CN209669926U - It is a kind of list cabin and more cabin steel pipes corridor and concrete pipe gallery connection structure - Google Patents

Abstract

The utility model relates to field of civil engineering, the connection structure of specifically a kind of list cabin and more cabin steel pipes corridor and concrete pipe gallery, it is intended to solve existing steel pipe corridor and connect difficult technical problem with concrete pipe gallery.The main connection that steel pipe corridor and concrete pipe gallery axial direction are realized using corrugated steel, the positioning of steel pipe corridor radial direction is realized using faucet part, with good compatibility of deformation ability, the displacement deformation of single cabin steel pipe corridor and concrete pipe gallery junction can be effectively constrained simultaneously, the influence for ambient enviroment is reduced to the full extent, is solved existing single cabin steel pipe corridor and is connect difficult technical problem with concrete pipe gallery.

Description

It is a kind of list cabin and more cabin steel pipes corridor and concrete pipe gallery connection structure

Technical field

The utility model relates to field of civil engineering, the company of specifically a kind of list cabin and more cabin steel pipes corridor and concrete pipe gallery Binding structure.

Background technique

Underground pipe gallery is managed as a kind of and efficient pipeline paving mode, has been pushed away extensively in China Extensively.Prefabricated assembled steel pipe corridor as a kind of novel underground pipe gallery, have many advantages, such as rigidity greatly, low cost, short time limit, However, the underground pipe gallery that China's construction at present is completed mostly is traditional concrete pipe gallery.Newly-built prefabricated assembled steel How piping lane section connect with existing concrete pipe gallery section, has become urgent problem to be solved in engineering construction.

Utility model content

The utility model aims to solve the problem that existing steel pipe corridor connect difficult technical problem with concrete pipe gallery.For this purpose, this reality With a kind of novel connection structure for proposing single cabin and more cabin steel pipes corridor and concrete pipe gallery.

The technical scheme adopted by the utility model to solve the technical problem is as follows:

A kind of connection structure of list cabin steel pipe corridor and concrete pipe gallery, by bottom plate bindiny mechanism, side wall bindiny mechanism and top Plate bindiny mechanism composition；The bottom plate bindiny mechanism includes the first corrugated steel and casts in the of concrete pipe gallery bottom end face One faucet part, first faucet part are located at the radially outer of concrete pipe gallery bottom end face and axial evagination, the first wave One end of line steel plate and single cabin steel pipe corridor bottom end face be connected, the inner radial of the other end and concrete pipe gallery bottom end face is solid Even, it is cast with the first concrete layer on the outside of the list cabin steel pipe corridor bottom, the outside of single cabin steel pipe corridor bottom passes through described the One concrete layer is supported on the first faucet part；The side wall bindiny mechanism includes the second corrugated steel and casts in pipe of concrete Second faucet part of corridor side end face, second faucet part is located at the radially outer of concrete pipe gallery side end face and axis is outside Convex, one end of second corrugated steel and single cabin steel pipe corridor side end face be connected, the other end and concrete pipe gallery side end face Inner radial be connected, be cast with the second concrete layer, two sides of single cabin steel pipe corridor on the outside of the list cabin steel pipe corridor side The outside in portion all passes through second concrete layer and is supported on the second faucet part；The top plate bindiny mechanism includes third ripple Steel plate and the third faucet part for casting in concrete pipe gallery top end surface, the third faucet part are located at concrete pipe gallery top end The radially outer in face and axial evagination, one end of the third corrugated steel and single cabin steel pipe corridor top end surface be connected, the other end It is connected with the inner radial of concrete pipe gallery top end surface, the outside at the top of the list cabin steel pipe corridor is cast with third concrete Layer, the outside at the top of single cabin steel pipe corridor is supported on third faucet part by the third concrete layer.

Further, the 4th concrete layer, the 4th concrete layer are cast on the inside of single cabin steel pipe corridor bottom Upper surface be set as horizontal plane and flushed with the upper base surface of concrete pipe gallery.

Further, first corrugated steel, the second corrugated steel, third corrugated steel both ends all bendings and pass through Bolt is screwed to fix respectively in single cabin steel pipe corridor end face and concrete pipe gallery end face.

Further, the wave height of first corrugated steel, the second corrugated steel and third corrugated steel is smaller than 12.5cm, corrugation pitch are all less than 37.5 cm, and steel plate thickness is all less than 5 cm.

