CN215718119U - High strength heat preservation door frame panel with reinforcement structure - Google Patents

Abstract

The utility model belongs to the technical field of door frame plates, in particular to a high-strength heat-insulating door frame plate with a reinforcing structure, which comprises a frame body and a heat-insulating assembly for improving the heat-insulating property of the frame body, wherein a plurality of reinforcing plates for enhancing the compression resistance and the stability of the frame body are fixedly connected inside the frame body, the heat-insulating assembly comprises a connecting frame playing a role of connection, a heat-insulating substrate playing a role of heat insulation, a heat-insulating layer for enhancing the heat-insulating property of the heat-insulating assembly and a composite fiber layer for enhancing the toughness of the heat-insulating assembly, the heat-insulating substrate is symmetrically and fixedly connected inside the connecting frame, the heat-insulating layer and the composite fiber layer are positioned between two symmetrically arranged heat-insulating substrates, the heat-insulating layer is fixedly connected to the top of the composite fiber layer, the firmness and the stability of a door frame can be effectively improved, and the heat-insulating property of the door frame can be effectively provided at the same time, the use experience of the user is improved.

Description

High strength heat preservation door frame panel with reinforcement structure

Technical Field

The utility model belongs to the technical field of door frame plates, and particularly relates to a high-strength heat-insulation door frame plate with a reinforcing structure.

Background

The main functions of the door frame are to fix the door leaf and protect the corner, decoration and the like. Is commonly used in decoration and fitment processes to protect doors from scratching, corrosion, breakage, dirt, etc.

SUMMERY OF THE UTILITY MODEL

Present door frame panel is because it is mostly hollow structure for the door frame appears stability relatively poor in the use, and the thermal-insulated effect of door frame is relatively poor, thereby makes the security performance and the thermal insulation performance of door frame lower. The utility model provides a high-strength heat-insulation door frame plate with a reinforcing structure, which has the characteristics of effectively improving the firmness and stability of a door frame, effectively providing the heat-insulation performance of the door frame and improving the use experience of users.

The utility model provides the following technical scheme: a high-strength heat-preservation door frame plate with a reinforcing structure comprises a frame body and a heat-preservation assembly for improving the heat-preservation performance of the frame body, the interior of the frame body is fixedly connected with a plurality of reinforcing plates for enhancing the pressure resistance and the stability of the frame body, the heat-insulating component comprises a connecting frame with a connecting function, a heat-insulating base plate with a heat-insulating function, a heat-insulating layer for enhancing the heat-insulating property of the heat-insulating component and a composite fiber layer for enhancing the toughness of the heat-insulating component, the heat insulation substrates are symmetrically and fixedly connected inside the connecting frame, the heat insulation layer and the composite fiber layer are positioned between the two symmetrically arranged heat insulation substrates, and insulating layer fixed connection in the top of composite fiber layer, the inside of insulating layer is equipped with a plurality of evenly distributed and is used for the reinforcing insulating layer internal stability reduces simultaneously the hollow post of honeycomb of the inside heat conductivity of insulating layer.

The inner space of the frame body is divided into a plurality of storage cavities and heat insulation cavities by the reinforcing plates, and the storage cavities and the heat insulation cavities are used for placing the heat insulation assemblies.

Wherein, the heat preservation assembly is fixedly connected to the inside of the storage cavity.

The internal fixedly connected with of the honeycomb hollow column plays a role in heat insulation and heat preservation of a first heat insulation and heat preservation plate, and the first heat insulation and heat preservation plate is used for uniformly dividing the internal part of the honeycomb hollow column in an up-down symmetrical mode.

The top and the bottom of the first heat insulation and heat preservation plate are fixedly connected with each other and used for reinforcing the supporting force of the honeycomb hollow column, and meanwhile, the second heat insulation and heat preservation plate further separates the external cold air.

The honeycomb hollow column is characterized in that symmetrical spaces divided by the first heat insulation board pass through the second heat insulation board to form a plurality of evenly distributed equilateral triangle spaces.

The outer wall of the heat insulation assembly is fixedly connected with a sticky wall used for enhancing the stability of the connection position of the heat insulation assembly and the storage cavity.

The heat insulation cavity is located on the outer side of the storage cavity, and the storage cavity is located between the symmetrically arranged heat insulation cavities.

The utility model has the beneficial effects that: under the effect of the reinforcing plate, the reinforcing plate in the frame body can play a role in reinforcing and supporting the inner cavity of the original hollow frame body, the defect that the supporting force of a hollow door frame is not enough in use is overcome, the heat insulation performance of the door frame can be effectively improved under the effect of the heat insulation assembly, the heat insulation layer in the heat insulation assembly plays a main role in heat insulation and heat preservation, the honeycomb hollow column in the heat insulation layer can effectively play a role in blocking heat conduction of a plate, the first heat insulation plate and the second heat insulation plate arranged in the honeycomb hollow column can further improve the heat insulation effect of the plate, the equilateral triangle formed between the adjacent second heat insulation plates can enhance the stability of the inner space of the honeycomb hollow column, the situation that the honeycomb hollow column deforms in the use process is prevented from being compared with the traditional door frame, and the heat insulation performance of the door frame can be improved while the stability of the door frame is enhanced, and the heat insulation component for improving the heat insulation performance of the door frame can further improve the stability of the door frame.

