CN217353754U - Chip factory roof system - Google Patents

Abstract

The utility model discloses a chip factory roof system, which is characterized in that; the roof system comprises a roof truss, a flexible heat-insulating waterproof roof system, a roof drainage system and a plurality of parts which are provided with exhaust equipment and pipeline brackets in a centralized way; the flexible heat-insulation waterproof roof system is arranged at the top of the roof truss; the roof drainage system corresponds to the concrete gutter area; the roof truss has a truss; the top of the air return channel at two ends of the truss is provided with a comprehensive pipeline bracket, the roof of the air return channel adopts a concrete composite floor slab to bear relevant electromechanical equipment and a steel roof of a local machine room, and the concrete gutter area is arranged on the roof of the air return channel. The utility model discloses an adopt the light steel roofing on chip factory building steel roof truss, the cooperation is through the flexible waterproof scheme of building of technological optimization to guarantee the gas tightness, the waterproof nature of factory building, concentrate at factory building both ends return air double-layered top simultaneously and set up exhaust equipment and pipe support, with bearing and the waterproof difficult point on the basis of solving roofing equipment basis, pipe support.

Description

Chip factory roof system

Technical Field

The utility model relates to a factory building field, what specifically say relates to is a chip factory building roofing system.

Background

A large amount of acid and alkali, organic, hot waste gas and the like of a chip factory building need to be discharged to roof treatment equipment, and because the exhaust is connected from a FAB purification factory building core area, the temperature and humidity fluctuation of the core area is small, the cleanliness requirement is high (the highest CLASS 1 grade), and meanwhile, indoor positive pressure is required, so how to solve the problem that the waste gas pipeline is discharged from the roof is one of the important difficulties of clean room design generally.

In the traditional method, a reinforced concrete composite floor slab is usually arranged on a steel roof truss of a chip factory building, an equipment foundation and a pipeline support are arranged on the reinforced concrete composite floor slab, and an inverted roof system is adopted for roof waterproof and heat preservation. The scheme has the advantages that the roof load is large, the equipment foundation and the pipeline support foundation are multiple, the construction period is long, the construction difficulty is high, the leakage prevention difficulty is large, structural layers such as a heat insulation layer and a protective layer are arranged on a waterproof layer of the inverted roof system, once a water leakage point is difficult to confirm due to water leakage, the waterproof maintenance is difficult, and meanwhile the scheme is also high in engineering cost.

SUMMERY OF THE UTILITY MODEL

Consequently, in order to solve traditional way in the chip factory building and set up the irrational nature of combination reinforced concrete floor scheme on the steel roof truss, the utility model provides an adopt light steel roofing and with equipment, pipeline setting in the chip factory building roofing system of return air double-layered roof, the chip factory building acid-base, organic, hot waste gas pass through the collector and collect, through the return air double-layered, spread the roofing through return air double-layered roofing, arrange the collector of airing exhaust in return air double-layered top simultaneously, reentrant exhaust-gas treatment equipment. The scheme greatly reduces the roof load and the construction difficulty, reduces the construction cost and saves the construction period. The light steel roof adopts a flexible heat-insulation waterproof system optimized by technology, and a high-molecular self-adhesive coiled material is pasted on a steel lining plate of a light steel structure or a high-molecular waterproof coating is coated on the steel lining plate, so that the air-tightness of the roof is ensured while the air-tightness of the roof is effectively isolated; simultaneously the roofing of return air double-layered way adopts concrete composite floor, sets up the gutter at return air double-layered way concrete roofing, arranges the roofing rainwater to outdoor through siphon drainage mode, has guaranteed nuclear region roofing integrality to reduce nuclear region water leakage risk, provide the assurance for the toilet security.

The utility model is realized in such a way, a chip factory roof system is constructed, which is characterized in that; the roof system comprises roof trusses, a flexible heat-insulating waterproof roof system, a roof drainage system and a roof waste gas system; the flexible heat-insulation waterproof roof system is arranged at the top of the roof truss; the roof drainage system corresponds to the concrete gutter area (S5); the roof truss having a truss (S1); the top of the air return channel (S3) at two ends of the truss (S1) is provided with a comprehensive pipeline bracket (S2), the roof of the air return channel (S3) adopts a concrete composite floor (S4) to bear relevant electromechanical equipment and a local machine room steel roof (S7), and a concrete gutter area (S5) is arranged on the roof of the air return channel (S3).

