CN217652448U

CN217652448U - Energy-saving and heat-insulating heavy steel factory building structure with interlayer

Info

Publication number: CN217652448U
Application number: CN202221019775.XU
Authority: CN
Inventors: 沈建新
Original assignee: Zhejiang Dadong Wuhangxiao Green Construction Technology Co ltd
Current assignee: Zhejiang Dadong Wuhangxiao Green Construction Technology Co ltd
Priority date: 2022-04-29
Filing date: 2022-04-29
Publication date: 2022-10-25
Anticipated expiration: 2032-04-29

Abstract

The energy-saving and heat-insulating heavy steel workshop structure with the interlayer comprises a wall body, workshop stand columns and workshop cross beams, wherein the workshop stand columns are arranged on two sides of the wall body, the wall body and the workshop stand columns are positioned below the workshop cross beams and support the workshop cross beams, and the workshop stand columns are connected with the workshop cross beams; the wall comprises a wall frame, wherein the wall frame comprises an upper supporting part for supporting a workshop crossbeam, two wall uprights located below the upper supporting part and connected with the upper supporting part, and a frame bottom for connecting the two wall uprights; and a heat-insulating layer is arranged in a space surrounded by the wall body frame, and an external wall plate and an internal wall plate which are connected with the side surfaces of the inner side and the outer side of the wall body frame are arranged on two sides of the heat-insulating layer. The utility model discloses, provide powerful support by factory building stand and wall body for the factory building crossbeam, the potential safety hazard of factory building crossbeam is littleer, and the inside heat preservation that sets up of wall body plays energy-conserving heat preservation effect.

Description

Energy-saving and heat-insulating heavy steel factory building structure with interlayer

Technical Field

The utility model relates to an industry and civil building technical field especially relate to take interlayer energy-conserving heat preservation heavy steel factory building structure.

Background

Along with the continuous development of the industrial technical level, steel structure plants are more and more widely applied. The steel structure factory building has the advantages of light weight, high strength, large span, short construction period, low investment cost and the like. In order to improve the heat insulation performance of a steel structure factory building in winter and take energy conservation into consideration, a wall body is generally made into a wall body structure with a heat insulation foam interlayer, and the use of heating electric appliances such as an air conditioner is reduced.

For one of steel structure plants, namely a heavy steel plant, the structural strength, load bearing capacity and shock resistance of the beam must be considered in a key manner, so that the safety performance of the beam is ensured. At present, steel structure factory building includes heavy steel factory building, and the crossbeam only is supported by the stand, and the position that is in between the stand on the crossbeam lacks effective support, potential safety hazards such as fracture appear easily.

SUMMERY OF THE UTILITY MODEL

To prior art's weak point, the utility model provides a take energy-conserving heat preservation heavy steel factory building structure of intermediate layer provides powerful support for the factory building crossbeam by factory building stand and wall body, and the potential safety hazard of factory building crossbeam is littleer, and the inside heat preservation that sets up of wall body plays energy-conserving heat preservation effect.

The energy-saving and heat-insulating heavy steel workshop structure with the interlayer comprises a wall body, workshop stand columns and workshop cross beams, wherein the workshop stand columns are arranged on two sides of the wall body, the wall body and the workshop stand columns are positioned below the workshop cross beams and support the workshop cross beams, and the workshop stand columns are connected with the workshop cross beams; the wall comprises a wall frame, wherein the wall frame comprises an upper supporting part for supporting a workshop crossbeam, two wall uprights located below the upper supporting part and connected with the upper supporting part, and a frame bottom for connecting the two wall uprights; and an insulating layer is arranged in a space surrounded by the wall body frame, and an external wall plate and an internal wall plate which are connected with the side surfaces of the inner side and the outer side of the wall body frame are arranged on the two sides of the insulating layer.

Among this technical scheme, the factory building crossbeam is connected on the factory building stand and is supported jointly by wall body and factory building stand, and factory building stand and frame construction's wall body provides powerful support for the factory building crossbeam, and the potential safety hazard of factory building crossbeam is littleer, and the inside heat preservation that sets up of wall body plays energy-conserving heat preservation effect.

