CN214579282U - Building electromechanical pipeline module frame - Google Patents

Abstract

The utility model provides a building electromechanical pipeline module frame, the building includes the floor, the module frame is fixed to be set up on the floor, the module frame includes four fixed connection at the first pair of piece channel-section steels of floor below, a plurality of second pair of piece channel-section steels of fixedly connected with between two adjacent first pair of piece channel-section steels, first pair of piece channel-section steels comprises first C type channel-section steel and second C type channel-section steel fixed connection that the opening is opposite, the second pair of piece channel-section steels comprises third C type channel-section steel and fourth C type channel-section steel fixed connection that the opening is opposite. The utility model provides a building electromechanical pipeline module frame sets up electromechanical pipeline in advance through module frame, avoids cutting, processes such as welding at the scene, reduces on-the-spot risk source. After the electromechanical pipeline sets up and accomplishes, send the module frame to the assigned position, only need to squeeze into the hole of reserving on the floor with the back club-footed crab-bolt on the channel-section steel base, just accomplished the installation of electromechanical pipeline in the rail transit station, the installation is simpler, and whole effect is also better.

Description

Building electromechanical pipeline module frame

Technical Field

The utility model relates to an electromechanical pipeline installation technical field of urban rail transit, specific building electromechanical pipeline module frame that says so.

Background

The existing urban rail transit electromechanical pipeline installation process in China has a plurality of difficulties, such as short electromechanical pipeline construction period, small construction space and the like. And to fundamentally solve the electromechanical construction difficulty, the traditional electromechanical construction mode needs to be changed, so that the assembly type electromechanical comprehensive modular construction technology is developed. The modular construction technology for the assembled electromechanical pipelines is characterized by short construction period, high pipeline integration level, construction cost reduction, energy conservation, environmental protection and the like on the basis of BIM secondary deepening, and the flow is as follows: building an electromechanical design model → integrating and optimizing pipelines → segmenting pipelines of electromechanical modules → virtually processing modules, virtually assembling → module coding → assembling a support and hanger system → generating a processing diagram and a material table, blanking → factory prefabrication processing and module assembling → field installation and module connection.

Because electromechanical pipeline module mounting height is higher, and the installation accuracy is higher, and the installation wholeness requirement is higher, in order to ensure all kinds of pipeline wholeness and leakproofness, should carry out the wholeness installation with all kinds of pipelines. The existing construction technology generally adopts a mode of raw material field construction and manufacturing, electromechanical pipelines are manufactured on site, severe pollution is caused to the environment of a construction site, various cutting and welding procedures are carried out on the construction site, a risk source of the construction site can be increased, and risk control of the construction site is not facilitated; the mode of processing and producing on site lengthens the construction period to a certain extent, is difficult to meet the construction requirements of the rail transit at the present stage, has higher construction engineering complexity, and causes the installation working face of the electromechanical pipeline module to be narrow, is not beneficial to the operation of a large number of constructors and has lower construction and installation precision due to the shape of a pipeline and the like.

SUMMERY OF THE UTILITY MODEL

In order to solve the not enough among the prior art, the utility model provides a building electromechanical pipeline module frame sets up electromechanical pipeline in advance through module frame, avoids cutting, processes such as welding at the scene, reduces on-the-spot risk source. After electromechanical pipeline sets up the completion, send the module frame to the assigned position, only need to squeeze into the hole of reserving on the floor with the back club-footed crab-bolt on the channel-section steel base, just accomplished electromechanical pipeline's installation in the rail transit station, the installation is simpler, and the whole effect of installation is also better, and the installation accuracy is also higher.

In order to achieve the above object, the utility model discloses a concrete scheme does: the utility model provides a building electromechanical pipeline module frame, the building includes the floor, and module frame is fixed to be set up on the floor, module frame includes four fixed connection at the first pair of piece channel-section steels of floor below, and a plurality of second pair of piece channel-section steels of fixedly connected with between two adjacent first pair of piece channel-section steels, first pair of piece channel-section steels comprise opening opposite first C type channel-section steel and second C type channel-section steel fixed connection, and second pair of piece channel-section steels comprises opening opposite third C type channel-section steel and fourth C type channel-section steel fixed connection.

