CN219732360U

CN219732360U - System heat preservation structure of storage type building

Info

Publication number: CN219732360U
Application number: CN202321011558.0U
Authority: CN
Inventors: 张涛; 杭幸聪; 章军
Original assignee: Wuxi Kangcheng Qiheng Zero Carbon Building Technology Co ltd; Academy of National Food and Strategic Reserves Administration
Current assignee: Wuxi Kangcheng Qiheng Zero Carbon Building Technology Co ltd; Academy of National Food and Strategic Reserves Administration
Priority date: 2023-04-28
Filing date: 2023-04-28
Publication date: 2023-09-22
Anticipated expiration: 2033-04-28

Abstract

The utility model relates to the technical field of building heat preservation structures, and provides a system heat preservation structure of a storage building, which comprises: the wall insulation structure comprises a wall insulation layer arranged on the inner side or the outer side of a wall body and a pipeline insulation layer surrounding between a wall penetrating pipeline and the wall body, wherein a first waterproof annular sleeve is sleeved on one side of the wall penetrating pipeline outside a room, and the first waterproof annular sleeve is formed with a first flanging covering a joint gap between the pipeline insulation layer and the wall body; an expansion sealing belt for filling the joint gap between the wall heat-insulating layer and the pipeline heat-insulating layer is wound on one side of the wall heat-insulating layer in a room; and the connecting component is used for covering and fixing the end part of the heat insulation layer at the external corner and the internal corner. The utility model overcomes the defects of the prior art, not only lays heat insulation layers on roofs, walls and floors, but also designs heat insulation treatment on transition parts such as wall penetrating pipelines, external corners and internal corners, and the like, thereby improving the continuity of the whole heat insulation structure of the system.

Description

System heat preservation structure of storage type building

Technical Field

The utility model relates to the technical field of building heat-insulating structures, in particular to a system heat-insulating structure of a storage building.

Background

The heat preservation structure of the system of the storage type building is limited by internal storage materials, such as grain type storage materials of wheat and the like, is easily affected by temperature, has overhigh temperature, strengthens the breathing effect of the system, reduces the germination rate and the content of nutrient components, affects the quality, accelerates the propagation of microorganisms and pests, and further affects the quality. Fig. 1 shows a square granary which is mainly composed of an arc-shaped roof 1, an outer wall 2, a column 3, a truss (not shown in the figure, arranged above the outer wall and used for supporting the roof), and the like, and the system heat insulation structure of the square granary generally comprises a passive heat insulation structure mainly composed of heat insulation layers covering the roof, the wall and the ground, and an active temperature adjustment structure mainly composed of a temperature monitoring probe, an air conditioner 4, and the like.

The roof heat-insulating layer and the waterproof layer of the passive heat-insulating structure are easy to accumulate rainwater, so that heat-insulating performance is affected; meanwhile, for example, a through-wall pipeline such as an air conditioner refrigerant pipeline can penetrate through an original heat insulation layer of a wall body, and a gap formed between the through-wall pipeline and the heat insulation layer of the wall body can also influence heat insulation performance.

Therefore, we propose a system insulation structure of warehouse-like building.

Disclosure of Invention

(one) solving the technical problems

Aiming at the defects of the prior art, the utility model provides a system heat-insulating structure of a warehouse-like building, overcomes the defects of the prior art, and solves the technical problem that the heat-insulating performance of the system heat-insulating structure needs to be further improved.

(II) technical scheme

In order to achieve the above purpose, the utility model is realized by the following technical scheme:

the utility model provides a system insulation structure of storage class building which characterized in that: comprising the steps of (a) a step of,

the roof heat insulation structure comprises a first waterproof layer, a roof external heat insulation layer, a second waterproof layer and a surface layer which are sequentially arranged on a roof from top to bottom;

the wall insulation structure comprises a wall insulation layer arranged on the inner side or the outer side of a wall and a pipeline insulation layer surrounding between a wall penetrating pipeline and the wall, wherein a first waterproof annular sleeve is sleeved on one side of the wall penetrating pipeline outside, the first waterproof annular sleeve is formed with a first flanging covering a joint gap between the pipeline insulation layer and the wall, a second waterproof annular sleeve is sleeved between the pipeline insulation layer and the wall insulation layer, and a second flanging embedded between an outer wall and the wall insulation layer is formed on the second waterproof annular sleeve; the wall insulation layer is positioned on one indoor side and is wound with an expansion sealing belt for filling a joint gap between the wall insulation layer and the pipeline insulation layer;

the ground heat preservation structure comprises a ground heat preservation layer arranged on the ground.

