CN113431216A

CN113431216A - Building electrical pipeline system passing through earthquake-resistant joint

Info

Publication number: CN113431216A
Application number: CN202110753786.4A
Authority: CN
Inventors: 张国伟
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-08-16
Filing date: 2021-08-16
Publication date: 2021-09-24

Abstract

The invention discloses a building electrical pipeline system passing through an anti-seismic seam, which comprises a building body provided with the anti-seismic seam, and an elastic part fixedly arranged between the anti-seismic seams and used for distributing electrical pipelines; the elastic part, the elastic block and the spring are matched with each other, so that the rigid pulling force of transverse movement is relieved, the risk of breakage and damage of the supporting beam, the first movable flow plate and the second movable flow plate due to large pulling force is reduced, the anti-seismic effect is improved, and the elastic block and the spring help to promote the first movable flow plate and the second movable flow plate to recover to the original shape after an earthquake occurs, so that the use requirement is met; the invention can protect the safety of the electric pipeline when the building generates complex vibration.

Description

Building electrical pipeline system passing through earthquake-resistant joint

Technical Field

The invention belongs to the technical field of building electrical construction, and particularly relates to a building electrical pipeline system passing through an earthquake-resistant joint.

Background

At present, during building design, deformation joints are arranged for temperature expansion, settlement deformation and earthquake influence of buildings, and the building structure is prevented from generating cracks and even being damaged. The common deformation seams are as follows, 1, expansion joints: also called temperature gap, mainly to avoid serious deformation and crack of the building structure due to temperature difference change and concrete shrinkage. 2. Settling seams: the method is characterized in that deformation joints which are possibly formed in certain parts of a house due to uneven foundation settlement and cause cracking of adjacent structural parts are avoided in an engineering structure. 3. Anti-seismic seam: the deformation joint is arranged for improving the earthquake resistance of the building and reducing the destructive force of the earthquake to the building.

At present, the seam-passing treatment is a compensation measure which is needed when electric pipelines and the like pass through the deformation joint of the building.

The main form and treatment method of the electrical over-deformation joint is as follows:

1. a wire pipe: and the two sides of the deformation joint are respectively provided with a junction box (a passing box), and a wire pipe for connecting the two junction boxes adopts a hose and is reserved with proper allowance.

2. Bridge frame: when the bridges of the deformation joint are connected, the connecting piece for connecting the two bridge sections is only fastened on one bridge section, and the other bridge section is placed on the connecting piece without screws.

3. Lightning-arrest area: the lightning protection belt is provided with an omega-shaped compensation device at the position where the lightning protection belt passes through the deformation joint.

The prior art described above has the following drawbacks: the existing electric pipeline system is provided with junction boxes on two sides of an anti-seismic seam, and the junction box is exposed outside a building, so that birds are easily attracted to nest, potential safety hazards exist, and the overall attractiveness of the building is affected. The junction box is fixed on two sides of the anti-seismic seam, and when the building shakes violently, the junction box is inflexible and is easy to cause the electric pipelines to break.

Disclosure of Invention

In order to achieve the aim, the invention adopts the technical scheme that the invention provides a building electric pipeline system passing through anti-seismic seams, which comprises a building body provided with anti-seismic seams and an electric pipeline mechanism fixedly arranged between the anti-seismic seams;