As a further optimization of the above one building electromechanical pipeline module frame: the first double-spliced channel steel and the second double-spliced channel steel are perpendicular to each other.

As a further optimization of the above one building electromechanical pipeline module frame: and a plurality of P-type tube bundles are arranged in the groove of the second double-spliced channel steel positioned at the lowest part.

As a further optimization of the above one building electromechanical pipeline module frame: the first double-spliced channel steel and the second double-spliced channel steel are fixedly connected through a connecting piece, the connecting piece comprises a first connecting piece and a second connecting piece, the first connecting piece is connected with the first C-shaped channel steel or the second C-shaped channel steel through a plurality of first bolts, and the second connecting piece is connected with the third C-shaped channel steel or the fourth C-shaped channel steel through a plurality of first bolts.

As a further optimization of the above one building electromechanical pipeline module frame: adjacent two be connected with the bracing subassembly between the two piece channel steels of second, the bracing subassembly includes two bracing connecting pieces, is connected with the channel-section steel between two bracing connecting pieces, and the bracing connecting piece includes first connector and second connector, is connected through slewing mechanism between first connector and the second connector, first connector with third C type channel steel perhaps fourth C type channel steel passes through a plurality of second bolted connection, and the second connector passes through a plurality of second bolted connection with the channel-section steel.

As a further optimization of the above one building electromechanical pipeline module frame: first double pin channel-section steel with the floor passes through fixed establishment fixed connection, and fixed establishment includes the channel-section steel base, and the channel-section steel base sets up on the first double pin channel-section steel, wear to be equipped with a plurality of on the channel-section steel base and be used for spread the end crab-bolt after spread of spread groove steel base and floor.

As a further optimization of the above one building electromechanical pipeline module frame: two loading boards of channel-section steel base fixedly connected with, two loading boards set up respectively the opening side of first C type channel-section steel with the opening side of second C type channel-section steel, the loading board with first C type channel-section steel perhaps second C type channel-section steel is through a plurality of third bolted connection.

As a further optimization of the above one building electromechanical pipeline module frame: the inboard of first two-piece channel-section steel the inboard of second two-piece channel-section steel with the inboard of channel-section steel all is provided with a plurality of bosss, all is provided with a plurality of channel-section steel latch fittings in the recess of first two-piece channel-section steel, the recess of second two-piece channel-section steel and in the recess of channel-section steel, set up on the channel-section steel latch fitting with a plurality of recess with boss matched with, the channel-section steel latch fitting with first connection piece perhaps the second connection piece passes through a plurality of first bolted connection, the channel-section steel latch fitting with first connector perhaps the second connector passes through a plurality of second bolted connection, the channel-section steel latch fitting with the loading board passes through a plurality of third bolted connection.

As a further optimization of the above one building electromechanical pipeline module frame: and end covers are arranged at two ends of the first double-spliced channel steel and at two ends of the second double-spliced channel steel.

As a further optimization of the above one building electromechanical pipeline module frame: the second double-spliced channel steel is fixedly provided with an alignment limiting clamp device, the alignment limiting clamp device comprises a fixed channel steel, at least two suspension wires penetrate between the fixed channel steel and the second double-spliced channel steel, and a plurality of wing edge nuts are arranged on the suspension wires in a matched mode.

Has the advantages that: the utility model provides a building electromechanical pipeline module frame sets up electromechanical pipeline through module frame, and a large amount of work is accomplished subaerial, only needs a small amount of staff can assemble, and the overall process all can be at the prefabricated processing equipment of mill, reduces field personnel work load, avoids cutting, processes such as welding at the scene, reduces the on-the-spot risk source. After electromechanical pipeline sets up the completion, place the assigned position with module frame, only need to squeeze into the hole of reserving on the floor with the back club-footed crab-bolt on the channel-section steel base, just accomplished electromechanical pipeline's installation in the rail transit station, the installation is simpler, and the whole effect of installation is also better, and the installation accuracy is also higher.