Further, the wall insulation layer is provided with a groove which is arranged around the pipeline insulation layer, and the expansion sealing strip is embedded into the groove.

Further, a connecting component is arranged at the external corner of the wall body or the external corner of the upright post, and the connecting component is used for covering and fixing the end part of the wall body heat-insulating layer.

Further, a connecting component is arranged at the internal corner of the wall body, the internal corner of the wall body and the ground or the internal corner of the upright post and the wall body, and the connecting component is used for covering and fixing the end part of the wall body heat-insulating layer.

Further, the connecting assembly comprises a first section bar, a second section bar and a heat-insulating rivet;

the first section bar comprises a pair of first wing plates which are mutually perpendicular to each other and an inner supporting plate which extends inwards from the intersection of the pair of first wing plates, and a waist-shaped clamping part is formed at the end part of the inner supporting plate;

the second profile comprises a pair of second wing plates which are vertically intersected and an outer supporting plate which extends outwards from the intersection of the pair of second wing plates, a U-shaped clamping and matching part is formed at the end part of the outer supporting plate, and inwards extending limiting protrusions are arranged at the end parts of clamping arms at two sides of the clamping and matching part;

the clamping part of the first section bar is inserted into the clamping matching part of the second section bar, a pair of first wing plates and a pair of second wing plates are arranged in parallel and at intervals to form a right-angle-shaped accommodating groove, and the end parts of the wall insulation layers on the two sides of the external corner/internal corner are inserted into the accommodating groove;

the heat-insulating rivet penetrates through the first wing plate, the wall heat-insulating layer and the second wing plate and is fixedly connected with the wall/upright post.

Preferably, reinforcing ribs are arranged between the inner supporting plate and the first wing plates on two sides.

Preferably, the thickness of the outer support plate increases from one side of the clamping fit portion to one side of the second wing plate.

Preferably, a guide inclined plane is arranged on the upper side of the limiting protrusion.

Preferably, the bottom of the U-shaped groove opening of the clamping matching part is provided with a notch extending downwards along the symmetrical surface of the U-shaped groove opening.

(III) beneficial effects

The utility model provides a system heat preservation structure of a warehouse-type building, which has the following beneficial effects:

1. the roof heat-insulating structure is provided with the double waterproof layers and forms a sandwich structure with the roof heat-insulating layer, so that the waterproof effect is improved, rainwater is prevented from accumulating between the roof heat-insulating layer and the waterproof layers, and the heat-insulating performance is further improved;

2. the gaps among the wall penetrating pipeline, the cavity and the wall heat insulation structure are filled with the pipeline heat insulation layer, and the wall penetrating pipeline is sleeved with a waterproof ring sleeve so as to prevent rainwater from entering the space among the wall heat insulation layer, the pipeline heat insulation layer and the wall, and further improve heat insulation performance; the external corners and the internal corners of the wall body are respectively covered and fixed on the end parts of the wall body heat-insulating layer through the connecting components, so that on one hand, rainwater can be greatly reduced or even prevented from entering and accumulating from the joint parts of the wall body heat-insulating layers on the two side surfaces of the external corners and the internal corners, and further, the heat-insulating performance is improved; on the other hand, the wall insulation layers on the two side surfaces of the external corner and the internal corner can be prevented from tilting at the joint, and the wall insulation layers can be better attached to the corresponding side surfaces, so that the insulation performance is improved. On the basis of paving heat insulation layers on roofs, walls and floors, the utility model designs heat insulation treatment for excessive parts such as wall-penetrating pipelines, external corners and internal corners, and the like, and improves the overall consistency of a heat insulation structure of the system.