The parts of the device not involved are the same as or can be implemented using prior art.

Drawings

FIG. 1 is a schematic perspective view of a frame body according to the present invention;

FIG. 2 is a schematic front view of the present invention;

FIG. 3 is a schematic perspective sectional view of the heat insulating module according to the present invention;

FIG. 4 is an enlarged view of the detail A of FIG. 3 according to the present invention.

In the figure: 1. a frame body; 11. a reinforcing plate; 12. a storage chamber; 13. a thermally insulating cavity; 2. a heat preservation assembly; 21. a connecting frame; 22. a heat-insulating substrate; 23. a thermal insulation layer; 231. a honeycomb hollow column; 232. a first heat insulation board; 233. a second heat insulation board; 24. and (3) a composite fiber layer.

Detailed Description

Referring to fig. 1-4, the present invention provides the following technical solutions: the utility model provides a high strength heat preservation door frame panel with reinforcement structure, includes framework 1 and is used for improving the heat preservation subassembly 2 of 1 heat preservation performance of framework, the inside fixedly connected with a plurality of framework 1 is used for the reinforcing plate 11 of 1 crushing resistance of framework and stability, heat preservation subassembly 2 is including the connection box 21 that plays the joint action and play the heat preservation effect the heat preservation base plate 22, be used for the reinforcing the insulating layer 23 and the reinforcing of 2 heat preservation heat-proof quality of heat preservation subassembly 2 toughness the composite fiber layer 24 of 2 toughness of heat preservation subassembly, just the symmetrical fixed connection of heat preservation base plate 22 in the inside of connection box 21, insulating layer 23 with composite fiber layer 24 is located between the heat preservation base plate 22 that two symmetries set up, just insulating layer 23 fixed connection in the top of composite fiber layer 24, the inside of insulating layer 23 is equipped with the reinforcing that is used for of a plurality of evenly distributed the insulating layer 23 internal stability reduces simultaneously the insulating layer 23 is inside to be led A thermally-functional honeycomb hollow column 231.

In this embodiment: the reinforcing plate 11 in the frame body 1 can play a role in reinforcing and supporting the inner cavity of the originally hollow frame body 1, the defect that the supporting force of a hollow door frame is insufficient in use is overcome, the heat preservation assembly 2 in the storage cavity 12 can effectively improve the indoor heat preservation effect of the door frame in the use process, the comfort of a user in the use process is improved, the heat preservation assembly 2 can further improve the overall stability and the pressure resistance of the frame body 1 while increasing the heat preservation effect in the use process, so that the quality of the frame body 1 is further improved, the heat insulation layer 23 in the heat preservation assembly 2 plays a main heat insulation role, the honeycomb hollow column 231 in the heat insulation layer 23 can effectively block the heat conduction of a plate, and compared with the traditional door frame, the door frame can improve the heat preservation performance of the door frame while enhancing the stability of the door frame, and the heat preservation component 2 for improving the heat preservation performance of the door frame can further promote the stability of the door frame.

The inner space of the frame body 1 is divided into a plurality of storage cavities 12 for placing the heat preservation assemblies 2 and a heat insulation cavity 13 by the reinforcing plate 11; wherein deposit the mutually supporting of chamber 12 and thermal-insulated cavity 13, can make when depositing the heat preservation subassembly 2 in chamber 12 in the air to the external world in the contact, the air of external world plays effectual wall separation, and the long time that the extension external air arrived heat preservation subassembly 2 to can improve heat preservation subassembly 2's life.

The heat preservation assembly 2 is fixedly connected to the inside of the storage cavity 12.

A first heat insulation board 232 for heat insulation is fixedly connected inside the honeycomb hollow column 231, and the first heat insulation board 232 uniformly divides the inside of the honeycomb hollow column 231 in an up-down symmetrical manner; at this time, the first heat insulation board 232 can provide a carrier for the connection of the subsequent second heat insulation board 233, and the stability of the inner space of the honeycomb hollow column 231 and the heat insulation effect thereof are increased.

The top and the bottom of the first heat insulation board 232 are both fixedly connected with a second heat insulation board 233 which is used for enhancing the supporting force of the honeycomb hollow column 231 and simultaneously playing a role in further blocking outside cold air; after the second heat insulation board 233 equally divides the inner space of the hollow honeycomb column 231, the external pressure on the hollow honeycomb column 231 is uniformly dispersed, so that the bearing and compression resistance of the hollow honeycomb column 231 are improved, the stability and compression resistance of the door frame are further improved, and the service life of the door frame is prolonged.