The utility model relates to a chip factory roof system, which is characterized in that; the flexible heat-insulation waterproof roof system comprises a structural steel purline (A1), an aluminum-zinc plated profiled steel lining plate (A2), a high-molecular self-adhesive waterproof coiled material or high-molecular waterproof coating steam barrier layer (A3), rock wool (A-level) heat-insulation plates (A4), TPO waterproof coiled materials (A5), TPO coiled material hot air welding seams (A6), a coiled material mechanical fixing assembly (A7) and a heat-insulation plate mechanical fixing assembly (A8); aluminized zinc die mould steel liner board (A2), polymer self-adhered waterproofing membrane or polymer waterproof coating steam barrier (A3) form wholly, and rock wool (A level) heated board (A4) is laid to its upper portion, and the surface of rock wool (A level) heated board (A4) sets up TPO waterproof coiled material (A5), wholly fixes through fixed subassembly of coiled material machinery (A7), the fixed subassembly of heated board machinery (A8).

The utility model relates to a chip factory roof system, which is characterized in that; the roof drainage system comprises a concrete gutter (A9), a concrete roof (A10), an outer gutter (A11), a siphon drainage port (A12), a siphon drainage pipe (A13), a flexible heat-preservation waterproof system roof (A14), a structural steel beam (A15), a pipeline steel frame (A16) and a roof rainwater flow line (A17); the structural steel beams (A15) and the pipeline steel frame (A16) are fixed into a whole, the concrete gutter (A9) corresponds to the interior of the concrete gutter area (S5), the siphon water outlet (A12) corresponds to the concrete gutter (A9), and the siphon water outlet (A12) is communicated with the siphon water outlet (A13).

According to the utility model discloses a chip factory roofing system, its characterized in that: the roof waste gas system comprises a chimney (H1), a washing tower (H2), a waste gas header (H3), a hot exhaust fan (H4), a medium-temperature water pipe (H5), a DCC assembly (H6) and an FFU assembly (H7); the indoor air is cooled by a DCC component (H6) through an air return channel and then sent into the room for circulation through an FFU component (H7); waste gas wears out in the south and north face return air passageway (S3) district roofing, wear the roofing region and take tight waterproof guarantor gas tightness measure, return air passageway (S3) top sets up waste gas header steelframe (S2), sour, alkali, organic etc. waste gas connects to the exhaust-gas treatment equipment district through waste gas header (H3), discharges through scrubbing tower (H2), chimney (H1), hot exhaust fan (H4) sets up in the roof of return air passageway (S3) top.

The utility model has the advantages of as follows: the utility model discloses an adopt the light steel roofing on chip factory building steel roof truss, the cooperation is through the flexible waterproof scheme of building of technological optimization to guarantee the gas tightness, the waterproof nature of factory building, concentrate at factory building both ends return air double-layered roof portion simultaneously and set up exhaust equipment and pipeline bracket, with bearing and the waterproof difficult point of solving roofing equipment foundation, pipeline bracket foundation. The scheme has the advantages of small roof load, good integrity, good waterproofness, easy maintenance, short construction period and low construction cost. The utility model has the advantages that: the leak protection nature is good, the gas tightness is good, construction convenience, save the time limit for a project, engineering cost is low, and the management and the maintenance of being convenient for have simultaneously effectively solved the problem of traditional chip factory building scheme.

Drawings

FIG. 1 is a schematic view of a roof truss and a composite piping support;

2-3 are schematic views of the air return channel roof;

FIG. 4 is a schematic view of the arrangement of purlines on the roof of the steel roof truss;

FIG. 5 is a schematic view of an optimized scheme of a flexible heat-insulating waterproof roof system;

FIG. 6 is a schematic view of a roof drainage system;

FIG. 7 is a diagram of the nodes of the pipeline exiting the roof;

FIG. 8 is a schematic view at A of FIG. 7;

FIG. 9 is a schematic view at B of FIG. 7;

FIG. 10 is a schematic view of an arrangement of exhaust through roof and exhaust treatment equipment.

Wherein: s1 truss, S1 integrated pipe support, S1 return air channel, S1 concrete composite floor, S1 concrete gutter area, S1 equipment foundation, S1 machine room steel roof, S1 roofing purlin, A1 structural steel purlin, A1 aluminum-zinc plated pressed steel lining board, A1 self-adhesive waterproof roll or waterproof paint-coated steam barrier, A1 rock wool (class A) insulation board, A5TPO waterproof roll, A6TPO roll hot air welded seam, A1 roll mechanical fixation, A1 insulation board mechanical fixation, A1 concrete gutter, A1 concrete roof, A1 external gutter, A1 siphon drain, A1 flexible insulation waterproof system, A1 structural steel beam, A1 pipe steel frame, A1 roof 1 streamline, A1 pipe, A1 sealing paste, A1 roll liner, A1 steel pipe, A1 steel sleeve, rock wool cover, A1A aluminum alloy steel angle steel for sealing, 1A pressed sealing and aluminum alloy 1A steel angle steel for sealing, the device comprises an A28 heat preservation layer, an A29 flat steel hoop, an A30 bolt, an H1 chimney, an H2 washing tower, an H3 waste gas header, an H4 hot exhaust fan, an H5 medium-temperature water pipe, an H6DCC component and an H7FFU component.

