CN113833028A

CN113833028A - A concatenation type wiring wall body for borehole operation

Info

Publication number: CN113833028A
Application number: CN202111203934.1A
Authority: CN
Inventors: 董成龙
Original assignee: Hangzhou Jinmeng Road Facility Co ltd
Current assignee: Hangzhou Jinmeng Road Facility Co ltd
Priority date: 2021-10-15
Filing date: 2021-10-15
Publication date: 2021-12-24
Anticipated expiration: 2041-10-15
Also published as: CN113833028B

Abstract

A spliced wiring wall body for underground operation comprises a base and a wall body assembly positioned on the base, wherein the wall body assembly is formed by stacking at least one layer of frame-shaped structure, and the frame-shaped structure is formed by splicing a plurality of wallboards; the outer wall of the wallboard is provided with a sleeve communicated with the interior of the frame structure, and the sleeve is provided with a first sealing cover or a matching seat; arc grooves are formed in two sides of each wall plate, the arc grooves of adjacent wall plates are communicated, and second sealing covers are arranged on the arc grooves; compared with the prior art, form the wall body subassembly that selects through the concatenation of polylith wallboard, can set up required wall body subassembly's height according to actual need, and set up reserve cable and terminal box in the wallboard for after original circuit goes wrong, can in time maintain the circuit, be formed with wiring passageway and reserve passageway on the wallboard simultaneously, can set up the position of protecting a line section of thick bamboo according to actual need, have better individualized setting.

Description

A concatenation type wiring wall body for borehole operation

Technical Field

The invention belongs to the technical field of spliced wallboards, and particularly relates to a spliced wiring wall body for underground operation.

Background

In the inside pipeline in the well lid, when needs set up the wallboard to the pipeline outside, because the size of pipeline is each different, in prior art, need carry out individualized individual design to the wallboard according to the size of pipeline usually, waste time and energy, and the cost is higher.

And various circuits are usually buried underground, when the underground circuits need to be maintained or repaired, a specific support is usually required to be erected, so that the operation of operators is facilitated, and meanwhile, due to the fact that the underground circuits are dark and moist, the underground circuits are in the environment for a long time, the circuits can be corroded, and certain potential safety hazards exist.

Disclosure of Invention

The invention aims to overcome the defects in the prior art and provides the splicing type wiring wall body which is simple in structure, safe and reliable and can be customized for underground operation.

In order to achieve the above purposes, the technical scheme adopted by the invention is as follows: a spliced wiring wall body for underground operation comprises a base and a wall body assembly positioned on the base, wherein the wall body assembly is formed by stacking at least one layer of frame-shaped structure, and the frame-shaped structure is formed by splicing a plurality of wallboards; the outer wall of the wallboard is provided with a sleeve communicated with the interior of the frame structure, and the sleeve is provided with a first sealing cover or a matching seat; arc grooves are formed in two sides of each wall plate, the arc grooves of adjacent wall plates are communicated, and second sealing covers are arranged on the arc grooves; the wire protecting cylinder is arranged in the frame-shaped structure, two ends of the wire protecting cylinder are communicated with the matching seat, the wire protecting cylinder is composed of an upper cover and a lower cover which are detachably connected, and a wire inlet groove is formed in the upper cover; a plurality of mounting grooves are formed in the inner wall of the wall plate, brackets are arranged on the mounting grooves, cables or clamps are placed on the brackets, junction boxes are arranged in the clamps, and the cables are communicated with the wire inlet grooves; the two sides of the wall board are respectively provided with a convex rib and a groove which are matched with each other, and the upper end and the lower end of the wall board are respectively provided with a first matching groove and a second matching groove which are matched with each other; the wallboard both sides still are formed with the lug, and the lug of adjacent wallboard contacts, and adjacent lug overcoat has the buckle of looks adaptation.

As a preferable scheme of the invention, the two sides of the wallboard are inclined structures, the ribs and the grooves are positioned on the inclined structures, and the lengths of the ribs and the grooves are consistent with the length of the inclined structures.

In a preferred embodiment of the present invention, the sleeves are horizontally disposed and extend outwardly along the outer wall of the wall panel, and the sleeve array is arranged on the wall panel.

As a preferred scheme of the invention, the matching seat comprises a plastic sleeve and a rubber sleeve which are matched, the plastic sleeve and the rubber sleeve are both of annular structures, the plastic sleeve is connected in the sleeve in an interference fit manner, the rubber sleeve is connected in the plastic sleeve in an interference fit manner, and the cable penetrates through the rubber sleeve.

