CN221219103U - Secondary rigid conversion layer structure for battery workshop - Google Patents

Abstract

The utility model provides a secondary rigid conversion layer structure for a battery workshop, which has a simple integral structure, wherein a second suspended ceiling structure comprises a first suspended ceiling plate, a first conversion connecting piece and a first suspender, a plurality of first suspended ceiling plates are uniformly arranged on the side edge of the structural rigid conversion layer at parallel intervals, the first conversion connecting piece is vertically arranged on the side edge of the first suspended ceiling plate, the first suspender is vertically arranged at the end, far away from the first suspended ceiling plate, of the first conversion connecting piece, the first suspender passes through the top of a FFU blind plate suspended ceiling to be connected, an anti-falling connecting piece is further arranged between the second suspended ceiling structure and a double-C-shaped steel suspended layer to prevent the second suspended ceiling structure from falling off and absorbing shock, and single-hole pressing pieces are respectively arranged between the upper anti-falling part and a bolt and between the lower part of the upper anti-falling part and the bolt, so that the dispersing force shock absorption effect is further realized, and the structural strength is improved.

Description

Secondary rigid conversion layer structure for battery workshop

Technical Field

The utility model relates to the technical field of building suspended ceilings, in particular to a secondary rigid conversion layer structure for a battery workshop.

Background

The suspended ceiling is a decorative layer of a structural top plate, has the functions of heat preservation, heat insulation, sound insulation and sound absorption, is also a concealed layer of engineering such as electric, ventilation and air conditioning, communication and fireproof and alarm pipeline equipment and the like, and generally adopts a suspension wire light steel keel to bear dead weight. The suspended ceiling link occupies a very important position in the building decoration of the whole battery workshop, and the principles of saving materials, being firm, safe, attractive, practical and the like are to be followed during construction.

When the furred ceiling height is higher, need adopt the conversion layer to accomplish the furred ceiling, current conversion layer is connected with the angle steel through expansion bolts only, and stability is not enough, and structural strength is poor, and inconvenient installation.

CN203878843U, a conversion support suspended ceiling, which comprises a suspended ceiling panel, a suspended ceiling keel fixed on the suspended ceiling panel, a conversion support layer and a plurality of all-wire hanging ribs, wherein the lower ends of the all-wire hanging ribs are connected with the suspended ceiling keel, and the conversion support layer comprises vertical angle steel, transverse angle steel and longitudinal reinforcing angle steel; longitudinal reinforcement angle steel with the length being matched with the interval between the adjacent transverse angle steel is welded at intervals, the upper end of the all-wire hanging bar is connected with the transverse angle steel through bolts, the transverse angle steel is welded with the bottom end of the vertical angle steel, the top end of the vertical angle steel is welded with a galvanized angle steel angle code, and the galvanized angle steel angle code is fixed on a ceiling through an expansion bolt; the transverse angle steel at the outermost side is connected with the wall body through the longitudinal positioning angle steel, the longitudinal positioning angle steel is welded to the galvanized angle steel angle code, and the galvanized angle steel angle code is fixed to the wall body through the expansion bolt.

Therefore, how to perform secondary suspended ceilings in higher floors is a highly desirable problem for those skilled in the art.