Drawings

Fig. 1 is a front view of the present invention;

fig. 2 is a side view of the present invention;

fig. 3 is a schematic view of the use of the present invention;

FIG. 4 is a schematic structural diagram of a first C-shaped channel;

FIG. 5 is a partial enlarged view at A;

figure 6 is a schematic view of a channel lock;

FIG. 7 is a schematic structural view of the bracing assembly;

FIG. 8 is a schematic structural view of a fixing mechanism in embodiment 1;

FIG. 9 is a schematic structural view of a fixing mechanism in embodiment 2;

FIG. 10 is a schematic structural view of a fixing mechanism in embodiment 3;

fig. 11 is a schematic structural view of the butt clamp limiting device.

Description of the drawings: 1. first double pin channel steel, 2, second double pin channel steel, 3, first C type channel steel, 4, second C type channel steel, 5, the end cover, 6, first connecting piece, 7, the second connecting piece, 8, first bolt, 9, first connector, 10, the second connector, 11, the channel-section steel base, 12, the second bolt, 13, back enlarged base crab-bolt, 14, the channel-section steel latch fitting, 15, the set-square, 16, the loading board, 17, P type tube bank, 18, the third bolt, 19, slewing mechanism, 20, the third C type channel steel, 21, the fourth C type channel steel, 22, the channel-section steel, 23, fixed channel steel, 24, the hanging wire, 25, wing along nut, 26, expansion bolt, 27, chemical bolt.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, 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 work belong to the protection scope of the present invention.

Example 1.

As shown in fig. 1 to 11, a building electromechanical pipeline module frame, the building includes the floor, the module frame is fixed to be set up on the floor, the module frame includes four fixed connection at the first pair of spelling channel-section steels 1 of floor below, a plurality of second pair of spelling channel-section steels 2 of fixedly connected with between two adjacent first pair of spelling channel-section steels 1, first pair of spelling channel-section steels 1 comprises opening opposite first C type channel- section steel 3 and 4 fixed connection of second C type channel-section steel, second pair of spelling channel-section steels 2 comprises opening opposite third C type channel-section steel 20 and fourth C type channel-section steel 21 fixed connection. The first double-spliced channel steel 1 and the second double-spliced channel steel 2 are perpendicular to each other.

First pair of spelling channel-section steel 1 is formed by the welding of the not grooved one side laminating of first C channel-section steel 3 and the not grooved one side laminating of second C channel-section steel 4 by second pair of spelling channel-section steel 2, and the not grooved one side laminating welding of third C channel-section steel 20 and the not grooved one side laminating of fourth C channel-section steel 21 forms, and the structure of first C channel-section steel 3 is the same with the structure of second C channel-section steel 4, and the structure of third C channel-section steel 20 is the same with the structure of fourth C channel-section steel 21. The module frame is fixed in the floor below, four first doublet channel-section steels 1 perpendicular to floor, and first doublet channel-section steel 1 and second doublet channel-section steel 2 mutually perpendicular select the number of second doublet channel-section steel 2 between two adjacent first doublet channel-section steels 1 according to actual conditions, prevent that the insecure condition from appearing in the module frame. After the module frame is assembled, the electromechanical pipeline is arranged on the module frame, then the module frame is placed at a designated position, and the module frame is fixed with the floor slab, namely the electromechanical pipeline is installed in the rail transit station. The assembly of the module frame and the arrangement of the electromechanical pipeline can be carried out at places except a rail transit station, the two working processes can be finished on the ground, the installation mode is simple and convenient, a small amount of personnel can finish the two working processes, meanwhile, the preparation work of cutting, welding and the like of the electromechanical pipeline on the spot is also avoided, and the spot risk source is reduced.