As a preferable scheme of the invention, the first matching grooves are positioned at the inner side and the outer side of the top of the wall board, the second matching grooves are positioned in the middle of the bottom of the wall board, the sizes of the first matching grooves and the second matching grooves are consistent with the horizontal section size of the wall board, and the base is provided with the positioning bulges matched with the second matching grooves.

As a preferable scheme of the present invention, a positioning element is arranged in the mounting groove, a threaded hole is formed in the positioning element, a screw connected with the threaded hole is arranged on the bracket, the bracket is of a horizontal support plate structure, and an upward bent folded edge is formed at an end of the bracket.

In a preferred embodiment of the present invention, a first engaging block and a first engaging seat are respectively formed on both sides of the lower cover, a second engaging block and a second engaging seat are respectively formed on both sides of the upper cover, the first engaging seat has a U-shaped structure with an upward opening, the second engaging seat has a U-shaped structure with a downward opening, the first engaging block is embedded in the second engaging seat, and the second engaging block is embedded in the first engaging seat.

As a preferred scheme of the invention, the protrusion is of a trapezoidal structure, one side of the protrusion is flush with the wall plate, the other side of the protrusion is of an inclined structure, the size of the protrusion is gradually increased from top to bottom, a gap is formed between the inclined side of the protrusion and the outer wall of the wall plate, the buckle is of a U-shaped structure, and two sides of the U-shaped structure of the buckle are provided with folded edges which are bent inwards.

As a preferable scheme of the invention, the circular arc groove is positioned at the bottom of the wall plate.

As a preferable scheme of the invention, a binding belt is bound on the cable, and a rubber plug matched with the cable inlet groove of the upper cover is arranged on the cable inlet groove of the upper cover.

Compared with the prior art, the invention has the beneficial effects that: form the wall body subassembly that selects through the concatenation of polylith wallboard, can set up required wall body subassembly's height according to actual need, and set up reserve cable and terminal box in the wallboard, make original circuit go wrong after, can in time maintain the circuit, support in the wallboard can set up according to actual need, thereby adjust the position of reserve cable and terminal box, be formed with wiring passageway and reserve passageway on the wallboard simultaneously, can set up the position of a line protection section of thick bamboo according to actual need, better individualized setting has.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is an internal schematic view of the present invention;

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

FIG. 4 is an enlarged view of a portion of FIG. 2 at B;

FIG. 5 is a schematic view of the junction box being connected to a bracket;

FIG. 6 is a schematic structural view of a wall panel;

FIG. 7 is a schematic structural view of a stent;

FIG. 8 is a schematic view of the splicing of adjacent wall panels;

FIG. 9 is a schematic structural view of a wire protecting cylinder;

FIG. 10 is a top view of the wire protecting barrel;

FIG. 11 is a schematic view of the rubber stopper;

FIG. 12 is a schematic view of the structure of the buckle;

reference numbers in the figures: the wire protection device comprises a base 1, a positioning bulge 1-1, a wall body component 2, a frame-shaped structure 3, a wire protection barrel 4, an upper cover 4-1, a lower cover 4-2, a wire inlet groove 4-3, a first matching block 4-4, a first matching seat 4-5, a second matching block 4-6, a second matching seat 4-7, a cable 5, a junction box 6, a wall plate 7, a sleeve 7-1, an arc groove 7-2, an installation groove 7-3, a first matching groove 7-4, a second matching groove 7-5, a groove 7-6, a convex rib 7-7, a positioning piece 7-8, a first sealing cover 7-9, a plastic sleeve 7-10, a rubber sleeve 7-11, a second sealing cover 7-12, a convex block 7-13, a support 8, a screw 8-1, a binding belt 9, a clamp 10 and a rubber plug 12, a buckle 13 and a folding edge 13-1.

Detailed Description

The following describes embodiments of the present invention in detail with reference to the accompanying drawings.