A kind of connection structure of more cabin steel pipes corridor and concrete pipe gallery, by bottom plate bindiny mechanism, side wall bindiny mechanism, interval Wall connection structure and top plate bindiny mechanism composition, each cabin of more cabin steel pipes corridor all use above-mentioned bottom plate bindiny mechanism and top Plate bindiny mechanism connect with concrete pipe gallery, and the left and right sides portion of more cabin steel pipes corridor passes through above-mentioned side wall bindiny mechanism and coagulation Native piping lane connects, and the part between the adjacent cabin of more cabin steel pipes corridor is connect by mid-board connection structure with concrete pipe gallery, The mid-board connection structure includes two respectively to connect the 4th corrugated steel of adjacent compartment body wall, the 4th corrugated steel Be connected more cabin steel pipes corridor end face, the other end of plate one end is connected the mid-board of concrete pipe gallery, the adjacent cabin of more cabin steel pipes corridor it Between be filled with the 5th concrete layer.

Further, the inside of the bottom of each cabin in more cabin steel pipes corridor is all cast with the 4th concrete layer, described The upper surface of 4th concrete layer is set as horizontal plane and flushes with the upper base surface of concrete pipe gallery.

Further, first corrugated steel, the second corrugated steel, third corrugated steel both ends all bendings and pass through Bolt is screwed to fix respectively in more cabin steel pipes corridor end face and concrete pipe gallery end face.

Further, the wave of first corrugated steel, the second corrugated steel, third corrugated steel and the 4th corrugated steel tube Line height is smaller than 12.5cm, and corrugation pitch is all less than 37.5 cm, and steel plate thickness is smaller than 5 cm.

The beneficial effects of the utility model are: the utility model provide it is a kind of for single cabin steel pipe corridor and concrete pipe gallery Connection structure has good compatibility of deformation ability, while can effectively constrain single cabin steel pipe corridor and connect with concrete pipe gallery The displacement deformation at place reduces the influence for ambient enviroment to the full extent, solves existing single cabin steel pipe corridor and concrete The difficult technical problem of piping lane connection；The utility model additionally provides a kind of connection for more cabin steel pipes corridor and concrete pipe gallery Structure has good compatibility of deformation ability, while can effectively constrain more cabin steel pipes corridor and concrete pipe gallery junction Displacement deformation reduces the influence for ambient enviroment to the full extent, solves existing more cabin steel pipes corridor and concrete pipe gallery Connect difficult technical problem.

Detailed description of the invention

Fig. 1 is the overall structure diagram (without concrete pipe gallery) of the utility model；

Fig. 2 is the structural schematic diagram of the side wall bindiny mechanism (Section A-A position) of the utility model；

Fig. 3 is the structural schematic diagram of the bottom plate bindiny mechanism (section B-B position) of the utility model；

Fig. 4 is the structural schematic diagram of the top plate bindiny mechanism (sectional position C-C) of the utility model；

Fig. 5 is the structural schematic diagram of the mid-board bindiny mechanism (sectional position D-D) of the utility model.