Drawings

FIG. 1 is a side view of a prior art square grain depot;

FIG. 2 is a schematic cross-sectional view of a roofing insulation structure of the present utility model;

FIG. 3 is a schematic cross-sectional view of a wall insulation structure according to the present utility model;

FIG. 4 is a schematic cross-sectional view of the external corner of the wall according to the present utility model;

FIG. 5 is a schematic view of the structure of the connection assembly mated with the external corner in the present utility model;

FIG. 6 is a schematic view of the structure of FIG. 5 with a partial enlargement at A;

FIG. 7 is a schematic view of a second view of the connecting assembly of the present utility model;

FIG. 8 is a schematic view of the structure of a first section bar according to the present utility model;

fig. 9 is a schematic structural view of a second profile in the present utility model.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model, and it is apparent that the described embodiments are some embodiments of the present utility model, but not all embodiments of the present utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-9, a system insulation structure for a warehouse-type building, comprising,

the roof heat insulation structure comprises a first waterproof layer, a roof external heat insulation layer 14, a second waterproof layer 15 and a surface layer 16 which are sequentially arranged on a roof 1 from top to bottom;

the wall insulation structure comprises a wall insulation layer 5 arranged on the inner side or the outer side of a wall and a pipeline insulation layer 9 surrounding between a wall penetrating pipeline 41 and the wall, wherein a first waterproof annular sleeve 6 is sleeved on one side of the wall penetrating pipeline 41 outside, a first flanging 6b which extends along the radial direction and covers a joint gap between the pipeline insulation layer 9 and the wall is formed at the end part of a first sleeve main body 6a of the first waterproof annular sleeve, a second waterproof annular sleeve 7 is sleeved between the pipeline insulation layer and the wall insulation layer 5, and a second flanging 7b which extends along the radial direction and is embedded between an outer wall 2 and the wall insulation layer 5 is formed on a second sleeve main body 7a of the second waterproof annular sleeve; the wall insulation layer 5 is positioned on one indoor side and is wound with an expansion sealing belt 10 for filling a joint gap between the wall insulation layer 5 and the pipeline insulation layer 9, and in fig. 3, 8 is a wall painting layer;

the ground insulation structure comprises a ground insulation layer (not shown in the figure) arranged on the ground in the bin.

In this embodiment, the roof insulation layer, the wall insulation layer, and the ground insulation layer are all XPS boards, and other commercially available insulation boards, such as EPS polystyrene boards, may also be used. The pipeline heat insulation layer can adopt a polyurethane foam sleeve or a rubber plastic sleeve. The waterproof layer can be formed by paving a high polymer modified asphalt coiled material and a high polymer waterproof coiled material or spraying a high polymer waterproof coating. The expansion sealing band can be polytetrafluoroethylene expansion sealing band.

In this embodiment, the wall insulation layer 5 is provided with a groove surrounding the pipeline insulation layer, and the expansion sealing strip is embedded in the groove.

In the embodiment, connecting components are arranged at the external corners of the wall body or the external corners of the upright posts, and at the internal corners of the wall body or the internal corners of the upright posts and the wall body, and are used for covering and fixing the end parts of the wall body heat insulation layer 5. The connecting component comprises a first section bar 11, a second section bar 12 and a heat-insulating rivet 13 (also called as a heat-insulating rivet, and in order to improve the installation aesthetic property, a plastic end plate of the heat-insulating rivet 13 can be embedded in a wing plate of the section bar); the first section bar 11 comprises a pair of first wing plates 11a which are mutually perpendicular and intersected, and an inner supporting plate 11b which extends inwards from the intersection of the pair of first wing plates 11a, wherein a waist-shaped clamping part 11c is formed at the end part of the inner supporting plate 11 b; the second section bar 12 comprises a pair of vertically intersected second wing plates 12a and an outer supporting plate 12b extending outwards from the intersection of the pair of second wing plates 12a, a U-shaped clamping and matching part 12c is formed at the end part of the outer supporting plate 12b, inwards extending limit protrusions 12c-2 are arranged at the end parts of clamping and matching arms 12c-1 at the two sides of the clamping and matching part 12c, the limit protrusions 12c-2 are arc-shaped, guide inclined planes are arranged at the upper sides of the limit protrusions 12c-2 so as to facilitate the insertion of the clamping and matching parts, the lower sides of the lower protrusions 12c-2 are in transitional connection with the inner side walls of the clamping and matching arms 12c-1 through arc surfaces, the arc surfaces at the bottom of the inner sides of the clamping and matching arms 12c-1 can be matched and matched with the upper and lower arc surfaces of a waist-shaped structure of the clamping and matching part 11c, the clamping and matching part 11c of the first section bar 11 is inserted into the clamping and matching part 12c of the second section bar 12, the pair of first wing plates 11a and the pair of second wing plates 12a are parallel and are arranged at intervals so as to form right-angle-shaped holding grooves, and insulation wall bodies are inserted into the inner side surfaces of the two insulation walls; the heat-insulating rivet 13 penetrates through the first wing plate 11a, the wall heat-insulating layer and the second wing plate 12a and is fixedly connected with the wall/upright post. Fig. 4 shows a schematic view of the coupling assembly mated with the external corner, where the pair of second wings 12a of the second profile 12 are mated with the two sides of the external corner, and the opposite is true when the coupling assembly is mated with the internal corner, where the pair of first wings 11a of the first profile 11 are mated with the two sides of the internal corner.