the building body comprises two beam bodies, an elastic part is arranged between the two beam bodies, a first rectangular groove is preset at the top of each beam body, one side, close to each other, of each first rectangular groove is provided with an opening, the bottom inner walls of the two first rectangular grooves are flush with the top of the elastic part, a supporting beam is fixedly arranged on the bottom inner wall of each first rectangular groove in a threaded manner, one side, close to each other, of each supporting beam extends to a position between the two beam bodies and is fixedly provided with elastic buffer cotton, one side, close to each other, of each elastic buffer cotton is in movable contact with the corresponding supporting beam, a rectangular plate is fixedly arranged on the left side of the supporting beam on the right side of the two supporting beams, the supporting beam on the left side is slidably sleeved on the rectangular plate, a plurality of supporting columns are fixedly arranged at the bottom of the supporting beam, the beam is movably sleeved on the corresponding supporting columns, and obliquely arranged supporting plates are fixedly arranged on one side, close to each beam body, the two supporting plates are symmetrically arranged, the tops of the two supporting plates are respectively fixedly connected with the bottoms of the corresponding supporting beams, the top of the supporting beam on the right side is fixedly provided with a plurality of first movable flow plates, the top of the supporting beam on the left side is fixedly provided with a plurality of second movable flow plates, the plurality of first movable flow plates and the plurality of second movable flow plates are arranged in a staggered manner, the second movable flow plates are positioned between the two corresponding first movable flow plates, fixed blocks are respectively and fixedly arranged between the mutually close sides of the two adjacent first movable flow plates and the rear side of the second movable flow plate, elastic blocks are respectively and fixedly arranged on the mutually close sides of the two fixed blocks which are staggered and opposite from left to right, the right sides of the plurality of elastic blocks on the left side are respectively and fixedly connected with the left sides of the corresponding first movable flow plates, and the left sides of the plurality of elastic blocks on the right side are respectively and fixedly connected with the right sides of the corresponding second movable flow plates, the front sides of the first flow plates except the first flow plate at the front side are provided with second rectangular grooves, the same positioning rod is fixedly arranged between the inner walls at the two sides of the second rectangular grooves, the rear side of the second flow plate is fixedly provided with a rectangular sleeve, the rectangular sleeve is movably sleeved on the corresponding positioning rod, the same spring is fixedly arranged between the left side of the rectangular sleeve and the inner wall at the left side of the corresponding second rectangular groove, and the spring is movably sleeved on the corresponding positioning rod;

the elastic part comprises a first fixed block and a second fixed block which are respectively arranged on buildings on two sides, and a first protective sleeve arranged between the first fixed block and the second fixed block, wherein a first connecting seat and a second connecting seat are respectively arranged on the first fixed block and the second fixed block, pipeline grooves are arranged in the first connecting seat and the second connecting seat, sliding seats are respectively connected to the first connecting seat and the second connecting seat in a sliding manner, a hose is arranged between the two sliding seats for connection, and a lead is arranged in the hose; the first fixing block and the second fixing block are respectively provided with a first protection shell and a second protection shell, the first protection shell is in a square tube shape, and two ends of the first protection shell are respectively fixedly connected with the first protection shell and the second protection shell;

preferably, two sides of the first protective shell and the second protective shell which are back to each other are provided with pipeline holes, the pipeline holes are communicated with pipeline grooves, and metal hard pipes are arranged on the outer sides of the first protective shell and the second protective shell and corresponding to the pipeline holes.

Preferably, the two sides of the sliding seat are provided with elastic protection sleeves, and two ends of each elastic protection sleeve are respectively and fixedly connected to the inner walls of the sliding seat, the first protection shell and the second protection shell.

Preferably, the first connecting seat and the second connecting seat are provided with slide rails, the cross sections of the slide rails are T-shaped, the slide seat is provided with a T-shaped groove, and the slide seat is matched with the slide rails through the T-shaped groove and is respectively connected with the first connecting seat and the second connecting seat in a sliding manner.

Preferably, a through hole is arranged in the sliding seat, and the through hole is perpendicular to the pipeline groove and is communicated with the pipeline groove; the sliding seat is provided with a spool swivel, the spool swivel is an L-shaped pipeline with a hollow interior, and the spool swivel is connected with the hose; still be provided with the spool on the sliding seat and connect, the spool connects to be the cavity pipeline, is provided with the recess on the inner wall, be provided with the arch on the outer wall that the spool turned round, the spool connects and the spool turns round to rotate through recess and protruding cooperation and is connected.

Preferably, the first fixing block and the second fixing block are fixedly connected to the buildings on two sides of the anti-seismic seam through expansion bolts at four corners of the first fixing block and the second fixing block.

Preferably, a plurality of first thread grooves are formed in the inner wall of the bottom of each first rectangular groove, first fastening bolts are sleeved in the first thread grooves in a threaded manner, and the supporting cross beam is sleeved on the corresponding first fastening bolts in a threaded manner; and a plurality of third rectangular grooves are also formed in the inner wall of the bottom of the first rectangular groove, and the inner walls of the third rectangular grooves are in movable contact with the outer sides of the corresponding support rods.