The electromechanical pipeline comprises a water supply and drainage professional pipeline, and a plurality of P-shaped pipe bundles 17 for fixing the water supply and drainage professional pipeline are arranged in the groove of the second spliced channel steel 2 positioned at the lowest part. The water supply and drainage professional pipelines comprise pipe parts such as water pipes and the like, and can be fixed on the module frame by using the P-shaped pipe bundle 17, and the size and the thickness of the P-shaped pipe bundle 17 are selected according to the actual diameter of the pipeline. The bottom of the P-shaped pipe bundle 17 is provided with a clamping table used for being fixed with the second double-spliced channel steel 2, and after the water supply and drainage professional pipeline is placed, the water supply and drainage professional pipeline is fixed and locked through outer hexagon bolts.

First two-piece channel-section steel 1 and second two-piece channel-section steel 2 pass through connecting piece fixed connection, and the connecting piece includes first connection piece 6 and second connection piece 7, and first connection piece 6 is connected through first bolt 8 with first C type channel-section steel 3 or second C type channel-section steel 4, and second connection piece 7 is connected through a plurality of first bolt 8 with third C type channel-section steel 20 or fourth C type channel-section steel 21.

First connection piece 6 and second connection piece 7 are the L type, and first connection piece 6 includes mutually perpendicular's first lamellar body and second lamellar body, and second connection piece 7 includes mutually perpendicular's third lamellar body and fourth lamellar body, and second lamellar body and fourth lamellar body mutually perpendicular and welding, first lamellar body and third lamellar body pass through set-square 15 fixed connection, have all seted up 1 or 2 bolt holes on first connection piece 6 and the second connection piece 7. First connection piece 6 is fixed on first C type channel-section steel 3 or on second C type channel-section steel 4 through first bolt 8, second connection piece 7 is fixed on third C type channel-section steel 20 or fourth C type channel-section steel 21 through first bolt 8, form the module frame with all first pair of spelling channel-section steel 1 and the fixed formation of second pair of spelling channel-section steel 2 through a plurality of connecting pieces, respectively set up a bolt hole or two bolt holes on first connection piece 6 and the second connection piece 7, the connecting piece is through first bolt 8 connection first pair of spelling channel-section steel 1 and second pair of spelling channel-section steel 2.

Still be connected with the bracing subassembly between two adjacent two second double-pieced groove steel 2 from top to bottom, the bracing subassembly includes two bracing connecting pieces, be connected with channel-section steel 22 between two bracing connecting pieces, the bracing connecting piece includes first connector 9 and second connector 10, be connected through slewing mechanism 19 between first connector 9 and the second connector 10, first connector 9 passes through second bolt 12 with third C type channel-section steel 20 or fourth C type channel-section steel 21 and is connected, second connector 10 is connected through a plurality of second bolt 12 with channel-section steel 22.

In order to further reinforce the module frame, according to actual conditions, whether the diagonal bracing assembly needs to be connected between two second double-spliced channel steels 2 adjacent up and down is selected, the required angle can be adjusted through a rotating mechanism 19 by a first connecting body 9 and a second connecting body 10, the rotating mechanism 19 is a hinge, two second double-spliced channel steels 2 adjacent up and down form a triangular frame at the joint through the diagonal bracing assembly, the stability of the module frame is enhanced, one or two bolt holes are respectively formed in the first connecting body 9 and the second connecting body 10, and the second bolt 12 is used for connecting the second double-spliced channel steels 2 with the first connecting body 9 and the channel steels 22 with the second connecting body 10.

First doublet channel-section steel 1 passes through fixed establishment fixed connection with the floor, and fixed establishment includes channel-section steel base 11, and channel-section steel base 11 sets up on first doublet channel-section steel 1, wears to be equipped with two back expand end crab-bolt 13 that are used for spread groove steel base 11 and floor on channel-section steel base 11.

