CN211776187U - Closed type vehicle body processing chamber body - Google Patents

Abstract

The utility model discloses a closed type car body processing chamber body, which is provided with a main bearing structure (6); the main bearing structure (6) is provided with a vertical bearing column (1), a bearing main beam (2) and a bearing secondary beam (3); the main bearing beam (2) is horizontally erected on the two bearing columns (1); the bearing secondary beam (3) is erected on the two bearing main beams (2) in the horizontal direction. By adopting the technical scheme, the bearing structure not only can be used as a supporting framework of a production line chamber body, but also can be used as a direct or auxiliary fixing support of process and public equipment, so that the process application range of the vehicle body processing chamber body is expanded, and the space utilization rate is improved.

Description

Closed type vehicle body processing chamber body

Technical Field

The utility model belongs to the technical field of the automobile manufacture, a sealed automobile body processing production technology is equipped with the technique. More specifically, the present invention relates to a closed vehicle body processing chamber body. It is equipped with a supporting structure for direct hoisting of process and utility equipment.

Background

At present, a two-step construction method is adopted by a main engine plant when a sealed vehicle body processing production chamber is constructed, namely, a structure system for positioning vehicle body process equipment and bearing various dynamic and static loads and a load-bearing structure system for assembling an external chamber of public equipment such as an air conditioner, lighting and the like are respectively constructed.

After the traditional closed production line structure arrangement method is adopted, the following problems can occur:

1. because the equipment load-bearing structure system can additionally occupy a part of indoor positions, the building area is increased to make up the space occupation of the system when a production line chamber body is designed.

2. In order to ensure the welding and gluing quality of the car body, a constant-temperature and constant-humidity air conditioning system is generally required to be started in the room body.

Under the precondition that the external environment temperature and the efficiency of the air conditioning system are not changed, the larger the internal space of the chamber body is, the higher the energy consumption of the air conditioning system for keeping the constant temperature and humidity environment is.

SUMMERY OF THE UTILITY MODEL

The utility model provides a closed automobile body processing chamber body, its purpose is to enlarge its technology range of application, improves space utilization.

In order to realize the purpose, the utility model discloses the technical scheme who takes does:

the utility model discloses a closed type car body processing chamber body, which is provided with a main bearing structure; the main bearing structure is provided with a vertical bearing column, a main bearing beam and a secondary bearing beam; the bearing main beam is horizontally erected on the two bearing columns; the bearing secondary beam is erected on the two bearing main beams in the horizontal direction.

The main bearing structure is provided with a horizontal reinforcing and stabilizing structure and a vertical reinforcing and stabilizing structure; the horizontal reinforcing and stabilizing structure is cross-stayed between the two bearing secondary beams through the two pull rods; the vertical reinforcing and stabilizing structure is cross-stayed between the two bearing columns through the two pull rods.

And two ends of the pull rod are provided with anchoring structures.

The pull rod is also provided with a turn buckle structure.

The main bearing structure is provided with an outer facade enclosing structure; the structure of the outer facade enclosing structure is provided with a plate structure steel bar; the panel material of the exterior facade enclosing structure is a light heat-insulating wall material; the structural steel bars are fixed on the bearing columns in a welding mode.

The main bearing structure is provided with a lighting window.

The processing chamber body is provided with an adjustable equipment hoisting member for fixing a suspension type slide rail and a rack which are required to be erected by process equipment; the adjustable equipment hoisting member is provided with a member main body; the adjustable device hoisting member is characterized in that rectangular steel clamping plates are respectively arranged in the upper direction and the lower direction of the member main body, and the steel clamping plates are provided with a plurality of fastening holes and used for fixing the adjustable device hoisting member on the bearing secondary beam through clamping bolts.

The machining chamber body set up adjustable hoisting structure, adjustable hoisting structure be connected the equipment base through its self equipment gallows with adjustable hoisting structure, after adjusting suitable position, fixed adjustable hoisting structure again on overhanging type spandrel girder.

The processing chamber body is provided with a universal equipment bracket on the bearing column, the universal equipment bracket is a horizontal rod piece, and one end of the universal equipment bracket is fixedly connected with the bearing column; the two universal equipment supports are connected by a bridge member.

The above technical scheme is adopted in the utility model, bearing structure not only can regard as the supporting framework of the production line room body, also can regard as technology, public equipment's directness or supplementary fixed bolster to use, has enlarged the technology range of application of the automobile body processing room body, improves space utilization.

