CN212317590U - Modularization factory building - Google Patents

Abstract

The utility model discloses a modularization factory building, including a plurality of module subassemblies, module subassembly includes braced frame, tuber pipe system, water piping system and cable testing bridge system, and the last equipment fixing district that is provided with of braced frame is used for installing process equipment and/or public engineering equipment, and tuber pipe system, water piping system and cable testing bridge system all set up on braced frame, and tuber pipe system, water piping system and cable testing bridge system all are connected with process equipment and/or public engineering equipment. The modularized factory building can improve the building construction efficiency of the factory building, shorten the building construction period of the factory building and save the building construction cost of the factory building.

Description

Modularization factory building

Technical Field

The utility model relates to a building field especially relates to a modularization factory building.

Background

Generally, buildings such as traditional plants are constructed by adopting a reinforced concrete frame type construction mode. However, in the factory building, a plurality of functional areas such as an air pipe system, a water pipe system, an equipment installation area and an electrical functional area need to be arranged, functional areas are complex, construction by adopting a reinforced concrete construction mode is time-consuming and labor-consuming, and the technical problems of low construction efficiency and long construction period exist.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a modularization factory building can improve the factory building and build the efficiency of construction, shorten factory building construction cycle.

To achieve the purpose, the utility model adopts the following technical proposal:

the utility model provides a modularization factory building, includes a plurality of module components, module components includes braced frame, tuber pipe system, water piping system and cable testing bridge system, the last equipment fixing district that is provided with of braced frame is used for installing process equipment and/or public engineering equipment, tuber pipe system, water piping system and cable testing bridge system all set up on braced frame, just tuber pipe system, water piping system and cable testing bridge system all with process equipment and/or public engineering equipment connects.

In one embodiment, the modular factory building further comprises a top plate and side plates, wherein the top plate is arranged on the top of the supporting frame, and the side plates are arranged on the side faces of the supporting frame.

In one embodiment, the modular factory building further comprises a connecting piece, and the supporting frames of two adjacent module assemblies are connected through the connecting piece.

In one embodiment, the connecting member includes a connecting plate and a fastener, the connecting plate is disposed between two adjacent support frames, and the connecting plate is connected to the two support frames through the fastener.

In one embodiment, the fastener is a bolt.

In one embodiment, the module assemblies further comprise square air pipe connectors, the square air pipes in the air pipe systems of two adjacent module assemblies are communicated through the square air pipe connectors, each square air pipe connector comprises a square connecting pipe and an air pipe connecting flange, and the square connecting pipes are respectively connected with the corresponding square air pipes through the air pipe connecting flanges.

In one embodiment, the module assemblies further comprise circular air duct connecting pieces, circular air ducts in the air duct systems of two adjacent module assemblies are communicated through the circular air duct connecting pieces, and the circular air duct connecting pieces comprise circular connecting pipes which are respectively in socket connection with the corresponding circular air ducts.

In one embodiment, the circular air duct connector further comprises a clamp, and the clamp is connected with the circular connecting pipe.

In one embodiment, the module assembly further comprises water pipe connecting flanges, and water pipes in the water pipe systems of two adjacent module assemblies are connected through the water pipe connecting flanges.

In one embodiment, the module assembly further comprises cable bridge connecting pieces, cable bridges of the cable bridge systems of two adjacent module assemblies are connected through the cable bridge connecting pieces, each cable bridge connecting piece comprises a bridge connecting piece and a locking piece, and the bridge connecting pieces are respectively connected with the corresponding cable bridges through the locking pieces.

The modular plant comprises a plurality of module assemblies, wherein an air pipe system, a water pipe system and a cable bridge system are integrated in the module assemblies, and an equipment installation area is arranged on a support frame and used for installing process equipment and/or public engineering equipment. Wherein, the integration of tuber pipe system, water piping system, cable testing bridge system (be electric function district promptly) and equipment fixing district can all be accomplished in making the workshop, only need during the site operation assemble a plurality of modular component can, construction operation is simple and convenient, and the efficiency of construction is high, can effectively shorten construction cycle. In addition, the integration process of the module assembly can be synchronously carried out with the construction of the field foundation supporting project, and the construction period of the whole project can be further saved.

Drawings

FIG. 1 is an exploded view of a portion of a modular building according to one embodiment;

FIG. 2 is a schematic illustration of the connection of the support frames of the various module assemblies in one embodiment;

FIG. 3 is a schematic illustration of the connection of the duct systems of the various modular assemblies in one embodiment;

figure 4 is a schematic diagram of the connection configuration of the cable trays of the various module assemblies in one embodiment.