Two loading boards 16 of channel-section steel base 11 fixedly connected with, two loading boards 16 set up respectively at the opening side of first C type channel-section steel 3 and the opening side of second C type channel-section steel 4, and loading board 16 is connected through a plurality of third bolt 18 with first C type channel-section steel 3 or second C type channel-section steel 4. The bearing plate 16 is connected with the channel steel base 11 and the first double-spliced channel steel 1, and two bolt holes are formed in the bearing plate 16 and used for fixing the channel steel base 11 on the first double-spliced channel steel 1 through the third bolts 18.

First two-piece channel-section steel 1's inboard, second two-piece channel-section steel 2's inboard and channel-section steel 22's inboard all is provided with a plurality of bosss, in first two-piece channel-section steel 1's the recess, all be provided with a plurality of channel-section steel latch fittings 14 in second two-piece channel-section steel 2's the recess and channel-section steel 22, be provided with a plurality of recesses with boss matched with on the channel-section steel latch fitting 14, channel-section steel latch fitting 14 is connected through a plurality of first bolt 8 with first connection piece 6 or second connection piece 7, channel-section steel latch fitting 14 is connected through a plurality of second bolt 12 with first connector 9 or second connector 10, channel-section steel latch fitting 14 is connected through a plurality of third bolt 18 with loading board 16.

First two-piece channel-section steel 1, the two-piece channel-section steel 2 of second and channel-section steel 22 all are connected with channel-section steel latch fitting 14 through the cooperation of boss and recess, channel-section steel latch fitting 14 sets up each junction at first two-piece channel-section steel 1, each junction of second two-piece channel-section steel 2 is in and each junction of channel-section steel 22, set up a bolt hole on the channel-section steel latch fitting 14, the number of the bolt hole on the channel-section steel latch fitting 14 of junction and the connecting piece, the number of the bolt hole on the bracing connecting piece or the number of the bolt hole on the loading board 16 are corresponding. The first bolt 8, the second bolt 12 and the third bolt 18 are all outer hexagon bolts with the same model.

Both ends of first double-pin channel-section steel 1 and the both ends of second double-pin channel-section steel 2 all are provided with end cover 5, and end cover 5 can prevent that channel-section steel latch fitting 14 from sliding in the recess of first double-pin channel-section steel 1 and the recess of second double-pin channel-section steel 2.

The second double-spliced channel steel 2 is fixed with a contraposition limiting clamp device, the contraposition limiting clamp device comprises a fixed channel steel 23, at least two suspension wires 24 penetrate between the fixed channel steel 23 and the second double-spliced channel steel 2, and a plurality of wing edge nuts 25 are arranged on the suspension wires 24 in a matched mode.

Electromechanical pipeline still includes ventilation professional pipeline and electric professional pipeline, and the professional pipeline of ventilation includes tuber pipe etc. and electric professional pipeline includes crane span structure etc. and the module frame can divide into a plurality of regions according to the demand. The opposite both sides of module frame respectively are provided with four second double pin channel-section steels 2, have formed three region altogether: regional, middle zone and upper region of lower floor, set up P type tube bank 17 on the regional second double-pin channel-section steel 2 of lower floor for water supply and drainage pipe such as fixed water pipe all sets up counterpoint limit clamp device on the second double-pin channel-section steel 2 in two other regions, and middle zone is used for ventilation professional pipelines such as fixed tuber pipe, and the upper region is used for electric professional pipelines such as fixed crane span structure. The contraposition limiting clamp device comprises a fixed channel steel 23, the fixed channel steel 23 is parallel to a second spliced channel steel 2, an air pipe is arranged between the fixed channel steel 23 and the second spliced channel steel 2 in the middle region, two suspension wires 24 penetrate between the fixed channel steel 23 and the second spliced channel steel 2 in the middle region, one end of each suspension wire 24 penetrates through the fixed channel steel 23, the other end of each suspension wire 24 penetrates through the second spliced channel steel 2, the air pipe is arranged between the two suspension wires 24, the suspension wires 24 penetrate through wing edge nuts 25, and the wing edge nuts 25 fix the suspension wires 24 on the fixed channel steel 23 and the second spliced channel steel 2. The arrangement method of the alignment limiting clamp device for fixing the bridge frame in the upper area is the same as that of the alignment limiting clamp device for fixing the air pipe in the middle area. The fixing of the electromechanical pipelines such as the air pipe and the bridge frame is favorable for preventing the air pipe and the bridge frame from shaking and damaging the appearance of the air pipe and the bridge frame.