Preferably, a plurality of second thread grooves are formed in one side of the top of the supporting beam, second fastening bolts are sleeved in the second thread grooves in a threaded manner, and the first movable flow plate and the second movable flow plate are respectively movably sleeved on the corresponding second fastening bolts.

Preferably, two balls are embedded on the inner walls of the four sides of the rectangular sleeve, the positioning rods are located between the eight corresponding balls, and the balls are in rolling contact with the outer sides of the corresponding positioning rods.

Has the advantages that: compared with the prior art, the invention has the advantages and positive effects that,

1. the elastic part, the elastic block and the spring are matched with each other, so that the rigid pulling force of transverse movement is relieved, the risk of breakage and damage of the supporting beam, the first movable flow plate and the second movable flow plate due to large pulling force is reduced, the anti-seismic effect is improved, and the elastic block and the spring help to promote the first movable flow plate and the second movable flow plate to recover to the original shape after an earthquake occurs, so that the use requirement is met;

2. the protective sleeve is arranged between the two fixed blocks and wraps the wire pipe exposed outside, so that the electric pipeline is not directly exposed in the external environment, birds are effectively prevented from nesting at the electric pipeline, and rain, snow and dust are prevented from entering the pipeline when severe rain and snow appear outside, and the safety of the electric pipeline is improved;

3. the sliding seat is connected with the connecting seat in a sliding manner, so that the sliding seat can move flexibly, and when a building shakes, the sliding seat and the connecting seat can move relatively, so that the safety of an electric pipeline is further improved;

4. the protective shell is arranged on the front surfaces of the first fixed block and the second fixed block, the connecting seat, the sliding seat and the like are protected by the protective shell, and the protective shell and the first protective sleeve form a closed space, so that dust in the external environment and rain and snow can be effectively prevented from entering the electric pipeline system;

5. pass through slide and slide rail cooperation through sliding seat and connecting seat, the sliding seat still includes rotates the tube head, rotate the tube head with the poling line pipe rotates and is connected. When the building takes place to rock, relative displacement can take place for sliding seat among this connection structure and connecting seat, rotates the tube head and can carry out big arbitrary angle rotation with the lead wire pipe, has avoided fixed terminal box can not rotate among the prior art, the emergence of the impaired condition of electric pipeline that leads to. The invention can protect the safety of the electric pipeline when the building generates complex vibration.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without inventive labor.

FIG. 1 is a schematic cross-sectional view of an electrical piping system of a building passing through an earthquake-resistant joint according to the present embodiment;

FIG. 2 is a schematic top cross-sectional structural view of FIG. 1;

FIG. 3 is an enlarged schematic view of portion A of FIG. 2;

FIG. 4 is a structural diagram of the connection between the elastic part and the beam in the building electrical pipeline system passing through the seismic joint according to the embodiment;

FIG. 5 is a sectional view of the structure of the connection between the elastic part and the beam body in the building electrical pipeline system passing through the seismic joint according to the embodiment

Fig. 6 is a side view and a longitudinal section of the connecting seat and the sliding seat.

Detailed Description

The technical solution of the present patent will be described in further detail with reference to the following embodiments.

Examples

In order that the above objects, features and advantages of the present invention can be more clearly understood, the present invention will be further described with reference to the accompanying drawings and examples. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and thus the present invention is not limited to the specific embodiments of the present disclosure.

The embodiment can be known from the attached drawings of the specification, and the scheme provides a building electric pipeline system passing through anti-seismic seams, which comprises a building body provided with the anti-seismic seams and an electric pipeline mechanism fixedly installed between the anti-seismic seams;