Disclosure of utility model

In view of this, in order to solve the problems of complex structure and low structural strength of the existing secondary suspended ceiling, the utility model provides a secondary rigid conversion layer structure for a battery workshop, which has a simple overall structure, by arranging a structural rigid conversion layer 2 in parallel below a purline layer 1, the purline layer 1 is connected with the structural rigid conversion layer 2 through a plurality of first suspended ceiling structures 5, a double C-shaped steel hanging layer 3 is arranged in parallel below the structural rigid conversion layer 2, the structural rigid conversion layer 2 passes through a plurality of second suspended ceiling structures 6, the second suspended ceiling structures 6 penetrate through the double C-shaped steel hanging layer 3 and then are connected with the top of an FFU blind plate suspended ceiling 4, a plurality of second suspended ceiling structures 6 are uniformly arranged on the side edges of the structural rigid conversion layer 2 at parallel intervals, the second suspended ceiling structure 6 includes first hanging rib plate 61, first conversion connecting piece 62, first jib 63, structural rigidity conversion layer 2 side parallel interval evenly is equipped with a plurality of first hanging rib plates 61, first hanging rib plate 61 side is equipped with first conversion connecting piece 62 perpendicularly, first conversion connecting piece 62 keeps away from first hanging rib plate 61 end and is equipped with first jib 63 perpendicularly, first jib 63 passes and is connected with FFU blind plate suspended ceiling 4 top, still be equipped with anticreep connecting piece 7 between second suspended ceiling structure 6 and double C shaped steel hanging layer 3, prevent second suspended ceiling structure 6 and drop and shock attenuation, and between last anticreep piece 71 top and a bolt, go up between anticreep piece 71 below and the bolt all be equipped with single Kong Yapian 8, further play the effect of dispersion power shock attenuation, improve structural strength.

A secondary rigidity conversion layer structure for battery workshop, including purlin layer 1, structural rigidity conversion layer 2, double C shaped steel hang layer 3, FFU blind plate furred ceiling 4, first furred ceiling structure 5, second furred ceiling structure 6, FFU blind plate furred ceiling 4, its characterized in that: the purlin layer 1 below parallel is equipped with structure rigidity conversion layer 2, purlin layer 1 is connected with structure rigidity conversion layer 2 through a plurality of first furred ceiling structures 5, structure rigidity conversion layer 2 below parallel is equipped with two C shaped steel and hangs layer 3, structure rigidity conversion layer 2 is connected with FFU blind plate furred ceiling 4 top after passing two C shaped steel and hangs layer 3 through a plurality of second furred ceiling structures 6 and second furred ceiling structure 6, structure rigidity conversion layer 2 side parallel interval evenly is equipped with a plurality of second furred ceiling structures 6, second furred ceiling structure 6 includes first furred ceiling plate 61, first conversion connecting piece 62, first jib 63, structure rigidity conversion layer 2 side parallel interval evenly is equipped with a plurality of first furred ceiling plates 61, first furred ceiling plate 61 side is equipped with first conversion connecting piece 62 perpendicularly, first conversion connecting piece 62 is kept away from first furred ceiling plate 61 end and is equipped with first jib 63 perpendicularly, first conversion connecting piece 62 all passes through bolt and first furred ceiling plate 61, first jib 61 fixed connection, first jib 63 passes and is connected with FFU blind plate furred ceiling 4 top.

Further, the first hanging rib plates 61 are connected with the side edges of the structural rigidity conversion layer 2 through connecting fixing rods 9, a plurality of connecting fixing rods 9 are arranged, and the connecting fixing rods 9 are arranged in parallel and used for playing a role in dispersing force damping.

Further, an anti-drop connecting piece 7 is further arranged between the second suspended ceiling structure 6 and the double-C-shaped steel hanging layer 3 and used for preventing the second suspended ceiling structure 6 from dropping and damping, the anti-drop connecting piece 7 comprises an upper anti-drop piece 71 and a lower anti-drop piece 72, the upper anti-drop piece 71 is arranged above the double-C-shaped steel hanging layer 3, the lower anti-drop piece 72 is arranged below the double-C-shaped steel hanging layer 3, the first suspender 63 sequentially penetrates through the upper anti-drop piece 71, the double-C-shaped steel hanging layer 3 and the lower anti-drop piece 72 and is connected with the top of the FFU blind plate suspended ceiling 4, and the connection part of the first suspender 63 and the upper anti-drop piece 71 and the connection part of the first suspender 63 and the lower anti-drop piece 72 are fixedly connected through bolts.