Description of reference numerals:

10-module assembly, 11-support frame, 13-process equipment, 14-utilities, 15-square air ducts, 16-round air ducts, 17-water ducts, 18-cable bridge, 20-connectors, 21-connectors, 22-fasteners, 30-square air duct connectors, 31-square connectors, 32-air duct connectors, 40-round air duct connectors, 41-round connectors, 42-clips, 50-water duct connectors, 60-cable bridge connectors, 61-bridge connectors.

Detailed Description

The technical solution of the present invention is further explained by the following embodiments with reference to the accompanying drawings.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplification of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

Referring to fig. 1 to 4, a modular factory building according to an embodiment includes a plurality of module assemblies 10. The module assembly 10 includes a support frame 11, an air duct system, a water duct system, and a cable tray system, wherein the support frame 11 is provided with an equipment installation area for installing process equipment 13 and/or utility equipment 14, the air duct system, the water duct system, and the cable tray system are all disposed on the support frame 11, and the air duct system, the water duct system, and the cable tray system are all connected with the process equipment 13 and/or the utility equipment 14.

Specifically, the supporting frame 11 is a steel frame, the equipment installation area is disposed at the bottom of the supporting frame 11, the equipment installation area may be a steel plate or a steel beam disposed on the supporting frame 11, or may be a combined structure of the steel plate and the steel beam, or may even be a reinforced concrete floor structure, which is not specifically limited in this embodiment. An air pipe system, a water pipe system and a cable bridge system are arranged in the upper area of the supporting frame 11, wherein the cable bridge system is arranged in a space 300-600 mm below a beam of an upper beam of the supporting frame 11, and the air pipe system is arranged above the cable bridge system. Further, the equipment installation area can be provided with process equipment 13, and also can be provided with public engineering equipment 14, wherein the public engineering equipment 14 comprises power supply equipment, a ventilation device, refrigeration equipment, fire-fighting complete equipment and the like. As shown in FIG. 1, in the two module assemblies 10 of this embodiment, a process equipment 13 is installed on the equipment installation area of one module assembly 10, a water piping system of the module assembly 10 is connected to the process equipment 13, a utility equipment 14 is installed on the equipment installation area of the other module assembly 10, and an air piping system and a cable tray system of the module assembly 10 are respectively connected to the utility equipment. In other embodiments, the process equipment 13 and the utility equipment 14 may be installed on one module assembly 10, and the embodiment is not particularly limited.

The modular plant comprises a plurality of modular modules 10, in which modules 10 air, water and cable tray systems are integrated, and on a supporting frame 11 are arranged process equipment 13 and/or utility equipment 14. Wherein, the integration of tuber pipe system, water pipe system, cable testing bridge system (being electric function district) and equipment fixing district can all be accomplished in making the workshop, only needs during the site operation to assemble a plurality of module component 10, accomplish between the module component 10 the scene assemble the work can, construction easy operation is convenient, the efficiency of construction is high, can effectively shorten construction cycle. Moreover, the integration process of the module assembly 10 can be performed synchronously with the construction of the field foundation supporting project, so that the construction period of the whole project can be further saved.

In one embodiment, the modular building further comprises a top plate disposed on top of the support frame 11 and side plates (both not shown) mounted on the sides of the support frame 11. Specifically, the number of side plates and the mounting positions of the side plates on the support frame 11 are set according to the mounting position of the module assembly 10 during assembly. In this embodiment, a top plate and a side plate are installed on the supporting frame 11, on one hand, the top plate and the side plate can protect equipment and pipelines inside the supporting frame 11; on the other hand, roof and curb plate can form sealedly after module component 10 assembles the completion, make the modularization factory building can satisfy indoor, outdoor user demand simultaneously.

Specifically, the modular factory building is applied to different places, and different types of plates are adopted on top plates and side plates. For example, the modularization factory building is applied to the mechanical region outer wall, and the curb plate is including the 0.5mm thickness profiled sheet, waterproof vapour barrier, heat preservation, light gauge steel and the cement board that sets gradually, and wherein, the cement board is as interim rain-proof outer wall, and the profiled sheet is the decorative layer. If the mechanical zone is applied to the modularization factory building and prevents hot wall, then the curb plate is including the acrylic acid dope layer, double-deck fire prevention gypsum board, light gauge steel, double-deck fire prevention gypsum board and the acrylic acid dope layer that set gradually, and wherein, double-deck gypsum board can avoid the transportation on the way wallboard fracture.