In this embodiment, a reinforcing rib 11d is disposed between the inner support plate 11b and the first wing plates 11a on both sides; the thickness of the outer support plate 12b increases from the side of the engagement portion 12c to the side of the second wing plate 12 a. The reinforcing ribs 11d and the gradual change wall thickness of the outer support plate can effectively improve the strength of the corresponding support plate.

In this embodiment, the bottom of the U-shaped slot of the clamping and matching portion 12c is provided with a notch 12c-3 extending downwards along the symmetry plane thereof, so as to facilitate improving the elasticity of the clamping arms at two sides of the U-shape of the clamping and matching portion, and facilitate the outward elastic opening of the clamping arms when the clamping portion 11c is inserted, so as to avoid breakage.

In this embodiment, one end of the first section bar is provided with a first concave spigot 11a-1, the other end is provided with a first convex spigot 11a-2, two ends of the second section bar are provided with a second concave spigot 12a-1, and the other two ends are provided with a second convex spigot 12a-2, two sections of the same type section bars are spliced through the matching of the concave-convex spigot, and the splicing part of the two sections of the first section bar 11 and the splicing part of the two adjacent sections of the second section bar are staggered, so that the connection strength of the splicing part can be improved, the splicing gap is reduced, and rainwater infiltration is reduced.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

The above embodiments are only for illustrating the technical solution of the present utility model, and are not limiting; although the utility model has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present utility model.

Claims

1. A system insulation structure for a warehouse-like building, comprising:

2. The system insulation structure of claim 1, wherein the wall insulation layer is provided with a groove surrounding the pipeline insulation layer, and the expansion sealing strip is embedded in the groove.

3. The system insulation structure of a warehouse-type building as claimed in claim 1, wherein a connection assembly is provided at the crossing external corners of the wall body or the external corners of the upright posts, and the connection assembly is used for covering and fixing the end of the insulation layer of the wall body.

4. A system insulation structure for a warehouse-type building as claimed in claim 3, wherein a connection member is provided at an inside corner where the wall body intersects, an inside corner where the wall body intersects with the ground, or an inside corner where the column intersects with the wall body, the connection member being for covering and fixing an end portion of the wall insulation layer.

5. The system insulation structure of a warehouse-type building as claimed in claim 4, wherein the connection assembly comprises a first section bar, a second section bar, and a heat-insulating rivet;

6. The system insulation structure of claim 5, wherein reinforcing ribs are arranged between the inner support plate and the first wing plates at both sides.

7. The system insulation structure of claim 5, wherein the thickness of the outer support plate increases from one side of the snap fit portion to one side of the second wing.

8. The system insulation structure of claim 5, wherein the upper side of the limit projection is provided with a guide slope.

9. The thermal insulation structure of a warehouse-type building system as set forth in claim 5, wherein the U-shaped slot bottom of the snap-fit portion is provided with a notch extending downward along its symmetry plane.