Detailed Description

The present invention will be described in detail with reference to fig. 1 to 10, and the technical solutions in the embodiments of the present invention will be clearly and completely described, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts all belong to the protection scope of the present invention.

The utility model provides a chip factory roof system through the improvement, as shown in the figure, can be implemented as follows; the roof system comprises roof trusses, a flexible heat-insulating waterproof roof system and a roof drainage system; the flexible heat-insulation waterproof roof system is arranged on the top of the roof truss; the roof drainage system corresponds to the concrete gutter area (S5); the roof truss having a truss (S1); comprehensive pipeline supports (S2) are arranged at the tops of air return clamping channels (S3) at two ends of a truss (S1), a concrete composite floor slab (S4) is adopted for a roof of the air return clamping channel (S3) to bear relevant electromechanical equipment and a steel roof (S7) of a local machine room, and a concrete gutter area (S5) is arranged on the roof of the air return clamping channel (S3).

When the utility model is implemented; the flexible heat-insulation waterproof roof system comprises a structural steel purline (A1), an aluminum-zinc plated profiled steel lining plate (A2), a high-molecular self-adhesive waterproof coiled material or high-molecular waterproof coating steam barrier layer (A3), rock wool (A-level) heat-insulation plates (A4), TPO waterproof coiled materials (A5), TPO coiled material hot air welding seams (A6), a coiled material mechanical fixing assembly (A7) and a heat-insulation plate mechanical fixing assembly (A8); aluminized zinc die mould steel liner board (A2), polymer self-adhered waterproofing membrane or polymer waterproof coating steam barrier (A3) form wholly, and rock wool (A level) heated board (A4) is laid to its upper portion, and the surface of rock wool (A level) heated board (A4) sets up TPO waterproof coiled material (A5), wholly fixes through fixed subassembly of coiled material machinery (A7), the fixed subassembly of heated board machinery (A8).

When the utility model is implemented; the roof drainage system comprises a concrete gutter (A9), a concrete roof (A10), an outer gutter (A11), a siphon drainage port (A12), a siphon drainage pipe (A13), a flexible heat-preservation waterproof system roof (A14), structural steel beams (A15), a pipeline steel frame (A16) and a roof rainwater flow line (A17); the structural steel beam (A15) and the pipeline steel frame (A16) are fixed into a whole, the concrete gutter (A9) corresponds to the inside of the concrete gutter area (S5), the siphon water outlet (A12) corresponds to the concrete gutter (A9), and the siphon water outlet (A12) is communicated with the siphon water outlet (A13).

As shown in fig. 5 to 7, the construction method of the optimized flexible heat-insulating waterproof roof system (a 14) is shown, and the air tightness of the core clean area is ensured on the premise that the complete roof system (a 1) - (a 5) is effectively waterproof. Fig. 7 shows that rainwater on the flexible heat-insulating waterproof large roof (a 14) passes through a concrete roof (a 10) of an air return channel arranged on two sides of a core clean production area, is collected by a concrete gutter (a 9), and is discharged to the outside through a siphon rainwater system (a 12) (a 13). Fig. 8 shows the waterproof and plugging junction of the duct (a 18) through the concrete roof (a 10) on the return air clip.

The utility model discloses during the implementation: the centralized air exhaust equipment and the pipeline bracket comprise a chimney (H1), a washing tower (H2), an exhaust gas header (H3), a hot exhaust fan (H4), a medium temperature water pipe (H5), a DCC component (H6) and an FFU component (H7); the indoor air is cooled by a DCC component (H6) through an air return channel and then sent into the room for circulation through an FFU component (H7); waste gas penetrates out of the roof in the south-north face air return channel (S3) area, tight waterproof and air tightness keeping measures are taken in the roof penetrating area, a waste gas header steel frame (S2) is arranged above the air return channel (S3), acid, alkali, organic and other waste gases are connected to a waste gas treatment equipment area through a waste gas header (H3) and are discharged through a washing tower (H2) and a chimney (H1), and a hot exhaust fan (H4) is arranged on the roof above the air return channel (S3).