Drawings

The contents of the drawings and the reference numbers in the drawings are briefly described as follows:

FIG. 1 is a schematic view of the external structure of the production chamber of the present invention;

FIG. 2 is a schematic view of the main bearing structure of the production chamber body of the present invention;

FIG. 3 is a schematic view of the anchoring member at the end of the connecting rod for horizontally reinforcing the stabilizing structure;

fig. 4 is a vertical direction reinforced stabilizer bar end structure.

FIG. 5 is a schematic view of a connection structure of a main bearing beam and a secondary bearing beam;

FIG. 6 is a schematic view of an adjustable equipment hoisting member;

FIG. 7 is a schematic view of a fixed connection between an adjustable device hoisting member and a secondary beam;

FIG. 8 is a schematic structural view of a suspension manner of an adjustable hoisting structure;

fig. 9 is a schematic view of a cable and air pipe mounting bracket.

Labeled as:

1. the structure comprises bearing columns, 2, a bearing main beam, 3, a bearing secondary beam, 4, a horizontal reinforcing and stabilizing structure, 5, a vertical reinforcing and stabilizing structure, 6, a main bearing structure, 7, an outer vertical surface enclosing structure, 8, a lighting window, 9, an anchoring structure, 10, a turnbuckle structure, 11, a component main body, 12, a steel clamping plate, 13, a clamping bolt, 14, an equipment base, 15, an equipment hanging bracket, 16, an adjustable hoisting structure, 17, an overhanging type bearing beam, 18, a universal equipment support, 19 and a bridge component.

Detailed Description

The following detailed description of the embodiments of the present invention will be given with reference to the accompanying drawings for a more complete, accurate and thorough understanding of the inventive concept and technical solutions of the present invention by those skilled in the art.

As shown in fig. 1 to 9, the structure of the present invention is a closed type vehicle body processing chamber. Comprising a main load bearing structure 6 for house and equipment load bearing. The existing sealed type vehicle body processing production chamber body has a plurality of improvements in the aspects of space utilization rate and energy conservation and emission reduction.

In order to overcome the defects of the prior art, the invention aims to expand the process application range and improve the space utilization rate, the utility model adopts the technical scheme that:

as shown in fig. 2, the main bearing structure 6 of the present invention is provided with a vertical bearing column 1, a bearing main beam 2 and a bearing secondary beam 3; the main bearing beam 2 is horizontally erected on the two bearing columns 1; the bearing secondary beam 3 is erected on the two bearing main beams 2 in the horizontal direction. The main load-bearing structure 6 serves as the core load-bearing member of the present production chamber body, and the structure shown in fig. 2 bears the entire load of the present chamber body.

The utility model relates to a closed type vehicle body processing chamber body which is provided with a supporting structure capable of directly hoisting a process and public equipment; the vertical bearing structure is used for bearing longitudinal loads of a chamber body and equipment in the vertical direction, the horizontal bearing structure is used for bearing horizontal loads in the horizontal direction and providing a mounting position for fixing an auxiliary support, and the outer vertical surface enclosing structure is formed. The bearing structure in the chamber body can be used as a supporting framework of a production line chamber body, and can also be used as a direct/auxiliary fixing support of process and public equipment, so that the space utilization rate is improved.

The vertical direction bearing structure consists of a plurality of H-shaped or square section bearing columns 1; the horizontal bearing structure consists of a plurality of bearing main beams 2 with H-shaped sections and bearing secondary beams 3. And the bearing secondary beam 3 is connected with the rib plate on the bearing main beam 2 through a bolt. The connection mode of the main bearing beam 2 and the secondary bearing beam 3 can be as shown in figure 5, and the rib plates of the main bearing beam and the end parts of the secondary bearing beams are fastened by bolts to be lapped.

The bearing column 1 is connected with a foundation embedded part in a factory building, and transmits the load borne by the structural system to an underground foundation; the bearing main beam 2 is horizontally erected between the two bearing columns 1 and transmits the load of the upper bearing secondary beam 3 to the bearing columns 1. The bearing secondary beam 3 is erected between the two bearing main beams 2 in the horizontal direction, and the distance and the number of the secondary beams can be increased or decreased according to requirements.