Further, a single Kong Yapian is provided between the upper part of the upper anti-drop member 71 and a bolt, and between the lower part of the upper anti-drop member 71 and a bolt, for dispersing force and damping.

Furthermore, the single-hole pressing sheet 8 is made of hot galvanizing materials.

In some embodiments, the first conversion coupler 62 is an L-shaped flap.

In some embodiments, the double-C-shaped steel hanging layer 3 is composed of a plurality of double-C-shaped steels 31, the plurality of double-C-shaped steels 31 are arranged in parallel, and adjacent double-C-shaped steels 31 are fixedly connected through four-hole-shaped steel connecting pieces 32.

Further, a plurality of adjustable waist-shaped holes 33 are arranged on the four-hole shaped steel connecting piece 32 at intervals in parallel and used for adjusting the installation position.

In some embodiments, the first suspended ceiling structure 5 includes a connection steel beam 51, a purline connecting piece 52, and a trapezoid bending piece 53, the purline is disposed above the connection steel beam 51, the purline is fixedly connected with the connection steel beam 51 through the purline connecting piece 52, the trapezoid bending piece 53 is disposed below the connection steel beam 51, and the connection steel beam 51 is fixedly connected with the top of the structural rigidity conversion layer 2 through the trapezoid bending piece 53.

The beneficial effects of the utility model are as follows: the utility model provides a secondary rigid conversion layer structure for a battery workshop, which has simple integral structure, the structure rigid conversion layer 2 is arranged below the purline layer 1 in parallel, the purline layer 1 is connected with the structure rigid conversion layer 2 through a plurality of first suspended ceiling structures 5, the double C-shaped steel hanging layer 3 is arranged below the structure rigid conversion layer 2 in parallel, the structure rigid conversion layer 2 is connected with the top of an FFU blind plate suspended ceiling 4 after passing through a plurality of second suspended ceiling structures 6 and the second suspended ceiling structures 6 pass through the double C-shaped steel hanging layer 3, a plurality of second suspended ceiling structures 6 are uniformly arranged on the side edges of the structure rigid conversion layer 2 at parallel intervals, the second suspended ceiling structures 6 comprise a first suspended ceiling plate 61, a first conversion connecting piece 62 and a first hanging rod 63, the parallel interval of structural rigidity conversion layer 2 side evenly is equipped with a plurality of first hanging rib plates 61, first hanging rib plate 61 side is equipped with first conversion connecting piece 62 perpendicularly, first conversion connecting piece 62 keeps away from first hanging rib plate 61 end and is equipped with first jib 63 perpendicularly, first jib 63 passes and is connected with FFU blind plate furred ceiling 4 top, still be equipped with anticreep connecting piece 7 between second furred ceiling structure 6 and double C shaped steel hanging layer 3, prevent that second furred ceiling structure 6 from droing and shock attenuation, and between last anticreep piece 71 top and a bolt, all be equipped with single Kong Yapian 8 between last anticreep piece 71 below and the bolt, further play dispersion absorbing effect, improve structural strength.

Drawings

Fig. 1 is a schematic structural view of a secondary rigid conversion layer structure for a battery plant according to the present utility model.

Fig. 2 is a partially enlarged structural schematic view of a secondary rigid conversion layer structure for a battery plant according to the present utility model.

Fig. 3 is a schematic structural view of a secondary rigid conversion layer structure for a battery plant according to the present utility model.

Fig. 4 is a schematic structural diagram of a structural rigidity conversion layer and a second suspended ceiling structure of a secondary rigidity conversion layer structure for a battery plant according to the present utility model.

Fig. 5 is a schematic structural view of a four-hole type steel connector for a secondary rigid conversion layer structure of a battery workshop according to the present utility model.

Fig. 6 is a schematic structural view of a unit Kong Yapian of the secondary rigid conversion layer structure for a battery compartment according to the present utility model.

Fig. 7 is a schematic structural view of a first conversion connector of a secondary rigid conversion layer structure for a battery shop according to the present utility model.