Preferably, the bottom of factory building crossbeam is provided with the location slot one that extends along factory building crossbeam length direction, the top of going up the supporting part is provided with along going up supporting part length direction extend with location slot one complex location insert post one. On the one hand, post cooperation positioning slot one is inserted in the location, make the factory building crossbeam still by the wall body restriction when the restriction is connected on the factory building stand, the shock resistance of crossbeam and whole heavy steel factory building has been promoted, on the other hand, the factory building crossbeam is when installation and connection, need confirm that the position of being connected between factory building crossbeam and the factory building stand will accurately aim at, and because the factory building crossbeam comes shift position through the hoist, be used for on the factory building crossbeam with the factory building stand be connected the position of being connected after removing directly over the factory building stand and when descending, the factory building crossbeam is easy swing in the air, the hookup location department on two factory building stands of accurate location is difficult to simultaneously to the hookup location department at factory building crossbeam both ends, and this application, insert post one and positioning slot one through the location, in the descending process of factory building crossbeam, can be convenient, fast with the hookup location of factory building crossbeam both ends two the hookup location department of factory building stand.

Preferably, the plant crossbeam is connected with the upper supporting part through a plurality of fasteners. The cross beams of the plant are connected with the wall, so that the shock resistance of the whole heavy steel plant is further improved.

Preferably, the fastener is a stud, and a through hole for the stud to pass through is formed in the plant crossbeam; and a threaded hole matched and connected with the stud is formed in the top of the upper supporting part.

Preferably, the factory building stand with the factory building crossbeam passes through connection structure and links to each other, connection structure includes the connecting plate, passes the connecting plate fastens a plurality of fasteners on factory building stand and factory building crossbeam with the connecting plate. The connection structure is adopted to connect the plant upright posts and the plant cross beams, so that the connection is convenient and the structure is simple.

Preferably, the number of the wall body frames is multiple, and the wall body is formed by splicing the wall body frames; in the wall frame, a first splicing groove is formed in the side face, away from the other wall stand, of one wall stand, a first splicing part matched with the first splicing groove is formed in the other wall stand, and the first splicing groove and the first splicing part both extend upwards from the bottom of the wall frame. The wall body is formed by splicing a plurality of wall body frames, the disassembly transportation of the wall body can be realized, the transportation difficulty is reduced, the disassembly hoisting of the wall body can be realized, and the hoisting difficulty and the requirement on hoisting equipment are reduced. When the wall body is assembled, one wall body frame is lifted and inserted into the first splicing groove or the first splicing part of the other wall body frame.

Preferably, two plant columns located on two sides of the wall body are respectively provided with a splicing part two matched with the splicing groove one and a splicing groove two matched with the splicing part one.

To sum up, the utility model discloses following beneficial effect has:

1: the plant columns and the wall bodies provide powerful support for the plant beams, and potential safety hazards of the plant beams are smaller.

Drawings

FIG. 1 is an installation schematic diagram of a wall, a plant column and a plant beam;

FIG. 2 is an exploded view of the wall and the cross beam of the plant;

FIG. 3 is a schematic view of a wall structure;

fig. 4 is a structural view of two plant columns on both sides of a wall.

Detailed Description

The present invention will be further explained by the following embodiments with reference to the attached drawings.

Example 1: as shown in fig. 1-3, the energy-saving and heat-insulating heavy steel factory building structure with a sandwich layer comprises a wall 1, factory building columns 2 and factory building beams 3, wherein the factory building columns 2 are arranged on two sides of the wall 1, the wall 1 and the factory building columns 2 are positioned below the factory building beams 3 and support the factory building beams 3, and the factory building columns 2 are connected with the factory building beams 3; the wall body 1 comprises a wall body frame 11, the wall body frame 11 has excellent structural strength, and the wall body frame 11 comprises an upper supporting part 111 for supporting a workshop crossbeam 3, two wall body uprights 112 which are positioned below the upper supporting part 111 and connected with the upper supporting part 111, and a frame bottom part 113 for connecting the two wall body uprights 112; an insulating layer 12 is arranged in a space surrounded by the wall frame 11, and an external wallboard 13 and an internal wallboard 14 which are connected with the side surfaces of the inner side and the outer side of the wall frame 11 are arranged on two sides of the insulating layer 12.