the building body comprises two beam bodies 1, an elastic part 6 is arranged between the two beam bodies 1, a first rectangular groove 2 is preset at the top of each beam body 1, one side, close to each other, of each first rectangular groove 2 is provided with an opening, the bottom inner walls of the two first rectangular grooves 2 are flush with the top of the elastic part 6, a supporting beam 3 is fixed on the bottom inner wall of each first rectangular groove 2 through threads, one side, close to each other, of each supporting beam 3 extends to a position between the two beam bodies 1 and is fixedly provided with elastic buffer cotton, one side, close to each other, of each elastic buffer cotton is in movable contact with the corresponding side, a rectangular plate 4 is fixedly arranged on the left side of the supporting beam 3 on the right side in the two supporting beams 3, the supporting beam 3 on the left side is in sliding sleeve connection with the rectangular plate 4, a plurality of supporting columns 5 are fixedly arranged at the bottom of the supporting beam 3, and the beam bodies 1 are movably sleeved on the corresponding supporting columns 5, the inclined supporting plates 7 are fixedly arranged on the adjacent sides of the two beam bodies 1, the two supporting plates 7 are symmetrically arranged, the tops of the two supporting plates 7 are respectively and fixedly connected with the bottoms of the corresponding supporting beams 3, the top of the supporting beam 3 on the right side is fixedly provided with a plurality of first movable flow plates 8, the top of the supporting beam 3 on the left side is fixedly provided with a plurality of second movable flow plates 9, the plurality of first movable flow plates 8 and the plurality of second movable flow plates 9 are arranged in a staggered manner, the second movable flow plates 9 are arranged between the corresponding two first movable flow plates 8, fixed blocks 10 are respectively and fixedly arranged between the adjacent sides of the two first movable flow plates 8 and the rear side of the second movable flow plate 9, elastic blocks 11 are respectively and fixedly arranged on the adjacent sides of the two fixed blocks 10 which are staggered and opposite left and right, and the right sides of the plurality of elastic blocks 11 on the left side in the plurality of elastic blocks 11 are respectively and fixedly connected with the left sides of the corresponding first movable flow plates 8, the left sides of a plurality of elastic blocks 11 positioned on the right side are respectively fixedly connected with the right sides of corresponding second movable flow plates 9, the front sides of the first movable flow plates 8 except the first movable flow plates 8 on the front sides are all provided with second rectangular grooves 12, the same positioning rod 13 is fixedly arranged between the inner walls of the two sides of the second rectangular grooves 12, the rear sides of the second movable flow plates 9 are fixedly provided with rectangular sleeves 15, the rectangular sleeves 15 are movably sleeved on the corresponding positioning rods 13, the same spring 14 is fixedly arranged between the left side of the rectangular sleeve 15 and the inner wall of the left side of the corresponding second rectangular groove 12, and the spring 14 is movably sleeved on the corresponding positioning rods 13;

the elastic part 6 comprises a first fixed block 61 and a second fixed block 62 which are respectively arranged on buildings on two sides, and a first protective sleeve 63 arranged between the first fixed block 61 and the second fixed block 62, wherein a first connecting seat 68 and a second connecting seat 69 are respectively arranged on the first fixed block 61 and the second fixed block 62, a pipeline slot 617 is arranged in the first connecting seat 68 and the second connecting seat 69, sliding seats 610 are respectively connected to the first connecting seat 68 and the second connecting seat 69 in a sliding manner, a hose 612 is arranged between the two sliding seats 610 for connection, and a lead is arranged in the hose 612; a first protection shell 64 and a second protection shell 65 are respectively arranged on the first fixing block 61 and the second fixing block 62, the first protection shell 63 is in a square tube shape, and two ends of the first protection shell are respectively fixedly connected with the first protection shell 64 and the second protection shell 65;

further, two opposite side surfaces of the first protective shell 64 and the second protective shell 65 are provided with a pipeline hole 618, the pipeline hole 618 is communicated with the pipeline groove 617, and the outer sides of the first protective shell 64 and the second protective shell 65 are provided with a metal hard pipe 611 corresponding to the pipeline hole 18.

Furthermore, the sliding seat 610 is provided with elastic protection sleeves 66 at two sides thereof, and two ends of the elastic protection sleeves 66 are respectively and fixedly connected to the sliding seat 610 and the inner walls of the first protection shell 64 and the second protection shell 65.

Furthermore, the first connecting seat 68 and the second connecting seat 69 are provided with a slide rail 67, the section of the slide rail 67 is T-shaped, the slide seat 610 is provided with a T-shaped groove, and the slide seat 610 is matched with the slide rail 67 through the T-shaped groove and is respectively connected with the first connecting seat 68 and the second connecting seat 69 in a sliding manner.