As shown in fig. 1-12, a spliced wiring wall 7 for downhole operation comprises a base 1 and a wall assembly 2 positioned on the base 1, wherein the wall assembly 2 is formed by stacking at least one layer of frame-shaped structures 3, and the frame-shaped structures 3 are formed by splicing a plurality of wall plates 7; a sleeve 7-1 communicated with the interior of the frame structure 3 is arranged on the outer wall of the wallboard 7, and a first sealing cover 7-9 or a matching seat is arranged on the sleeve 7-1; arc grooves 7-2 are formed in two sides of each wall plate 7, the arc grooves 7-2 of the adjacent wall plates 7 are communicated, and second sealing covers 7-12 are arranged on the arc grooves 7-2; a wire protecting cylinder 4 is arranged in the frame-shaped structure 3, two ends of the wire protecting cylinder 4 are communicated with a matching seat, the wire protecting cylinder 4 consists of an upper cover 4-1 and a lower cover 4-2 which are detachably connected, and a wire inlet groove 4-3 is formed on the upper cover 4-1; a plurality of mounting grooves 7-3 are formed in the inner wall of the wall plate 7, a support 8 is arranged on the mounting grooves 7-3, a cable 5 or a clamp 10 is placed on the support 8, a junction box 6 is arranged in the clamp 10, and the cable 5 is communicated with the wire inlet grooves 4-3; the two sides of the wall plate 7 are respectively provided with a convex rib 7-7 and a groove 7-6 which are matched with each other, and the upper end and the lower end of the wall plate 7 are respectively provided with a first matching groove 7-4 and a second matching groove 7-5 which are matched with each other; bumps 7-13 are formed on two sides of each wall plate 7, the bumps 7-13 of adjacent wall plates 7 are in contact, and the buckles 13 matched with the bumps 7-13 are sleeved outside the adjacent bumps 7-13.

The number of layers of frame type structure 3 piles up the setting according to actual need, and frame type structure 3's structure can set up according to actual need, for example: rectangular or circular or polygonal.

The number of wall panels 7 is set according to the actual need, the required frame structure 3 is enclosed by the number and structure of wall panels 7, for example: when the frame structure 3 is circular, the wall plate 7 is of an arc-shaped structure, and when the frame structure 3 is rectangular or polygonal, the wall plate 7 is of a rectangular structure.

The sleeves 7-1 are arranged in an array mode on the wall boards 7, matching seats are arranged in the sleeves 7-1 used for connecting the cables 5, the sleeves 7-1 which are not connected with the cables 5 are provided with first sealing covers 7-9, the arc grooves 7-2 are of semi-arc structures, the arc grooves 7-2 of the adjacent wall boards 7 are spliced to form a whole circle, and the side walls of the integral wall body assembly 2 form sealing structures under the action of the first sealing covers 7-9 and the second sealing covers 7-12.

The two sides of the wall plate 7 are of inclined structures, the convex ribs 7-7 and the grooves 7-6 are located on the inclined structures, the lengths of the convex ribs 7-7 and the grooves 7-6 are consistent with the length of the inclined structures, the inclination angles of the inclined structures on the two sides of the wall plate 7 are set according to actual needs, the inclination angles of the wall plate 7 are set according to the number of the wall plates 7 of a single frame type structure 3, and the inclination angles are 180 degrees divided by the number of the wall plates 7.

The convex ribs 7-7 and the grooves 7-6 on the adjacent wall plates 7 are matched, under the action of the convex ribs 7-7 and the grooves 7-6, the positioning between the adjacent wall plates 7 is realized, meanwhile, the second sealing covers 7-12 can also perform limiting supporting action on the adjacent wall plates 7, and the second sealing covers 7-12 can also be used as drainage channels according to actual requirements.

The sleeves 7-1 are horizontally arranged, the sleeves 7-1 extend outwards along the outer wall of the wall plate 7, the sleeves 7-1 are arranged on the wall plate 7 in an array mode, in the installation process of the wall plate 7, the sleeves 7-1 can also serve as certain supporting points to facilitate supporting of feet or hands of operators, each sleeve 7-1 can serve as a wiring channel, selection can be carried out according to actual needs, and the other sleeves 7-1 can serve as spare wiring channels.

The matching seat comprises plastic sleeves 7-10 and rubber sleeves 7-11 which are matched, the plastic sleeves 7-10 and the rubber sleeves 7-11 are of annular structures, the plastic sleeves 7-10 are connected in the sleeve 7-1 in an interference fit mode, the rubber sleeves 7-11 are connected in the plastic sleeves 7-10 in an interference fit mode, the cable 5 penetrates through the rubber sleeves 7-11, the cable 5 has better support under the effects of the plastic sleeves 7-10 and the rubber sleeves 7-11, and meanwhile, the matching seat has a certain buffering and damping effect and better stability.

The first matching grooves 7-4 are located on the inner side and the outer side of the top of the wall plate 7, the second matching grooves 7-5 are located in the middle of the bottom of the wall plate 7, the size of the first matching grooves 7-4 and the size of the second matching grooves 7-5 are consistent with the size of the horizontal section of the wall plate 7, and the base 1 is provided with the positioning protrusions 1-1 matched with the second matching grooves 7-5.