Among this technical scheme, factory building crossbeam 3 is connected on factory building stand 2 and is supported by wall body 1 and factory building stand 2 jointly, and factory building stand 2 and frame construction's wall body 1 provides powerful support for factory building crossbeam 3, and the potential safety hazard of factory building crossbeam is littleer, and the heat preservation 12 of 1 inside settings of wall body plays energy-conserving heat preservation effect, reduces the use that heats electrical apparatus such as air conditioner.

Preferably, the bottom of the plant cross beam 3 is provided with a first positioning slot 31 extending along the length direction of the plant cross beam 3, and the top of the upper supporting part 111 is provided with a first positioning insertion column 114 extending along the length direction of the upper supporting part 111 and matching with the first positioning slot 31. On the one hand, post 114 cooperation location slot one 31 is inserted in the location, make factory building crossbeam 3 still be restricted by wall body 1 when being restricted to connect on factory building stand 2, the shock resistance of crossbeam 3 and whole heavy steel factory building has been promoted, on the other hand, factory building crossbeam 3 is when installation and connection, need confirm that the position of being connected between factory building crossbeam 3 and the factory building stand 2 will accurately aim at, and because factory building crossbeam 3 is through hoist shift position, be used for on the factory building crossbeam 3 with the position of being connected of factory building stand 2 when removing behind the factory building stand 2 and descend, factory building crossbeam 3 is easy swing in the air, the hookup location department on two factory building stands 2 is difficult to accurately fix a position simultaneously at the hookup location at factory building crossbeam 3 both ends, and this application, insert post 114 and location slot one 31 through the location, in factory building crossbeam 3 decline in-process, can be convenient, fix a position two with the hookup location at factory building crossbeam 3 both ends fast factory building crossbeam 2 hookup location department.

Factory building crossbeam 3 is connected with last supporting part 111 through a plurality of fasteners 4, couples together factory building crossbeam 3 and wall body, has further promoted the shock resistance of whole heavy steel factory building, fastener 4 is the double-screw bolt. A through hole 32 for a stud to pass through is formed in the plant crossbeam 3; the top of the upper supporting part 111 is provided with a threaded hole 115 which is matched and connected with the stud.

Factory building stand 2 with factory building crossbeam 3 links to each other through connection structure 5, connection structure 5 includes connecting plate 51, passes connecting plate 51 fastens a plurality of fasteners 52 on factory building stand 2 and factory building crossbeam 3 with connecting plate 51, and fastener 52 is the bolt fastener, adopts this connection structure to connect factory building stand 2 and factory building crossbeam 3, and it is convenient to connect, and simple structure.

Preferably, the number of the wall frames 11 is multiple, and the wall 1 is formed by splicing the multiple wall frames 11; in the wall frame 11, a first splicing groove 61 is formed in one of the wall columns 112, the first splicing groove 61 is formed in a side surface, away from the other wall column 112, of the wall column 112, a first splicing portion 62 matched with the first splicing groove 61 is formed in the other wall column 112, and the first splicing groove 61 and the first splicing portion 62 both extend upwards from the bottom of the wall frame 11. Wall body 1 forms through the concatenation of a plurality of wall body frame 11, can realize the partition transportation of wall body 1, reduces the transportation degree of difficulty, can realize the partition hoist and mount of wall body, has reduced the hoist and mount degree of difficulty and has reached lifting device's requirement. When the wall body 1 is assembled, one wall body frame 11 is lifted and inserted into the first splicing groove 61 or the first splicing part 62 of the other wall body frame 11, and the assembling process is simple and convenient.

Furthermore, be located two of wall 1 both sides be provided with respectively on the factory building stand 2 with splice groove one 61 complex splice portion two 71 and with splice portion one 62 complex splice groove two 72, splice groove two 72 extends to the bottom surface of factory building stand 2 from the top surface of factory building stand 2, splice portion two 71 extends to the bottom surface of factory building stand 2 from the top surface of factory building stand 2. Generally, when making the factory building, earlier fixed factory building stand 2 is connected wall body and factory building stand 2, and this embodiment, factory building stand 2 and wall frame 11 form through the concatenation, have simplified the connection between the two, during the concatenation, hang wall frame 11 and cartridge to the two 71 or two 72 splice grooves of splice part of factory building stand 2 on, simple and convenient.