Further, a through hole is formed in the sliding seat 610, and the through hole is perpendicular to the pipe chase 617 and communicates with the pipe chase 617; a conduit swivel 615 is arranged on the sliding seat 610, the conduit swivel 615 is an L-shaped hollow conduit, and the conduit swivel 615 is connected with a hose 612; still be provided with spool joint 616 on sliding seat 610, spool joint 616 is the cavity pipeline, is provided with the recess on the inner wall, be provided with the arch on the outer wall of spool turn-round 615, spool joint 616 and spool turn-round 615 are connected through recess and protruding cooperation rotation.

Further, the first fixing block 61 and the second fixing block 62 are fixedly connected to the building on both sides of the earthquake-resistant seam 613 through expansion bolts 614 at four corners thereof.

Furthermore, a plurality of first thread grooves are formed in the inner wall of the bottom of the first rectangular groove 2, first fastening bolts are sleeved in the first thread grooves in a threaded manner, and the supporting beam 3 is sleeved on the corresponding first fastening bolts in a threaded manner; a plurality of third rectangular grooves are further formed in the inner wall of the bottom of the first rectangular groove 2, and the inner walls of the third rectangular grooves are in movable contact with the outer sides of the corresponding support rods 5.

Furthermore, a plurality of second thread grooves are formed in one side of the top of the supporting beam 3, second fastening bolts are sleeved in the second thread grooves in a threaded manner, and the first movable flow plate 8 and the second movable flow plate 9 are respectively movably sleeved on the corresponding second fastening bolts.

More specifically, two balls 16 are fitted on the inner walls of the four sides of the rectangular sleeve 15, the positioning rods 13 are located between the eight corresponding balls 16, and the balls 16 are in rolling contact with the outer sides of the corresponding positioning rods 13.

The working principle of the device is that,

when an earthquake occurs, when the two beam bodies 1 move transversely, the moving force drives the two beam bodies 1 to move in the direction away from each other, the two beam bodies 1 simultaneously pull the elastic material 6, the elastic material 6 deforms under the action of the pulling force, the pulling force between the two beam bodies 1 is relieved under the action of the elastic force of the elastic material 6, meanwhile, the beam bodies 1 drive the corresponding supporting beams 3 to move, one supporting beam 3 on the left side drives the second movable flow plate 9 to move leftwards, the supporting beam 3 on the right side drives the first movable flow plate 8 to move rightwards, the first movable flow plate 8 and the second movable flow plate 9 respectively pull the corresponding elastic blocks 11 while moving, the elastic blocks 11 deform, meanwhile, the first movable flow plate 8 drives the corresponding positioning rods 13 to move rightwards, and simultaneously, the first movable flow plate 8 drives the corresponding second rectangular grooves 12 to move rightwards, the second movable flow plate 9 drives the corresponding rectangular sleeve 15 to move leftwards, the rectangular sleeve 15 drives the corresponding ball 16 to roll outside the positioning rod 13, the rectangular sleeve 15 and the corresponding second rectangular groove 12 move towards the direction close to each other and compress the spring 14, under the elastic action of the spring 14 and the corresponding elastic block 11, the transverse movement force of the first movable flow plate 8 and the second movable flow plate 9 is relieved, the risk of breakage and damage of the supporting beam 3, the first movable flow plate 8 and the second movable flow plate 9 caused by a large rigid pulling force is reduced, and under the elastic cooperation of the elastic material 6, the elastic block 11 and the spring 14, the anti-seismic effect is improved, and the elastic force of the elastic block 11 and the spring 14 is helpful for promoting the first movable flow plate 8 and the second movable flow plate 9 to rapidly recover to the original shape after an earthquake; the supporting stability of the supporting beam 3 is improved and the damage risk during earthquake is reduced due to the arrangement of the supporting columns 5;