The roof of the chamber body can be directly paved on the upper part of the bearing secondary beam 3.

On the vertical and horizontal load-bearing structures, reinforcing and stabilizing structures for enhancing the structural rigidity can be added, namely a horizontal reinforcing and stabilizing structure 4 and a vertical reinforcing and stabilizing structure 5. Specifically, the method comprises the following steps: the main bearing structure 6 is provided with a horizontal reinforcing and stabilizing structure 4 and a vertical reinforcing and stabilizing structure 5; the horizontal reinforcing and stabilizing structure 4 is crossed and obliquely pulled between the two bearing secondary beams 3 through two pull rods; the vertical reinforcing and stabilizing structure 5 is crossed and obliquely pulled between the two bearing columns through the two pull rods.

As shown in fig. 2, 3 and 4, the reinforcing and stabilizing structure is a knot structure in the form of a cross brace, and the knot structure is composed of two pull rods.

And two ends of the pull rod are provided with anchoring structures 9.

The pull rod is also provided with a turn buckle structure 10.

The horizontal reinforcing and stabilizing structure 4 and the vertical reinforcing and stabilizing structure 5 are preferred reinforcing and stabilizing structures, the horizontal reinforcing and stabilizing structure 4 is crossed and obliquely pulled between the two main bearing beams 2, and the two ends are provided with anchoring structures 9 shown in figure 3; the vertical reinforcing and stabilizing structure 5 is crossed and obliquely pulled between the two bearing columns 1, and the two ends of the vertical reinforcing and stabilizing structure are provided with turn-buckle structures 10 shown in figure 4.

The two ends of the pull rod adopt a turn-buckle structure 10 or an L-shaped anchoring end piece 9 for connecting a bearing column or a beam. The structure itself may exert a certain amount of prestress on the overall load bearing structure to resist the effects of dynamic loads on the structure.

As shown in fig. 1, the main load-bearing structure 6 is provided with an outer facade envelope 7; the outer facade enclosing structure 7 is provided with a plate structure steel bar; the panel material of the outer facade building envelope 7 is a light heat-insulating wall material; the structural steel bars are fixed on the bearing column 1 in a welding mode.

The exterior facade enclosure structure 7 is made of light heat-insulating wall materials such as polyurethane boards or rock wool boards. The chamber body facade containment plate structure purline can fix the outer facade containment structure 7 on the bearing column 1 in a welding mode.

As shown in fig. 1, the main load bearing structure 6 is provided with a lighting window 8.

The processing chamber body is provided with an adjustable equipment hoisting structure for fixing a suspension type slide rail and a rack which are required to be erected by process equipment; the adjustable equipment hoisting structure is provided with a member main body 11; the upper direction and the lower direction of the member main body 11 are respectively provided with a rectangular steel clamping plate 12, and the steel clamping plate 12 is provided with a plurality of fastening holes for fixing the adjustable equipment hoisting structure on the bearing secondary beam 3 through clamping bolts 13.

As shown in fig. 6, the adjustable equipment hoisting member is a preferred adjustable equipment hoisting member, and the adjustable equipment hoisting member can be additionally installed on the bearing secondary beam 3 of the horizontal bearing structure. The adjustable equipment hoisting member is characterized in that a member main body 11 of the adjustable equipment hoisting member is of an H-shaped steel structure, the adjustable equipment hoisting member adopts a clamping type structural member, the upper end and the lower end of the adjustable equipment hoisting member are respectively provided with a rectangular steel clamping plate 12, and the steel clamping plate 12 is provided with a plurality of standard holes and is used for being connected with the bearing secondary beam 3 through a clamping bolt 13. The steel clamping plate 12 and the wing plate on the member main body 11 are fastened through a clamping bolt 13, and after the position is adjusted, the adjustable equipment hoisting member clamps the wing plates of the main bearing beam 2 and the secondary bearing beam 3 to fix the two; the clamped form is shown in figure 7.

As shown in fig. 8:

the processing chamber body is provided with an adjustable hoisting structure 16, and the adjustable hoisting structure 16 connects the equipment base 14 with the adjustable hoisting structure 16 through an equipment hanger 15 of the adjustable hoisting structure 16; after the proper position is adjusted, the adjustable hoisting structure 16 is fixed on the overhanging type bearing beam 17.