The wall plate 7 forms a protruding structure under the action of the first matching groove 7-4, the top of the wall plate 7 at the lower part is embedded in the second matching groove 7-5 of the wall plate 7 at the upper part, so that stable connection between the wall plate 7 at the lower part and the wall plate 7 at the upper part can be realized, and the positioning protrusion 1-1 on the bottom plate 1 is embedded in the second matching groove 7-5 of the wall plate 7 at the lowest part, so that stable connection between the wall plate 7 at the lowest part and the bottom plate 1 is realized.

A positioning piece 7-8 is arranged in the mounting groove 7-3, a threaded hole is formed in the positioning piece 7-8, a screw 8-1 connected with the threaded hole is arranged on the support 8, the support 8 is of a horizontal support plate structure, and an upward bent folded edge is formed at the end part of the support 8.

The positioning pieces 7-8 are embedded pieces, the positioning pieces are embedded in the inner wall of the wall board 7, the supports 8 can be arranged on the mounting grooves 7-3 according to actual needs, the supports 8 support and position the cables 5, the cables 5 are bound with the binding belts 9 to ensure the stability of the cables 5, the cables 5 are standby cables, and when the cables in the cable protection barrel 4 are damaged, the cables in the cable protection barrel 4 can be timely maintained through the cables 5 on the supports 8.

Meanwhile, the bracket 8 can be used for supporting the junction box 6, the junction box is one of electrical accessories, wires required by the cable 5 penetrate through a wire tube, the junction part of the wires (such as a longer line or a corner of the wire tube) is used for transition by the junction box 6, the wire tube is connected with the junction box 6, the wires in the wire tube are connected in the junction box 6 to play a role in protecting the wires and connecting the wires, and the bracket 8 is used for arranging and supporting the position of the junction box 6 according to requirements.

A first matching block 4-4 and a first matching seat 4-5 are respectively formed on two sides of the lower cover 4-2, a second matching block 4-6 and a second matching seat 4-7 are respectively formed on two sides of the upper cover 4-1, the first matching seat 4-5 is of a U-shaped structure with an upward opening, the second matching seat 4-7 is of a U-shaped structure with a downward opening, the first matching block 4-4 is embedded in the second matching seat 4-7, and the second matching block 4-6 is embedded in the first matching seat 4-5.

The first matching block 4-4 is fixedly connected with the second matching seat 4-7 through a bolt, the second matching block 4-6 is fixedly connected with the first matching seat 4-5 through a bolt, the upper cover 4-1 is detachably connected with the lower cover 4-2 under the action of the bolt, and meanwhile, a U-shaped structure is arranged on one side of the upper cover 4-1 and one side of the lower cover 4-2, so that the whole body is more stable.

The lug 7-13 is in a trapezoidal structure, one side of the lug 7-13 is flush with the wall plate 7, the other side of the lug 7-13 is in an inclined structure, the size of the lug 7-13 is gradually increased from top to bottom, a gap is formed between the inclined side of the lug 7-13 and the outer wall of the wall plate 7, the buckle 13 is in a U-shaped structure, and two sides of the U-shaped structure of the buckle 13 are provided with folded edges 13-1 which are bent inwards.

The reinforcing ribs connected with the bottoms of the convex blocks 7-13 are formed on the wall plate 7 and horizontally arranged, the buckles 13 are matched with the two convex blocks 7-13 on the adjacent wall plate 7 simultaneously, and when the buckles 13 move to the bottoms of the convex blocks 7-13, the bottoms of the buckles 13 are abutted against the reinforcing ribs, so that the buckles 13 are positioned, the splicing of the buckles 13 is ensured to be carried out only from the lower ends, namely the upper ends, of the convex blocks 7-13, and the whole body has better stability.

The arc groove 7-2 is located at the bottom of the wallboard 7, and the arrangement of the second sealing cover 7-12 in the arc groove 7-2 limits the vertical direction of the adjacent wallboard 7, so that the contact area between the adjacent wallboards 7 is indirectly increased while the stability between the adjacent wallboards 7 is ensured, and the better stability is achieved between the adjacent wallboards 7.

The wire inlet groove 4-3 of the upper cover 4-1 is provided with the rubber plug 12 which is matched with the wire inlet groove 4-3, and after the wiring of the cable 5 is finished, the wire inlet groove 4-3 is plugged by the rubber plug 12, so that the wire protecting cylinder 4 is arranged in a sealing mode, and the interference of foreign objects on the cable 5 is reduced.

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.