Fig. 8 is a schematic structural view of the double C-section steel for the secondary rigid conversion layer structure of the battery shop of the present utility model.

Description of the main reference signs

The utility model will be further described in the following detailed description in conjunction with the above-described figures.

Detailed Description

Fig. 1 is a schematic structural view showing a structure of a secondary rigid conversion layer for a battery workshop according to the present utility model; fig. 2 is a schematic view showing a partially enlarged structure of a secondary rigid conversion layer structure for a battery shop according to the present utility model; fig. 3 is a schematic structural view showing the structure of the secondary rigid conversion layer for a battery workshop according to the present utility model; fig. 4 is a schematic structural diagram of a structural rigidity conversion layer and a second ceiling structure of the secondary rigidity conversion layer structure for a battery workshop according to the present utility model; fig. 5 is a schematic structural view of a four-hole steel connecting member with a secondary rigid conversion layer structure for a battery workshop according to the present utility model; as shown in fig. 6, a schematic structural diagram of a single Kong Yapian of the secondary rigid conversion layer structure for a battery compartment according to the present utility model; fig. 7 is a schematic structural view showing a first conversion connector of a secondary rigid conversion layer structure for a battery shop according to the present utility model; as shown in fig. 8, a schematic structural view of the double C-shaped steel of the secondary rigid conversion layer structure for a battery plant according to the present utility model is shown.

A secondary rigidity conversion layer structure for battery workshop, including purlin layer 1, structural rigidity conversion layer 2, double C shaped steel hang layer 3, FFU blind plate furred ceiling 4, first furred ceiling structure 5, second furred ceiling structure 6, FFU blind plate furred ceiling 4, its characterized in that: the purlin layer 1 below parallel is equipped with structure rigidity conversion layer 2, purlin layer 1 is connected with structure rigidity conversion layer 2 through a plurality of first furred ceiling structures 5, structure rigidity conversion layer 2 below parallel is equipped with two C shaped steel and hangs layer 3, structure rigidity conversion layer 2 is connected with FFU blind plate furred ceiling 4 top after passing two C shaped steel and hangs layer 3 through a plurality of second furred ceiling structures 6 and second furred ceiling structure 6, structure rigidity conversion layer 2 side parallel interval evenly is equipped with a plurality of second furred ceiling structures 6, second furred ceiling structure 6 includes first furred ceiling plate 61, first conversion connecting piece 62, first jib 63, structure rigidity conversion layer 2 side parallel interval evenly is equipped with a plurality of first furred ceiling plates 61, first furred ceiling plate 61 side is equipped with first conversion connecting piece 62 perpendicularly, first conversion connecting piece 62 is kept away from first furred ceiling plate 61 end and is equipped with first jib 63 perpendicularly, first conversion connecting piece 62 all passes through bolt and first furred ceiling plate 61, first jib 61 fixed connection, first jib 63 passes and is connected with FFU blind plate furred ceiling 4 top.

The first hanging rib plates 61 are connected with the side edges of the structural rigidity conversion layer 2 through connecting fixing rods 9, a plurality of connecting fixing rods 9 are arranged, and the connecting fixing rods 9 are arranged in parallel and used for playing a role in dispersing force and damping.

The anti-drop connecting piece 7 is further arranged between the second suspended ceiling structure 6 and the double-C-shaped steel hanging layer 3 and used for preventing the second suspended ceiling structure 6 from falling off and absorbing shock, the anti-drop connecting piece 7 comprises an upper anti-drop piece 71 and a lower anti-drop piece 72, the upper anti-drop piece 71 is arranged above the double-C-shaped steel hanging layer 3, the lower anti-drop piece 72 is arranged below the double-C-shaped steel hanging layer 3, the first suspender 63 sequentially penetrates through the upper anti-drop piece 71, the double-C-shaped steel hanging layer 3 and the lower anti-drop piece 72 and is connected with the top of the FFU blind plate suspended ceiling 4, and the connection part of the first suspender 63 and the upper anti-drop piece 71 and the connection part of the first suspender 63 and the lower anti-drop piece 72 are fixedly connected through bolts.