Specific embodiment

Referring to figs. 1 to Fig. 4, a kind of single cabin of the utility model and the connection structure of more cabin steel pipes corridor and concrete pipe gallery, It is made of bottom plate bindiny mechanism 1, side wall bindiny mechanism 2 and top plate bindiny mechanism 3；The bottom plate bindiny mechanism 1 includes first wave Line steel plate 11 and the first faucet part 12 for casting in 5 bottom end face of concrete pipe gallery, first faucet part 12 are located at concrete The radially outer of 5 bottom end face of piping lane and axial evagination, 4 bottom end of one end of first corrugated steel 11 and single cabin steel pipe corridor Face is connected, the inner radial of 5 bottom end face of the other end and concrete pipe gallery is connected, and pours on the outside of 4 bottom of list cabin steel pipe corridor It is cast with the first concrete layer 13, the outside of 4 bottom of single cabin steel pipe corridor is supported on the first bellmouth by first concrete layer 13 In portion 12；The side wall bindiny mechanism 2 includes the second corrugated steel 21 and casts in the second of 5 side end face of concrete pipe gallery and hold Oral area 22, second faucet part 22 are located at the radially outer of 5 side end face of concrete pipe gallery and axial evagination, second wave One end of line steel plate 21 and 4 side end face of single cabin steel pipe corridor be connected, the inner radial of 5 side end face of the other end and concrete pipe gallery Be connected, be cast with the second concrete layer 23 on the outside of 4 side of list cabin steel pipe corridor, two sides of single cabin steel pipe corridor 4 it is outer Side all passes through second concrete layer 23 and is supported on the second faucet part 22；The top plate bindiny mechanism 3 includes third ripple Steel plate 31 and the third faucet part 32 for casting in 5 top end surface of concrete pipe gallery, the third faucet part 32 are located at pipe of concrete The radially outer of 5 top end surface of corridor and axial evagination, 4 top end surface of one end of the third corrugated steel 31 and single cabin steel pipe corridor It is connected, the inner radial of 5 top end surface of the other end and concrete pipe gallery is connected, the outside casting at 4 top of list cabin steel pipe corridor There is third concrete layer 33, the outside at 4 top of single cabin steel pipe corridor is supported on third faucet part by the third concrete layer 33 On 32.Here the inner radial of concrete pipe gallery end face, that is, end face inner ring, radially outer, that is, end face outer ring radially divide end face For radially outer and inner radial two parts.In use, passing through wave in the end insertion faucet part of single cabin steel pipe corridor 4 Line steel plate realizes the connection of an end face of single cabin steel pipe corridor 4 and the end face of concrete pipe gallery 5, then in single cabin steel pipe corridor 4 Outer wall casting concrete layer is supported on the outer wall of single cabin steel pipe corridor 4 on faucet part.Faucet part is to radial limit, ripple Steel plate realizes the connection of axial upper steel pipe corridor and concrete pipe gallery, and due to the architectural characteristic of corrugated steel, for the connection of the two Certain compatibility of deformation ability is provided, the stability of whole device is improved.

Further, the 4th concrete layer 14, the 4th concrete are cast on the inside of 4 bottom of single cabin steel pipe corridor The upper surface of layer 14 is set as horizontal plane and flushes with the upper base surface of concrete pipe gallery 5.4th concrete layer 14 reduces The center of gravity of entire steel pipe corridor, further improves whole device structural stability.Horizontal plane facilitates the walking of operator.

As a kind of preferred fixed form of corrugated steel, first corrugated steel 11, the second corrugated steel 21, third It all bendings of the both ends of corrugated steel 31 and is screwed to fix respectively at 4 end face of single cabin steel pipe corridor and 5 end of concrete pipe gallery by bolt Face.

Further, the wave height of first corrugated steel 11, the second corrugated steel 21 and third corrugated steel 31 Smaller than 12.5cm, corrugation pitch are all less than 37.5 cm, and steel plate thickness is all less than 5 cm.This is probed into through overtesting Preferred size out, the corrugated steel compatibility of deformation ability for meeting the requirement of this size are more preferable.