Preferably, the surface of the heat-insulating layer 12 is covered with a fireproof layer, which prevents the heat-insulating layer 12 from burning and reduces the occurrence of factory safety accidents, and the fireproof layer is not shown in the figure.

The above-described embodiments are merely illustrative of the preferred embodiments of the present invention and are not intended to limit the spirit and scope of the present invention. Without departing from the design concept of the present invention, various modifications and improvements made by the technical solutions of the present invention should fall within the protection scope of the present invention, and the technical contents claimed in the present invention have been fully recorded in the claims.

Claims

1. The energy-saving heat-insulating heavy steel workshop structure with the interlayer comprises a wall body (1), workshop uprights (2) and workshop cross beams (3), wherein the workshop uprights (2) are arranged on two sides of the wall body (1), and is characterized in that the wall body (1) and the workshop uprights (2) are positioned below the workshop cross beams (3) and support the workshop cross beams (3), and the workshop uprights (2) are connected with the workshop cross beams (3); the wall body (1) comprises a wall body frame (11), wherein the wall body frame (11) comprises an upper supporting part (111) for supporting a workshop crossbeam (3), two wall body upright posts (112) which are positioned below the upper supporting part (111) and connected with the upper supporting part (111), and a frame bottom (113) for connecting the two wall body upright posts (112); and an insulating layer (12) is arranged in a space surrounded by the wall frame (11), and external wall panels (13) and internal wall panels (14) connected with the side surfaces of the inner side and the outer side of the wall frame (11) are arranged on two sides of the insulating layer (12).

2. The energy-saving and heat-insulating heavy steel factory building structure with the interlayer as claimed in claim 1, wherein the bottom of the factory building beam (3) is provided with a first positioning slot (31) extending along the length direction of the factory building beam (3), and the top of the upper support part (111) is provided with a first positioning insertion column (114) extending along the length direction of the upper support part (111) and matched with the first positioning slot (31).

3. The energy-saving and heat-insulating heavy steel factory building structure with interlayers according to claim 1, wherein the factory building crossbeam (3) is connected with the upper support part (111) by a plurality of fasteners (4).

4. The energy-saving and heat-insulating heavy steel factory building structure with the interlayer as claimed in claim 3, wherein the fasteners (4) are studs, and the factory building cross beam (3) is provided with through holes (32) for the studs to pass through; and a threaded hole (115) which is matched and connected with the stud is formed in the top of the upper supporting part (111).

5. Energy-saving and heat-insulating heavy steel factory building structure with interlayers according to claim 1, characterized in that the factory building columns (2) and the factory building beams (3) are connected by a connecting structure (5), the connecting structure (5) comprising a connecting plate (51), a plurality of fasteners (52) passing through the connecting plate (51) to fasten the connecting plate (51) on the factory building columns (2) and the factory building beams (3).

6. The energy-saving and heat-insulating heavy steel factory building structure with the interlayer as claimed in claim 1, wherein the number of the wall frames (11) is multiple, and the wall (1) is formed by splicing the multiple wall frames (11); in the wall frame (11), a first splicing groove (61) is formed in the side face, away from the other wall column (112), of one wall column (112), a first splicing part (62) matched with the first splicing groove (61) is formed in the other wall column (112), and the first splicing groove (61) and the first splicing part (62) both extend upwards from the bottom of the wall frame (11).

7. The energy-saving and heat-insulating heavy steel factory building structure with the interlayer as claimed in claim 6, wherein two factory building columns (2) on two sides of the wall body (1) are respectively provided with a second splicing part (71) matched with the first splicing groove (61) and a second splicing groove (72) matched with the first splicing part (62).

8. The energy-saving and heat-insulating heavy steel plant structure with interlayers according to claim 1, characterized in that the surface of the heat-insulating layer (12) is covered with a fire-proof layer.