Further, if the modularized factory building is applied to the clean room inner partition wall, the side plate can comprise an epoxy coating layer, a double-layer damp-proof and mildew-proof gypsum board, a light steel keel, a double-layer damp-proof and mildew-proof gypsum board and an epoxy coating layer which are sequentially arranged, wherein the epoxy coating layer is suitable for the clean room inner wall. When the modularization factory building is applied to interior partition wall in the toilet, the curb plate can also be including the CPVC toilet wallboard, the dampproofing mould proof gypsum board of double-deck, light gauge steel, the dampproofing mould proof gypsum board of double-deck and the CPVC toilet wallboard that sets gradually, and wherein, the CPVC wallboard is applicable to the clean room interior wall. Furthermore, when the modular factory building is applied to an inner partition wall of a clean room, the side plates can also comprise a 1mm baking finish clean steel plate, a 12.5mm gypsum plate, a light steel keel, a 12.5mm gypsum plate and a 1mm baking finish clean steel plate which are sequentially arranged.

In one embodiment, the modular factory building further comprises a connecting member 20, and the supporting frames 11 of two adjacent module assemblies 10 are connected through the connecting member 20. Specifically, in one embodiment, the connecting member 20 includes a connecting plate 21 and a fastening member 22, the connecting plate 21 is disposed between two adjacent supporting frames 11, the connecting plate 21 is connected to the two supporting frames 11 respectively through the fastening member 22, and the fastening member 22 may be, but is not limited to, a bolt. In one embodiment, the connection plates 21 are manufactured with a tolerance in consideration of the manufacturing accuracy of the module assembly 10, and the connection plates 21 are inserted into the gaps between the adjacent support frames 11 to be connected to the two support frames 11, respectively. In this embodiment, the connection plate 21 is disposed between the two support frames 11 to compensate for the machining error, thereby improving the connection stability of the support frames 11.

Specifically, the different module assemblies 10 can be connected and expanded along the vertical direction and the horizontal direction, and the different module assemblies 10 can be flexibly combined according to different use requirements to splice a required plant area.

In one embodiment, the module assembly 10 further comprises a square air duct connector 30, the square air ducts 15 in the air duct systems of two adjacent module assemblies are communicated through the square air duct connector 30, the square air duct connector 30 comprises a square connecting pipe 31 and a square connecting flange 32, and the square connecting pipe 31 is respectively connected with the corresponding square air duct 15 through the square connecting flange 32. Specifically, for the accuracy of ensureing the field installation, square connecting pipe 31's length is processed according to the field measurement, however, to the installation operating mode that the installation distance is less than square connecting pipe 31's length, the distance between two square tuber pipes 15 that can connect as required cuts square connecting pipe 31 to can satisfy the installation demand between the module component 10 of different positions, make things convenient for module component 10 equipment operation, square connecting pipe 31 is connected through tuber pipe flange 32 and the square tuber pipe 15 that corresponds and can be ensured the leakproofness.

In one embodiment, the module assemblies further comprise circular air duct connectors 40, the circular air ducts 16 in the air duct systems of two adjacent module assemblies 10 are communicated through the circular air duct connectors 40, each circular air duct connector 40 comprises a circular connecting pipe 41, and the circular connecting pipes 41 are respectively in socket connection with the corresponding circular air ducts 16. Specifically, for ensuring that the circular connecting pipe 41 and the circular air pipe 16 are socket-jointed stably and reliably, the length of the circular connecting pipe 41 is longer than that required by actual installation, the insertion depth of the circular connecting pipe 14 can be adjusted according to the distance between two circular air pipes 16 which are required to be connected in actual installation, if the length required by field installation is longer, the insertion depth of the circular connecting pipe 14 is shallow, if the length required by field installation is shorter, the insertion depth of the circular connecting pipe 14 is deep, the installation requirements between the module assemblies 10 at different positions can be met by adjusting the insertion depth of the circular connecting pipe 14, and the assembly operation of the module assemblies 10 is facilitated. Further, in one embodiment, the circular air duct connecting member 40 further includes a clamping band 42, the clamping band 42 is connected to the circular connecting pipes 41, if the distance between two circular air ducts 16 to be connected is greater than the length of the circular air duct connecting member 40, two or more circular connecting pipes 41 are used for connection, and two or more circular connecting pipes 41 are connected through the clamping band 42. Further, in one embodiment, for a small-sized circular air duct 16, the insertion depth of the circular connection pipe 41 into the corresponding small-sized circular air duct 16 is not less than 50 mm.