In order to solve traditional way in the chip factory building and set up the irrational nature of combination reinforced concrete floor scheme on the steel roof truss, the utility model provides an adopt light steel roofing and with equipment, pipeline setting in the whole roofing solution of return air double-layered roof, chip factory building acid-base, organic, hot waste gas pass through the collector and collect, through the return air double-layered roof, spread the roofing through return air double-layered roof, arrange the collector of airing exhaust simultaneously in return air double-layered roof top, reentrant exhaust-gas treatment equipment. The scheme greatly reduces the roof load and the construction difficulty, reduces the construction cost and saves the construction period. The light steel roof adopts a flexible heat-insulation waterproof system optimized by technology, and a high-molecular self-adhesive coiled material is pasted on a steel lining plate of a light steel structure or a high-molecular waterproof coating is coated on the steel lining plate, so that the air-tightness of the roof is ensured while the air-tightness of the roof is effectively isolated; simultaneously the roofing of return air double-layered way adopts concrete composite floor, sets up the gutter at return air double-layered way concrete roofing, arranges the roofing rainwater to outdoor through siphon drainage mode, has guaranteed nuclear region roofing integrality to reduce nuclear region water leakage risk, provide the assurance for the toilet security.

In order to achieve the above purpose, the utility model adopts the following technical scheme: a roof truss top surface light steel roof; a flexible waterproof optimization scheme; the top of the return air channel is made of a concrete roof, the equipment and the comprehensive bracket are arranged in the area, and a through long gutter and siphon drainage are arranged; acid-base, organic and hot waste gas are collected by a collecting pipe, an exhaust collecting pipe is arranged above the return air channel, and then the waste gas enters the waste gas treatment equipment.

The utility model has the advantages that: the leak protection nature is good, the gas tightness is good, construction convenience, save the time limit for a project, engineering cost is low, and the management and the maintenance of being convenient for have simultaneously effectively solved the problem of traditional chip factory building scheme.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (4)

1. A chip factory roof system which characterized in that: the roof system is provided with a roof truss, a flexible heat-preservation waterproof roof system, a roof drainage system and a roof waste gas system part; the flexible heat-insulation waterproof roof system is arranged at the top of the roof truss; the roof drainage system corresponds to the concrete gutter area (S5); the roof truss having a truss (S1); the top of the air return channel (S3) at two ends of the truss (S1) is provided with a comprehensive pipeline bracket (S2), the roof of the air return channel (S3) adopts a concrete composite floor (S4) to bear relevant electromechanical equipment and a local machine room steel roof (S7), and a concrete gutter area (S5) is arranged on the roof of the air return channel (S3).

2. The chip factory floor roofing system of claim 1 wherein: the flexible heat-insulation waterproof roof system comprises a structural steel purline (A1), an aluminum-zinc plated profiled steel lining plate (A2), a high-molecular self-adhesive waterproof coiled material or a high-molecular waterproof coating steam barrier layer (A3), a rock wool heat-insulation plate (A4), a TPO waterproof coiled material (A5), a TPO coiled material hot air welding seam (A6), a coiled material mechanical fixing component (A7) and a heat-insulation plate mechanical fixing component (A8); aluminized zinc die mould steel backing (A2), polymer self-adhered waterproofing membrane or polymer waterproof coating vapor barrier (A3) form wholly, and rock wool heated board (A4) is laid to its upper portion, and the surface of rock wool heated board (A4) sets up TPO waterproofing membrane (A5), wholly fixes through fixed subassembly of coiled material machinery (A7), the fixed subassembly of heated board machinery (A8).

3. The chip factory building roofing system of claim 1, wherein: the roof drainage system comprises a concrete gutter (A9), a concrete roof (A10), an outer gutter (A11), a siphon drainage port (A12), a siphon drainage pipe (A13), a flexible heat-preservation waterproof system roof (A14), structural steel beams (A15), a pipeline steel frame (A16) and a roof rainwater flow line (A17); the structural steel beam (A15) and the pipeline steel frame (A16) are fixed into a whole, the concrete gutter (A9) corresponds to the inside of the concrete gutter area (S5), the siphon water outlet (A12) corresponds to the concrete gutter (A9), and the siphon water outlet (A12) is communicated with the siphon water outlet (A13).

4. The chip factory building roofing system of claim 1, wherein: the roof waste gas system comprises a chimney (H1), a washing tower (H2), a waste gas header (H3), a hot exhaust fan (H4), a medium-temperature water pipe (H5), a DCC component (H6) and an FFU component (H7); the indoor air is cooled by a DCC component (H6) through an air return channel and then sent into the room for circulation through an FFU component (H7); waste gas penetrates out of the roof in the south-north face air return channel (S3) area, tight water and air tightness measures are taken in the area penetrating through the roof, a waste gas header steel frame (S2) is arranged above the air return channel (S3), the waste gas is connected to a waste gas treatment equipment area through a waste gas header (H3) and is discharged through a washing tower (H2) and a chimney (H1), and a hot exhaust fan (H4) is arranged on the roof above the air return channel (S3).

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