And a single Kong Yapian 8 is arranged between the upper part of the upper anti-falling part 71 and a bolt and between the lower part of the upper anti-falling part 71 and the bolt, so as to play a role in dispersing force and damping.

The single-hole pressing sheet 8 is made of hot galvanizing materials.

The first conversion coupler 62 is an L-shaped flap.

The double-C-shaped steel hanging layer 3 is composed of a plurality of double-C-shaped steels 31, the double-C-shaped steels 31 are arranged in parallel, and adjacent double-C-shaped steels 31 are fixedly connected through four-hole-shaped steel connecting pieces 32.

A plurality of adjustable waist-shaped holes 33 are arranged on the four-hole profile steel connecting piece 32 at intervals in parallel and are used for adjusting the installation position.

The first suspended ceiling structure 5 comprises a connecting steel beam 51, purline connecting pieces 52 and trapezoid bending pieces 53, purlines are arranged above the connecting steel beam 51 and fixedly connected with the connecting steel beam 51 through the purline connecting pieces 52, the trapezoid bending pieces 53 are arranged below the connecting steel beam 51, and the connecting steel beam 51 is fixedly connected with the top of the structural rigidity conversion layer 2 through the trapezoid bending pieces 53.

The beneficial effects of the utility model are as follows: the utility model provides a secondary rigid conversion layer structure for a battery workshop, which has simple integral structure, the structure rigid conversion layer 2 is arranged below the purline layer 1 in parallel, the purline layer 1 is connected with the structure rigid conversion layer 2 through a plurality of first suspended ceiling structures 5, the double C-shaped steel hanging layer 3 is arranged below the structure rigid conversion layer 2 in parallel, the structure rigid conversion layer 2 is connected with the top of an FFU blind plate suspended ceiling 4 after passing through a plurality of second suspended ceiling structures 6 and the second suspended ceiling structures 6 pass through the double C-shaped steel hanging layer 3, a plurality of second suspended ceiling structures 6 are uniformly arranged on the side edges of the structure rigid conversion layer 2 at parallel intervals, the second suspended ceiling structures 6 comprise a first suspended ceiling plate 61, a first conversion connecting piece 62 and a first hanging rod 63, the parallel interval of structural rigidity conversion layer 2 side evenly is equipped with a plurality of first hanging rib plates 61, first hanging rib plate 61 side is equipped with first conversion connecting piece 62 perpendicularly, first conversion connecting piece 62 keeps away from first hanging rib plate 61 end and is equipped with first jib 63 perpendicularly, first jib 63 passes and is connected with FFU blind plate furred ceiling 4 top, still be equipped with anticreep connecting piece 7 between second furred ceiling structure 6 and double C shaped steel hanging layer 3, prevent that second furred ceiling structure 6 from droing and shock attenuation, and between last anticreep piece 71 top and a bolt, all be equipped with single Kong Yapian 8 between last anticreep piece 71 below and the bolt, further play dispersion absorbing effect, improve structural strength.

The foregoing examples illustrate only a few embodiments of the utility model and are described in detail herein without thereby limiting the scope of the utility model. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the utility model, which are all within the scope of the utility model. Accordingly, the scope of protection of the present utility model is to be determined by the appended claims.