After the module frame is assembled, electromechanical pipelines such as a water pipe, an air pipe and a bridge frame are fixed on the module frame, the module frame is placed on a hoisting base, the module frame is transported to a specified position by adopting a hoisting mode, the hoisting base comprises two supporting rods which are arranged in parallel, two parallel telescopic rods are arranged between the two supporting rods, in order to reinforce the hoisting base, two cross arms are further arranged on the hoisting base, two ends of each cross arm are respectively and fixedly connected with the two telescopic rods, a plurality of lifting lugs are respectively arranged on the two supporting rods, and the size of the hoisting base is matched with that of the module frame; in order to ensure that the module frame does not move on the hoisting base in the transportation process, two limiting columns are respectively arranged at two ends of the two telescopic rods, and the limiting columns are inserted into the corresponding first double-spliced channel steel 1. And after the module frame is transported to a designated position, driving the rear bottom expanding anchor bolt 13 into a reserved hole expanding hole, and finishing the arrangement of the electromechanical pipeline in the rail transit station.

Example 2.

As shown in fig. 1 to 11, embodiment 2 is different from embodiment 1 in the connection mode of first doublet channel steel 1 and the floor, and first doublet channel steel 1 and the floor pass through fixing mechanism fixed connection, and fixing mechanism includes channel steel base 11, and channel steel base 11 sets up on first doublet channel steel 1, wears to be equipped with two expansion bolts 26 that are used for connecting channel steel base 11 and floor on channel steel base 11. The method for installing the module frame in the embodiment 2 is the same as that in the embodiment 1, compared with the embodiment 1, the embodiment 2 adopts the expansion bolts 26 to replace the rear-enlarged-base anchor bolts 13, the drilling hole is small, the tensile force is large, the shearing resistance is good, and the wall surface is flat after the installation is finished.

Example 3.

As shown in fig. 1 to 11, the difference between embodiment 3 and embodiments 1 and 2 lies in the connection mode of the first double-spliced channel steel 1 and the floor slab and the connection mode of the channel steel base 11 and the first double-spliced channel steel 1, the first double-spliced channel steel 1 and the floor slab pass through the fixing mechanism for fixed connection, the fixing mechanism includes the channel steel base 11, the channel steel base 11 is arranged on the first double-spliced channel steel 1, and two chemical bolts 27 used for connecting the channel steel base 11 and the floor slab are arranged on the channel steel base 11 in a penetrating manner.

Two loading boards 16 of channel-section steel base 11 fixedly connected with, two loading boards 16 set up respectively at the opening side of first C type channel-section steel 3 and the opening side of second C type channel-section steel 4, and loading board 16 is connected through a plurality of third bolt 18 with first C type channel-section steel 3 or second C type channel-section steel 4. The bearing plate 16 is connected with the channel steel base 11 and the first double-spliced channel steel 1, and two bolt holes are formed in the bearing plate 16 and used for fixing the channel steel base 11 on the first double-spliced channel steel 1 through the third bolts 18.

