

Claims (5)

1. The utility model provides an use door and window of embedded wall body heat preservation component to connect insulation construction which characterized in that: by embedded wall body heat preservation component (15), door and window subframe body and door and window frame body (9) constitute, embedded wall body heat preservation component (15) are inlayed in exterior wall body, door and window subframe body is the frame construction who forms by horizontal hack lever (8 a) and perpendicular hack lever (8 b) combination, wholly inlays to be arranged in among the exterior wall body, the cover is put on the frame periphery of door and window frame body (9), with the periphery of door and window frame body (9) forms the structural coordination, both ends respectively with embedded wall body heat preservation component (15) with door and window frame body (9) form structural connection, wherein: a component clamping body is arranged at the connecting end of the embedded wall heat-insulation component (15), the component clamping body arranged on the vertical frame rod (8 b) forms structural matching with vertical clamping grooves which are arranged at two ends of the embedded wall heat-insulation component (15) corresponding to the two ends in the transverse direction, and the component clamping body arranged on the transverse frame rod (8 a) forms structural matching with female sockets which are arranged at two ends of the embedded wall heat-insulation component (15) corresponding to the two ends in the longitudinal direction; with the link of door and window frame body (9) is provided with the location circular bead to the cooperation is provided with spacing layering (16), spacing layering (16) with the location circular bead corresponds the cooperation, can with door and window frame body (9) is spacing to be fixed on the door and window subframe body.

2. The door and window connection insulation structure applying the embedded wall insulation component as claimed in claim 1, wherein: embedded wall body insulation component (15) by PVC plate body (1) with inlay self-tapping screw (2) on PVC plate body (1) constitute, PVC plate body (1) has well plenum chamber (3), well plenum chamber (3) are for following longitudinal distribution's bar cavity, and the vertical joint structure that corresponds both ends and be provided with circulated connection respectively, vertical joint groove has been seted up respectively to the horizontal both ends that correspond for following the public female socket structure of vertical correspondence complex, has vertically seted up respectively along vertically respectively on the face of both sides bar fishtail groove (6), self-tapping screw (2) also distribute respectively simultaneously and inlay on the both sides face of PVC plate body (1), self-tapping screw (2) go out expose in on the face of PVC plate body (1), and fix on PVC plate body (1).

3. The door and window connection insulation structure applying the embedded wall insulation component as claimed in claim 2, wherein: the component clamping bodies are respectively arranged in connecting grooves formed in the transverse frame rod (8 a) and the vertical frame rod (8 b), and the connecting grooves are respectively correspondingly matched with the thickness of the edges of PVC plates on the transverse direction and the longitudinal direction of the embedded wall heat-insulating component (15).

4. The door and window connection insulation structure applying the embedded wall insulation component as claimed in claim 3, wherein: the component clamping bodies are of wedge-shaped structures, wherein the width of the wedge-shaped root of the component clamping bodies arranged on the transverse frame rods (8 a) is the same as that of the female sockets arranged at two ends of the embedded wall heat-insulation component (15) corresponding to the longitudinal direction of a PVC plate body, and the width of the wedge-shaped root of the component clamping bodies arranged on the vertical frame rods (8 b) is the same as that of the vertical clamping grooves arranged at two ends of the embedded wall heat-insulation component (15) corresponding to the transverse direction of the PVC plate body.

5. The door and window connection insulation structure applying the embedded wall insulation component as claimed in any one of claims 1 to 4, wherein: the door and window auxiliary frame body is made of PVC structural materials.

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