Referring to figs. 1 to Fig. 5, a kind of connection structure of more cabin steel pipes corridor and concrete pipe gallery, by bottom plate bindiny mechanism 1, side Wall bindiny mechanism 2, mid-board connection structure 6 and top plate bindiny mechanism 3 form, and each cabin of more cabin steel pipes corridor 7 all uses The bottom plate bindiny mechanism 1(stated is i.e.: the bottom plate bindiny mechanism 1 includes the first corrugated steel 11 and casts in 5 bottom of concrete pipe gallery First faucet part 12 of end surface, first faucet part 12 are located at the radially outer and axial direction of 5 bottom end face of concrete pipe gallery Evagination, one end of first corrugated steel 11 and 4 bottom end face of single cabin steel pipe corridor be connected, 5 bottom of the other end and concrete pipe gallery The inner radial of end surface is connected, and is cast with the first concrete layer 13, single cabin steel pipe corridor on the outside of 4 bottom of list cabin steel pipe corridor The outside of 4 bottoms is supported on the first faucet part 12 by first concrete layer 13) and top plate bindiny mechanism 3(is i.e.: it is described Top plate bindiny mechanism 3 includes third corrugated steel 31 and the third faucet part 32 for casting in 5 top end surface of concrete pipe gallery, described Third faucet part 32 is located at the radially outer of 5 top end surface of concrete pipe gallery and axial evagination, the third corrugated steel 31 One end and 4 top end surface of single cabin steel pipe corridor are connected, the inner radial of 5 top end surface of the other end and concrete pipe gallery is connected, described The outside at 4 top of single cabin steel pipe corridor is cast with third concrete layer 33, and the outside at 4 top of single cabin steel pipe corridor is mixed by the third Solidifying soil layer 33 is supported on third faucet part 32) it is connect with concrete pipe gallery 5, the left and right sides portion of more cabin steel pipes corridor 7 passes through upper The side wall bindiny mechanism 2(stated is i.e.: the side wall bindiny mechanism 2 includes the second corrugated steel 21 and casts in 5 side of concrete pipe gallery Second faucet part 22 of end surface, second faucet part 22 are located at the radially outer and axial direction of 5 side end face of concrete pipe gallery Evagination, one end of second corrugated steel 21 and 4 side end face of single cabin steel pipe corridor be connected, 5 side of the other end and concrete pipe gallery The inner radial of end surface is connected, and is cast with the second concrete layer 23, single cabin steel pipe corridor on the outside of 4 side of list cabin steel pipe corridor The outside of 4 two sides all passes through second concrete layer 23 and is supported on the second faucet part 22) connect with concrete pipe gallery 5 Connect, the part between the adjacent cabin of more cabin steel pipes corridor 7 is connect by mid-board connection structure 6 with concrete pipe gallery 5, it is described in Partition wall connection structure 6 includes two respectively to connect the 4th corrugated steel 61 of adjacent compartment body wall, the 4th corrugated steel 61 one end be connected 7 end face of more cabin steel pipes corridor, the other end be connected concrete pipe gallery 5 mid-board, the adjacent cabin of more cabin steel pipes corridor 7 Between be filled with the 5th concrete layer 62.In use, more cabin steel pipes corridor 7 is inserted into faucet part, steel pipe is realized by corrugated steel The 5th concrete layer 62 is filled in the connection of corridor and concrete pipe gallery between the adjacent cabin of more cabin steel pipes corridor 7.Faucet part and Limit of five concrete layers 62 to radial direction, the connection of corrugated steel realization axial upper steel pipe corridor and concrete pipe gallery, and due to The architectural characteristic of corrugated steel, the connection for the two provide certain compatibility of deformation ability, improve the stability of whole device.

Further, the inside of the bottom of each cabin in more cabin steel pipes corridor 7 is all cast with the 4th concrete layer 14, institute The upper surface for stating the 4th concrete layer 14 is set as horizontal plane and flushes with the upper base surface of concrete pipe gallery 5.4th coagulation Soil layer 14 reduces the center of gravity of entire steel pipe corridor, further improves whole device structural stability.Horizontal plane facilitates operator The walking of member.

As a kind of preferred fixed form of corrugated steel, first corrugated steel 11, the second corrugated steel 21, third It all bendings of the both ends of corrugated steel 31 and is screwed to fix respectively at 7 end face of more cabin steel pipes corridor and 5 end of concrete pipe gallery by bolt Face.

Further, first corrugated steel 11, the second corrugated steel 21, third corrugated steel 31 and the 4th corrugated steel The wave height of pipe is smaller than 12.5cm, and corrugation pitch is all less than 37.5 cm, and steel plate thickness is smaller than 5 cm.This be by The preferred size obtained is probed into test, and the corrugated steel compatibility of deformation ability for meeting the requirement of this size is more preferable.

The above specific structure and dimension data are illustrated to the preferred embodiment of the utility model, but this reality It is not limited to the specific embodiments with novel creation, those skilled in the art are in the premise without prejudice to the spirit of the present invention Various equivalent deformation or replacement can be also made down, these equivalent deformations or replacement are all contained in the claim of this application and are limited In fixed range.

Claims (8)

1. a kind of connection structure of list cabin steel pipe corridor and concrete pipe gallery, it is characterised in that: by bottom plate bindiny mechanism (1), side wall Bindiny mechanism (2) and top plate bindiny mechanism (3) composition；

The bottom plate bindiny mechanism (1) includes the first corrugated steel (11) and casts in the of concrete pipe gallery (5) bottom end face One faucet part (12), first faucet part (12) are located at the radially outer of concrete pipe gallery (5) bottom end face and axial evagination, One end of first corrugated steel (11) and single cabin steel pipe corridor (4) bottom end face be connected, the other end and concrete pipe gallery (5) bottom The inner radial of end surface is connected, and is cast with the first concrete layer (13) on the outside of described list cabin steel pipe corridor (4) bottom, single cabin steel The outside of piping lane (4) bottom is supported on the first faucet part (12) by first concrete layer (13)；