meanwhile, the protective sleeve is arranged between the two fixed blocks and wraps the wire pipe exposed outside, so that the electric pipeline is not directly exposed in the external environment, birds are effectively prevented from nesting at the electric pipeline, and rain, snow and dust are prevented from entering the pipeline when severe rain and snow appear outside, and the safety of the electric pipeline is improved; the sliding seat is connected with the connecting seat in a sliding manner, so that the sliding seat can move flexibly, and when a building shakes, the sliding seat and the connecting seat can move relatively, so that the safety of an electric pipeline is further improved; the protective shell is arranged on the front surfaces of the first fixed block and the second fixed block, the connecting seat, the sliding seat and the like are protected by the protective shell, and the protective shell and the first protective sleeve form a closed space, so that dust in the external environment and rain and snow can be effectively prevented from entering the electric pipeline system; pass through slide and slide rail cooperation through sliding seat and connecting seat, the sliding seat still includes rotates the tube head, rotate the tube head with the poling line pipe rotates and is connected. When the building takes place to rock, relative displacement can take place for sliding seat among this connection structure and connecting seat, rotates the tube head and can carry out big arbitrary angle rotation with the lead wire pipe, has avoided fixed terminal box can not rotate among the prior art, the emergence of the impaired condition of electric pipeline that leads to. The invention can protect the safety of the electric pipeline when the building generates complex vibration.

In addition, it should be noted that the electrical components presented in the document are all electrically connected with an external master controller and 220V mains, and the master controller can be a conventional known device which is controlled by a computer or the like.

The above description is only a preferred embodiment of the present invention, and not intended to limit the present invention in other forms, and any person skilled in the art may apply the above modifications or changes to the equivalent embodiments with equivalent changes, without departing from the technical spirit of the present invention, and any simple modification, equivalent change and change made to the above embodiments according to the technical spirit of the present invention still belong to the protection scope of the technical spirit of the present invention.

Claims

1. A building electrical pipeline system passing through anti-seismic seams is characterized by comprising a building body provided with anti-seismic seams and a mechanism fixedly arranged between the anti-seismic seams and used for laying electrical pipelines;

the building body comprises two beam bodies (1), an elastic part (6) used for laying an electric pipeline is arranged between the two beam bodies (1), a first rectangular groove (2) is preset at the top of each beam body (1), one side, close to each other, of each first rectangular groove (2) is provided with an opening, the inner walls of the bottoms of the two first rectangular grooves (2) are flush with the top of the elastic part (6), a supporting beam (3) is fixed on the inner wall of the bottom of each first rectangular groove (2) through threads, one side, close to each other, of each supporting beam (3) extends to a position between the two beam bodies (1) and is fixedly provided with elastic buffer cotton, one side, close to each other, of each elastic buffer cotton is in movable contact, a rectangular plate (4) is fixedly arranged on the left side of the supporting beam (3) on the right side in the two supporting beams (3), and the supporting beam (3) on the left side is slidably sleeved on the rectangular plate (4), the bottom fixed mounting of supporting beam (3) has a plurality of support columns (5), roof beam body (1) movable sleeve is established on a plurality of support columns (5) that correspond, the equal fixed mounting in one side that two roof beam bodies (1) are close to each other has backup pad (7) that the slope set up, two backup pad (7) symmetry sets up, the top of two backup pads (7) respectively with the bottom fixed connection of supporting beam (3) that correspond, the top fixed mounting of supporting beam (3) that is located the right side has a plurality of first activity to flow board (8), the top fixed mounting that is located left supporting beam (3) has a plurality of second activity to flow board (9), a plurality of first activity flows board (8) and a plurality of second activity and flows board (9) crisscross setting, the second activity flows board (9) and is located between two first activity that correspond and flows between one side that board (8) are close to each other and the equal fixed mounting in rear side of second activity board (9) has the fixed block (10) The left and right sides of two fixed blocks (10) which are staggered and opposite are close to each other are fixedly provided with elastic blocks (11), the right sides of the elastic blocks (11) positioned on the left side in the elastic blocks (11) are respectively and fixedly connected with the left sides of the corresponding first movable flow plates (8), the left sides of the elastic blocks (11) positioned on the right side are respectively and fixedly connected with the right sides of the corresponding second movable flow plates (9), the front sides of the first movable flow plates (8) except the first movable flow plates (8) positioned on the front sides are respectively provided with a second rectangular groove (12), the inner walls on the two sides of the second rectangular grooves (12) are fixedly provided with a same positioning rod (13), the rear sides of the second movable flow plates (9) are fixedly provided with rectangular sleeves (15), the rectangular sleeves (15) are movably sleeved on the corresponding positioning rods (13), the left sides of the rectangular sleeves (15) and the inner walls on the left sides of the corresponding second rectangular grooves (12) are fixedly provided with a same spring (14), the spring (14) is movably sleeved on the corresponding positioning rod (13);