Claims (9)

1. A secondary rigidity conversion layer structure for battery workshop, including purlin layer (1), structural rigidity conversion layer (2), two C shaped steel hang layer (3), FFU blind plate furred ceiling (4), first furred ceiling structure (5), second furred ceiling structure (6), FFU blind plate furred ceiling (4), its characterized in that: purlin layer (1) below parallel is equipped with structure rigidity conversion layer (2), and purlin layer (1) are connected with structure rigidity conversion layer (2) through a plurality of first furred ceiling structures (5), and structure rigidity conversion layer (2) below parallel is equipped with two C shaped steel and hangs layer (3), and structure rigidity conversion layer (2) are equipped with first conversion connecting piece (62) through a plurality of second furred ceiling structures (6) and second furred ceiling structure (6) after passing two C shaped steel and hang layer (3) and are connected with FFU blind plate furred ceiling (4) top, structure rigidity conversion layer (2) side parallel interval evenly is equipped with a plurality of second furred ceiling structures (6), second furred ceiling structure (6) include first furred ceiling gusset (61), first conversion connecting piece (62), first jib (63) are all passed through first jib (61) and are connected with first blind plate (4) through first jib (61), first jib (63) and first jib (61) are kept away from first conversion connecting piece (62) end perpendicularly.

2. The secondary rigid conversion layer structure for a battery plant according to claim 1, wherein: the novel suspended ceiling is characterized in that an anti-falling connecting piece (7) is further arranged between the second suspended ceiling structure (6) and the double-C-shaped steel hanging layer (3) and used for preventing the second suspended ceiling structure (6) from falling off and absorbing shock, the anti-falling connecting piece (7) comprises an upper anti-falling piece (71) and a lower anti-falling piece (72), the upper anti-falling piece (71) is arranged above the double-C-shaped steel hanging layer (3), the lower anti-falling piece (72) is arranged below the double-C-shaped steel hanging layer (3), the first suspender (63) sequentially penetrates through the upper anti-falling piece (71), the double-C-shaped steel hanging layer (3), the lower anti-falling piece (72) and the top of the FFU blind plate suspended ceiling (4), and the first suspender (63) is fixedly connected with the connecting part of the upper anti-falling piece (71), the first suspender (63) and the lower anti-falling piece (72) through bolts.

3. The secondary rigid conversion layer structure for a battery plant according to claim 2, wherein: and single-hole pressing sheets (8) are arranged between the upper part of the upper anti-falling piece (71) and a bolt and between the lower part of the upper anti-falling piece (71) and the bolt and are used for playing a role in dispersing force and damping.

4. The secondary rigid conversion layer structure for a battery plant according to claim 3, wherein: the single-hole pressing sheet (8) is made of hot galvanizing materials.

5. The secondary rigid conversion layer structure for a battery plant according to claim 1, wherein: the first conversion connector (62) is an L-shaped folded plate.

6. The secondary rigid conversion layer structure for a battery plant according to claim 1, wherein: the first hanging rib plates (61) are connected with the side edges of the structural rigidity conversion layer (2) through connecting fixing rods (9), a plurality of connecting fixing rods (9) are arranged in parallel, and the connecting fixing rods (9) are used for playing a role in dispersing force shock absorption.

7. The secondary rigid conversion layer structure for a battery plant according to claim 1, wherein: the double-C-shaped steel hanging layer (3) is composed of a plurality of double-C-shaped steels (31), the double-C-shaped steels (31) are arranged in parallel, and adjacent double-C-shaped steels (31) are fixedly connected through four-hole-shaped steel connecting pieces (32).

8. The secondary rigid conversion layer structure for a battery plant according to claim 7, wherein: a plurality of adjustable waist-shaped holes (33) are arranged on the four-hole profile steel connecting piece (32) at intervals in parallel and are used for adjusting the installation position.

9. The secondary rigid conversion layer structure for a battery plant according to claim 1, wherein: the first suspended ceiling structure (5) comprises a connecting steel beam (51), purline connecting pieces (52) and trapezoid bending pieces (53), purlines are arranged above the connecting steel beam (51), the purlines are fixedly connected with the connecting steel beam (51) through the purline connecting pieces (52), trapezoid bending pieces (53) are arranged below the connecting steel beam (51), and the connecting steel beam (51) is fixedly connected with the top of the structural rigidity conversion layer (2) through the trapezoid bending pieces (53).