Channel-section steel base 11 comprises first base and second base, a connecting hole has respectively been seted up on the first base and on the second base, wear to establish chemical bolt 27 in the connecting hole, two bolt holes have been seted up on loading board 16, first base sets up with a loading board 16 an organic whole, form L type structure, second base sets up with another loading board 16 an organic whole, form L type structure, two loading boards 16 set up respectively at the opening side of first C type channel-section steel 3 and the opening side of second C type channel-section steel 4, first base and second base orientation opposite direction, two loading boards 16 and first pair piece channel-section steel 1 adopt two to wear the nut fixed, it passes loading board 16 and first pair piece channel-section steel 1 to wear the nut.

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 (8)

1. The utility model provides a building electromechanical pipeline module frame, the building includes the floor, and module frame is fixed to be set up on the floor, its characterized in that: the module frame comprises four first double-spliced channel steel (1) fixedly connected below a floor slab, a plurality of second double-spliced channel steel (2) is fixedly connected between every two adjacent first double-spliced channel steel (1), the first double-spliced channel steel (1) is formed by a first C-shaped channel steel (3) with opposite openings and a second C-shaped channel steel (4) fixedly connected, and the second double-spliced channel steel (2) is formed by a third C-shaped channel steel (20) with opposite openings and a fourth C-shaped channel steel (21) fixedly connected.

2. A building electromechanical lines modular frame as claimed in claim 1, wherein: the first double-spliced channel steel (1) is perpendicular to the second double-spliced channel steel (2).

3. A building electromechanical lines modular frame as claimed in claim 1, wherein: a plurality of P-shaped tube bundles (17) are arranged in the groove of the second double-spliced channel steel (2) positioned at the lowest part.

4. A building electromechanical lines modular frame as claimed in claim 1, wherein: the first double-spliced channel steel (1) and the second double-spliced channel steel (2) are fixedly connected through a connecting piece, the connecting piece comprises a first connecting piece (6) and a second connecting piece (7), the first connecting piece (6) is connected with the first C-shaped channel steel (3) or the second C-shaped channel steel (4) through a plurality of first bolts (8), and the second connecting piece (7) is connected with the third C-shaped channel steel (20) or the fourth C-shaped channel steel (21) through a plurality of first bolts (8).

5. A building electromechanical lines modular frame as claimed in claim 1, wherein: adjacent two be connected with the bracing subassembly between second double pin channel-section steel (2), the bracing subassembly includes two bracing connecting pieces, is connected with channel-section steel (22) between two bracing connecting pieces, and the bracing connecting piece includes first connector (9) and second connector (10), is connected through slewing mechanism (19) between first connector (9) and the second connector (10), first connector (9) with third C type channel-section steel (20) perhaps fourth C type channel-section steel (21) are connected through a plurality of second bolt (12), and second connector (10) are connected through a plurality of second bolt (12) with channel-section steel (22).

6. A building electromechanical lines modular frame as claimed in claim 1, wherein: first doublet channel-section steel (1) with the floor passes through fixed establishment fixed connection, and fixed establishment includes channel-section steel base (11), and channel-section steel base (11) set up on first doublet channel-section steel (1), wear to be equipped with a plurality of and be used for spread bottom anchor bolt (13) of back of spread groove steel base (11) and floor on channel-section steel base (11).

7. A building electromechanical lines modular frame as claimed in claim 6, wherein: two loading boards (16) of channel-section steel base (11) fixedly connected with, two loading boards (16) set up respectively the opening side of first C type channel-section steel (3) with the opening side of second C type channel-section steel (4), loading board (16) with first C type channel-section steel (3) perhaps second C type channel-section steel (4) are connected through a plurality of third bolt (18).

8. A building electromechanical lines modular frame as claimed in claim 1, wherein: the second double-spliced channel steel (2) is fixedly provided with a contraposition limiting clamp device, the contraposition limiting clamp device comprises a fixed channel steel (23), at least two suspension wires (24) penetrate between the fixed channel steel (23) and the second double-spliced channel steel (2), and a plurality of wing edge nuts (25) are arranged on the suspension wires (24) in a matched mode.

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