the elastic part (6) comprises a first fixed block (61) and a second fixed block (62) which are respectively arranged on buildings on two sides, and a first protective sleeve (63) arranged between the first fixed block (61) and the second fixed block (62), a first connecting seat (68) and a second connecting seat (69) are respectively arranged on the first fixed block (61) and the second fixed block (62), a pipeline groove (617) is arranged in the first connecting seat (68) and the second connecting seat (69), sliding seats (610) are respectively connected to the first connecting seat (68) and the second connecting seat (69) in a sliding manner, a hose (612) is arranged between the two sliding seats (610) for connection, and a conducting wire is arranged in the hose (612); the first fixing block (61) and the second fixing block (62) are respectively provided with a first protection shell (64) and a second protection shell (65), the first protection shell (63) is in a square tube shape, and two ends of the first protection shell are respectively fixedly connected with the first protection shell (64) and the second protection shell (65).

2. A building electrical pipeline system passing through earthquake-resistant seams according to claim 1, wherein pipeline holes (618) are formed in two opposite sides of the first protective shell (64) and the second protective shell (65), the pipeline holes (618) are communicated with a pipeline groove (617), and metal hard pipes (611) are arranged on the outer sides of the first protective shell (64) and the second protective shell (65) corresponding to the pipeline holes (18).

3. A building electrical pipeline system passing through earthquake-proof seams according to claim 1, characterized in that elastic protection sleeves (66) are arranged on two sides of the sliding seat (610), and two ends of each elastic protection sleeve (66) are fixedly connected to the sliding seat (610) and the inner walls of the first protection shell (64) and the second protection shell (65), respectively.

4. A building electric pipeline system for passing through earthquake-proof seams according to claim 1, characterized in that sliding rails (67) are arranged on the first connecting seat (68) and the second connecting seat (69), the cross section of the sliding rails (67) is T-shaped, a T-shaped groove is arranged on the sliding seat (610), and the sliding seat (610) is matched with the sliding rails (67) through the T-shaped groove and is respectively connected with the first connecting seat (68) and the second connecting seat (69) in a sliding manner.

5. A building electric pipeline system for passing through earthquake-proof seams according to claim 1, wherein a through hole is arranged in the sliding seat (610), is perpendicular to the pipeline groove (617) and is communicated with the pipeline groove (617); a conduit swivel (615) is arranged on the sliding seat (610), the conduit swivel (615) is an L-shaped hollow pipeline, and the conduit swivel (615) is connected with a hose (612); still be provided with spool joint (616) on sliding seat (610), spool joint (616) are the cavity pipeline, are provided with the recess on the inner wall, be provided with the arch on the outer wall of spool turn round (615), spool joint (616) and spool turn round (615) are through recess and protruding cooperation swivelling joint.

6. A building electrical piping system over an earthquake-resistant joint according to claim 1, characterised in that said first fixing block (61) and second fixing block (62) are each fixedly connected to the building on both sides of the earthquake-resistant joint (613) by means of expansion bolts (614) at the four corners thereof.

7. The building electrical pipeline system for the over-aseismic joint according to claim 1, wherein a plurality of first thread grooves are formed in the inner wall of the bottom of the first rectangular groove (2), first fastening bolts are sleeved in the first thread grooves in a threaded manner, and the supporting beam (3) is sleeved on the corresponding first fastening bolts in a threaded manner; a plurality of third rectangular grooves are further formed in the inner wall of the bottom of the first rectangular groove (2), and the inner walls of the third rectangular grooves are in movable contact with the outer sides of the corresponding support rods (5).

8. The building electrical pipeline system for penetrating through earthquake-resistant joints according to claim 1, wherein one side of the top of the supporting beam (3) is provided with a plurality of second threaded grooves, second fastening bolts are sleeved in the second threaded grooves in a threaded manner, and the first movable flow plate (8) and the second movable flow plate (9) are respectively movably sleeved on the corresponding second fastening bolts.

9. A building electric pipeline system for passing through earthquake-proof seams according to claim 1, characterized in that two balls (16) are embedded on the four side inner walls of the rectangular sleeve (15), the positioning rods (13) are positioned between the eight corresponding balls (16), and the balls (16) are in rolling contact with the outer sides of the corresponding positioning rods (13).