In one embodiment, the module assembly further includes a water pipe connection flange 50, the water pipes 17 in the water pipe systems of two adjacent module assemblies 10 are connected by the water pipe connection flange 50, and the connection between the water pipes 17 in the two module assemblies 10 to be connected by the water pipe connection flange 50 can ensure the sealing performance. Further, if the distance between two module assemblies 10 is large, a water pipe connection tube pass may be provided between two water pipes 17 to be connected, and the water pipe connection tube pass is connected to the corresponding water pipe 17 through a water pipe connection flange 50 or by welding.

In one embodiment, the module assembly further includes cable tray connectors 60, the cable trays 18 of the cable tray system of two adjacent module assemblies 10 are connected by the cable tray connectors 60, and the cable tray connectors 60 include tray connection tabs 61 and locking members (not shown), the tray connection tabs 61 being respectively connected with the corresponding cable trays 18 by the locking members. The length of crane span structure connection piece 61 can cut as required the distance between two cable testing bridges 18 of connecting, can satisfy the installation demand between the module component 10 of different positions, makes things convenient for module component 10 equipment operation, and crane span structure connection piece 61 passes through the retaining member with the cable testing bridge 18 that corresponds and is connected reliable and stable. Specifically, the locking member may be, but is not limited to, a bolt or a screw.

The modularized factory building can improve the building construction efficiency of the factory building, shorten the building construction period of the factory building and save the building construction cost of the factory building.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. The utility model provides a modularization factory building, its characterized in that includes a plurality of module assembly (10), module assembly (10) are including braced frame (11), tuber pipe system, water piping system and cable testing bridge system, be provided with the equipment fixing district on braced frame (11) and be used for installing process equipment (13) and/or utility equipment (14), tuber pipe system, water piping system and cable testing bridge system all set up on braced frame (11), just tuber pipe system, water piping system and cable testing bridge system all with process equipment (13) and/or utility equipment (14) are connected.

2. The modular plant of claim 1, further comprising a top plate disposed on top of the support frame and side plates mounted to the sides of the support frame.

3. The modular plant according to claim 1, characterized in that it further comprises a connection element (20), the support frames (11) of two adjacent modular assemblies (10) being connected by said connection element (20).

4. The modular plant according to claim 3, characterized in that said connection means (20) comprise a connection plate (21) and a fastener (22), said connection plate (21) being arranged between two adjacent support frames (11), said connection plate (21) being connected to each of said two support frames (11) by said fastener (22).

5. The modular plant according to claim 4, characterized in that said fasteners (22) are bolts.

6. The modular factory building according to claim 1, wherein said module assemblies (10) further comprise square air duct connectors (30), square air ducts (15) in said air duct system of two adjacent module assemblies (10) are communicated through said square air duct connectors (30), said square air duct connectors (30) comprise square connecting pipes (31) and air duct connecting flanges (32), and said square connecting pipes (31) are respectively connected with corresponding square air ducts (15) through said air duct connecting flanges (32).

7. The modular factory building of claim 1, wherein said module assemblies (10) further comprise circular duct connectors (40), wherein circular ducts (16) in said duct systems of two adjacent module assemblies (10) are connected by said circular duct connectors (40), said circular duct connectors (40) comprise circular connecting pipes (41), and said circular connecting pipes (41) are respectively socket-connected with corresponding circular ducts (16).

8. The modular building according to claim 7, characterized in that said circular air duct connection (40) further comprises a clip (42), said clip (42) being connected to said circular connection duct (41).

9. The modular building according to claim 1, characterized in that said modular assemblies (10) further comprise water pipe connection flanges (50), through which water pipes (17) of said water pipe systems of two adjacent modular assemblies (10) are connected (50).

10. The modular plant according to claim 1, characterized in that said modular assemblies (10) further comprise cable tray connectors (60), the cable trays (18) of the cable tray system of two adjacent modular assemblies (10) being connected by said cable tray connectors (60), said cable tray connectors (60) comprising tray connection pieces (61) and locking pieces, said tray connection pieces (61) being respectively connected with the corresponding cable trays (18) by said locking pieces.

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