The installation process and the public equipment can be as shown in figure 8, the equipment base 14 is connected with the adjustable hoisting structure 16 through the equipment hanging bracket 15 of the equipment base and then fixed with the overhanging type bearing beam 17, and a special steel structure is not needed to be additionally arranged. When the position of the equipment lifting appliance needs to be adjusted, the bolts are loosened, the lifting component is slid to a proper position, and then the lifting component is screwed again.

As shown in fig. 9:

the processing chamber body is provided with a universal equipment bracket 18 on the bearing column 1, the universal equipment bracket 18 is a horizontal rod piece, and one end of the universal equipment bracket 18 is fixedly connected with the bearing column 1; the two universal equipment racks 18 are connected by a bridge member 19.

Specifically, an additional universal equipment bracket 18 can be added to the load-bearing column 1 for erecting universal equipment such as cables and air pipes, and can also be used as a bracket for erecting a lintel at the upper part of a door opening. When the equipment needs to use compressed air and electric energy, as shown in fig. 9, a universal equipment bracket 18 can be installed on the bearing column, and the two universal equipment brackets 18 are connected through a bridge member 19 and used for placing cables, bus ducts, compressed air pipelines and the like.

The present invention has been described above with reference to the accompanying drawings, and it is obvious that the present invention is not limited by the above-mentioned manner, and various insubstantial improvements can be made without modification to the method and technical solution of the present invention, or the present invention can be directly applied to other occasions without modification, all within the scope of the present invention.

Claims (9)

1. A closed car body processing chamber body is provided with a main bearing structure (6); the method is characterized in that: the main bearing structure (6) is provided with a vertical bearing column (1), a bearing main beam (2) and a bearing secondary beam (3); the main bearing beam (2) is horizontally erected on the two bearing columns (1); the bearing secondary beam (3) is erected on the two bearing main beams (2) in the horizontal direction.

2. The enclosed vehicle body processing chamber body of claim 1, wherein: the main bearing structure (6) is provided with a horizontal reinforcing and stabilizing structure (4) and a vertical reinforcing and stabilizing structure (5); the horizontal reinforcing and stabilizing structure (4) is crossed and obliquely pulled between the two bearing secondary beams (3) through two pull rods; the vertical reinforcing and stabilizing structure (5) is crossed and obliquely pulled between the two bearing columns through the two pull rods.

3. The enclosed vehicle body processing chamber body of claim 2, wherein: and two ends of the pull rod are provided with anchoring structures (9).

4. The enclosed vehicle body processing chamber body of claim 2, wherein: the pull rod is also provided with a turn buckle structure (10).

5. The enclosed vehicle body processing chamber body of claim 1, wherein: the main bearing structure (6) is provided with an outer facade enclosing structure (7); the outer facade enclosing structure (7) is provided with a plate structure steel bar; the panel material of the outer facade building envelope (7) is a light heat-insulating wall material; the structural steel bars are fixed on the bearing column (1) in a welding mode.

6. The enclosed vehicle body processing chamber body of claim 1, wherein: the main bearing structure (6) is provided with a lighting window (8).

7. The enclosed vehicle body processing chamber body of claim 1, wherein: the processing chamber body is provided with an adjustable equipment hoisting member for fixing a suspension type slide rail and a rack which are required to be erected by process equipment; the adjustable equipment hoisting member is provided with a member main body (11); the adjustable device hoisting member is characterized in that rectangular steel clamping plates (12) are respectively arranged in the vertical direction of the member main body (11), and the steel clamping plates (12) are provided with a plurality of fastening holes and used for fixing the adjustable device hoisting member on the bearing secondary beam (3) through clamping bolts (13).

8. The enclosed vehicle body processing chamber body of claim 1, wherein: the processing chamber body is provided with an adjustable hoisting structure (16), and the adjustable hoisting structure (16) connects the equipment base (14) with the adjustable hoisting structure (16) through an equipment hanger (15) of the adjustable hoisting structure (16); after the proper position is adjusted, the adjustable hoisting structure (16) is fixed on the overhanging type bearing beam (17).

9. The enclosed vehicle body processing chamber body of claim 1, wherein: the processing chamber body is provided with a universal equipment bracket (18) on the bearing column (1), the universal equipment bracket (18) is a horizontal rod piece, and one end of the universal equipment bracket (18) is fixedly connected with the bearing column (1); the two universal equipment supports (18) are connected by a bridge member (19).

Images