The side wall bindiny mechanism (2) includes the second corrugated steel (21) and casts in the of concrete pipe gallery (5) side end face Two faucet parts (22), second faucet part (22) are located at the radially outer of concrete pipe gallery (5) side end face and axial evagination, One end of second corrugated steel (21) and single cabin steel pipe corridor (4) side end face be connected, the other end and concrete pipe gallery (5) side The inner radial of end surface is connected, and is cast with the second concrete layer (23) on the outside of described list cabin steel pipe corridor (4) side, single cabin steel The outside of two sides of piping lane (4) all passes through second concrete layer (23) and is supported on the second faucet part (22)；

The top plate bindiny mechanism (3) includes third corrugated steel (31) and casts in the of concrete pipe gallery (5) top end surface Three faucet parts (32), the third faucet part (32) are located at the radially outer of concrete pipe gallery (5) top end surface and axial evagination, One end of the third corrugated steel (31) and single cabin steel pipe corridor (4) top end surface are connected, the other end and concrete pipe gallery (5) push up The inner radial of end surface is connected, and the outside at the top of the list cabin steel pipe corridor (4) is cast with third concrete layer (33), single cabin steel Outside at the top of piping lane (4) is supported on third faucet part (32) by the third concrete layer (33).

2. the connection structure of a kind of single cabin steel pipe corridor and concrete pipe gallery according to claim 1, it is characterised in that: described The 4th concrete layer (14) is cast on the inside of single cabin steel pipe corridor (4) bottom, the upper surface of the 4th concrete layer (14) is set It is set to horizontal plane and is flushed with the upper base surface of concrete pipe gallery (5).

3. the connection structure of a kind of single cabin steel pipe corridor and concrete pipe gallery according to claim 2, it is characterised in that: described First corrugated steel (11), the second corrugated steel (21), third corrugated steel (31) both ends all bendings and pass through bolt distinguish It is screwed to fix in single cabin steel pipe corridor (4) end face and concrete pipe gallery (5) end face.

4. the connection structure of a kind of single cabin steel pipe corridor and concrete pipe gallery according to claim 3, it is characterised in that: described The wave height of first corrugated steel (11), the second corrugated steel (21) and third corrugated steel (31) is smaller than 12.5cm, wave It is peak-to-peak away from being all less than 37.5 cm, steel plate thickness is all less than 5 cm.

5. a kind of connection structure of more cabin steel pipes corridor and concrete pipe gallery, it is characterised in that: by bottom plate bindiny mechanism (1), side wall Bindiny mechanism (2), mid-board connection structure (6) and top plate bindiny mechanism (3) composition, each cabin of more cabin steel pipes corridor (7) is all It is connect using bottom plate bindiny mechanism (1) as described in claim 1 and top plate bindiny mechanism (3) with concrete pipe gallery (5), more cabins The left and right sides portion of steel pipe corridor (7) is connect by side wall bindiny mechanism (2) described in claim 1 with concrete pipe gallery (5), more Part between the adjacent cabin of cabin steel pipe corridor (7) is connect by mid-board connection structure (6) with concrete pipe gallery (5), described Mid-board connection structure (6) includes two respectively to connect the 4th corrugated steel (61) of adjacent compartment body wall, the 4th wave Line steel plate (61) one end be connected more cabin steel pipes corridor (7) end face, the other end be connected concrete pipe gallery (5) mid-board, more cabin steel pipes The 5th concrete layer (62) is filled between the adjacent cabin of corridor (7).

6. the connection structure of a kind of more cabin steel pipes corridor and concrete pipe gallery according to claim 5, it is characterised in that: described The inside of the bottom of more cabin steel pipes corridor (7) each cabin is all cast with the 4th concrete layer (14), the 4th concrete layer (14) upper surface is set as horizontal plane and flushes with the upper base surface of concrete pipe gallery (5).

7. the connection structure of a kind of more cabin steel pipes corridor and concrete pipe gallery according to claim 6, it is characterised in that: described First corrugated steel (11), the second corrugated steel (21), third corrugated steel (31) both ends all bendings and pass through bolt distinguish It is screwed to fix in more cabin steel pipes corridor (7) end face and concrete pipe gallery (5) end face.

8. the connection structure of a kind of more cabin steel pipes corridor and concrete pipe gallery according to claim 7, it is characterised in that: described First corrugated steel (11), the second corrugated steel (21), third corrugated steel (31) and the 4th corrugated steel tube wave height all Less than 12.5cm, corrugation pitch is all less than 37.5 cm, and steel plate thickness is smaller than 5 cm.