Symmetrical spaces divided by the first heat insulation and preservation plate 232 in the honeycomb hollow column 231 are divided by the second heat insulation and preservation plate 233 to form a plurality of evenly distributed equilateral triangle spaces; the equilateral triangle formed by the second heat insulation board 233 and the inner wall of the honeycomb hollow column 231 can effectively enhance the stability of the inner space of the honeycomb hollow column 231.

The outer wall fixedly connected with of heat preservation subassembly 2 be used for the reinforcing heat preservation subassembly 2 with deposit the glutinous wall of chamber 12 junction stability.

The heat insulation cavity 13 is located on the outer side of the storage cavity 12, and the storage cavity 12 is located between the heat insulation cavities 13 which are symmetrically arranged.

The working principle and the using process of the utility model are as follows: in the use process of the plate, the reinforcing plate 11 in the frame body 1 can play a role of reinforcing and supporting an inner cavity of the originally hollow frame body 1, the defect that the supporting force of a hollow door frame is insufficient in use is overcome, the heat preservation assembly 2 in the storage cavity 12 can effectively improve the indoor heat preservation effect of the door frame in the use process, the comfort of a user in the use process is improved, the heat preservation effect of the heat preservation assembly 2 in the use process is improved, meanwhile, the overall stability and the compressive resistance of the frame body 1 can be further improved, so that the quality of the frame body 1 is further improved, the heat insulation layer 23 in the heat preservation assembly 2 plays a main heat insulation role, the honeycomb hollow column 231 in the heat insulation layer 23 can effectively play a role of hindering the heat conduction of the plate, and the first heat insulation plate 232 and the second heat insulation plate 233 which are arranged in the honeycomb hollow column 231 can further improve the heat preservation effect of the plate, and the equilateral triangle that forms between the adjacent second thermal-insulated heated board 233 can strengthen the stability of the inner space of the hollow post 231 of honeycomb, prevents that in the use, the hollow post 231 of honeycomb the condition of deformation from appearing, compares in traditional door frame, and this door frame can improve the thermal insulation performance of door frame in reinforcing door frame stability, and is used for improving the thermal insulation component 2 of door frame thermal insulation performance can further promote the stability of door frame.

Claims (8)

1. The utility model provides a high strength heat preservation door frame panel with reinforcement structure which characterized in that: comprises a frame body and a heat preservation component for improving the heat preservation performance of the frame body, wherein a plurality of reinforcing plates for enhancing the compression resistance and the stability of the frame body are fixedly connected inside the frame body, the heat-insulating component comprises a connecting frame with a connecting function, a heat-insulating base plate with a heat-insulating function, a heat-insulating layer for enhancing the heat-insulating property of the heat-insulating component and a composite fiber layer for enhancing the toughness of the heat-insulating component, the heat insulation substrates are symmetrically and fixedly connected inside the connecting frame, the heat insulation layer and the composite fiber layer are positioned between the two symmetrically arranged heat insulation substrates, and insulating layer fixed connection in the top of composite fiber layer, the inside of insulating layer is equipped with a plurality of evenly distributed and is used for the reinforcing insulating layer internal stability reduces simultaneously the hollow post of honeycomb of the inside heat conductivity of insulating layer.

2. The high-strength heat-insulating door frame plate with the reinforcing structure as claimed in claim 1, wherein: the reinforcing plate divides the inner space of the frame body into a plurality of storage cavities for placing the heat preservation assemblies and heat insulation cavities.

3. The high-strength heat-insulating door frame plate with the reinforcing structure as claimed in claim 2, wherein: the heat preservation assembly is fixedly connected to the inside of the storage cavity.

4. The high-strength heat-insulating door frame plate with the reinforcing structure as claimed in claim 1, wherein: the internal fixedly connected with of the hollow column of honeycomb plays thermal-insulated heat preservation's first thermal-insulated heated board, just first thermal-insulated heated board will the internal symmetry of the hollow column of honeycomb is evenly cut apart from top to bottom.

5. The high-strength thermal insulation doorframe plate with a reinforcing structure as claimed in claim 4, wherein: the top and the bottom of the first heat insulation and heat preservation plate are fixedly connected with a second heat insulation and heat preservation plate which is used for enhancing the supporting force of the honeycomb hollow column and simultaneously plays a role in further separating outside cold air.

6. The high-strength thermal insulation doorframe plate with a reinforcing structure as claimed in claim 5, wherein: the honeycomb hollow column is characterized in that symmetrical spaces divided by the first heat insulation and heat preservation plate pass through the partitions of the second heat insulation and heat preservation plate to form a plurality of evenly distributed equilateral triangle spaces.

7. The high-strength heat-insulating door frame plate with the reinforcing structure as claimed in claim 2, wherein: the outer wall fixedly connected with of heat preservation subassembly be used for strengthening the heat preservation subassembly with deposit the sticky wall of chamber junction stability.

8. The high-strength heat-insulating door frame plate with the reinforcing structure as claimed in claim 2, wherein: the heat insulation cavity is located on the outer side of the storage cavity, and the storage cavity is located between the symmetrically arranged heat insulation cavities.

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