Although the reference numerals in the figures are used more here: the wire protection device comprises a base 1, a positioning bulge 1-1, a wall body component 2, a frame-shaped structure 3, a wire protection barrel 4, an upper cover 4-1, a lower cover 4-2, a wire inlet groove 4-3, a first matching block 4-4, a first matching seat 4-5, a second matching block 4-6, a second matching seat 4-7, a cable 5, a junction box 6, a wall plate 7, a sleeve 7-1, an arc groove 7-2, an installation groove 7-3, a first matching groove 7-4, a second matching groove 7-5, a groove 7-6, a convex rib 7-7, a positioning piece 7-8, a first sealing cover 7-9, a plastic sleeve 7-10, a rubber sleeve 7-11, a second sealing cover 7-12, a convex block 7-13, a support 8, a screw 8-1, a binding belt 9, a clamp 10 and a rubber plug 12, snap 13, flap 13-1, etc., but does not exclude the possibility of using other terms; these terms are used merely to more conveniently describe and explain the nature of the present invention; they are to be construed as being without limitation to any additional limitations that may be imposed by the spirit of the present invention.

Claims

1. A spliced wiring wall body for underground operation comprises a base (1) and a wall body assembly (2) positioned on the base (1), and is characterized in that the wall body assembly (2) is formed by stacking at least one layer of frame-shaped structures (3), and the frame-shaped structures (3) are formed by splicing a plurality of wall boards (7); a sleeve (7-1) communicated with the interior of the frame-shaped structure (3) is arranged on the outer wall of the wallboard (7), and a first sealing cover (7-9) or a matching seat is arranged on the sleeve (7-1); arc grooves (7-2) are formed in two sides of each wallboard (7), the arc grooves (7-2) of the adjacent wallboards (7) are communicated, and second sealing covers (7-12) are arranged on the arc grooves (7-2); a wire protecting cylinder (4) is arranged in the frame-shaped structure (3), two ends of the wire protecting cylinder (4) are communicated with the matching seat, the wire protecting cylinder (4) consists of an upper cover (4-1) and a lower cover (4-2) which are detachably connected, and a wire inlet groove (4-3) is formed in the upper cover (4-1); a plurality of mounting grooves (7-3) are formed in the inner wall of the wall plate (7), a support (8) is arranged on each mounting groove (7-3), a cable (5) or a hoop (10) is placed on each support (8), a junction box (6) is arranged in each hoop (10), and each cable (5) is communicated with each wire inlet groove (4-3); the two sides of the wallboard (7) are respectively provided with a convex rib (7-7) and a groove (7-6) which are matched with each other, and the upper end and the lower end of the wallboard (7) are respectively provided with a first matching groove (7-4) and a second matching groove (7-5) which are matched with each other; bumps (7-13) are formed on two sides of each wall plate (7), the bumps (7-13) of adjacent wall plates (7) are in contact, and the adjacent bumps (7-13) are externally sleeved with matched buckles (13).

2. The splicing type wiring wall body for downhole operation according to claim 1, wherein the wall plate (7) is provided with inclined structures at both sides, the ribs (7-7) and the grooves (7-6) are positioned on the inclined structures, and the lengths of the ribs (7-7) and the grooves (7-6) are consistent with the length of the inclined structures.

3. The splicing type wiring wall body for downhole operation according to claim 1, wherein the sleeves (7-1) are horizontally arranged, the sleeves (7-1) extend outwards along the outer wall of the wall plate (7), and the sleeves (7-1) are arranged in an array on the wall plate (7).

4. The splicing type wiring wall body for downhole operation according to claim 1, wherein the matching seat comprises a plastic sleeve (7-10) and a rubber sleeve (7-11) which are matched with each other, the plastic sleeve (7-10) and the rubber sleeve (7-11) are both in an annular structure, the plastic sleeve (7-10) is connected in the sleeve (7-1) in an interference fit manner, the rubber sleeve (7-11) is connected in the plastic sleeve (7-10) in an interference fit manner, and the cable (5) penetrates through the rubber sleeve (7-11).

5. The splicing type wiring wall body for downhole operation according to claim 1, wherein the first matching grooves (7-4) are positioned at the inner side and the outer side of the top of the wall plate (7), the second matching grooves (7-5) are positioned in the middle of the bottom of the wall plate (7), the sizes of the first matching grooves (7-4) and the second matching grooves (7-5) are consistent with the horizontal cross-sectional size of the wall plate (7), and the base (1) is provided with positioning protrusions (1-1) matched with the second matching grooves (7-5).

6. The splicing type wiring wall body for downhole operation according to claim 1, wherein a positioning member (7-8) is arranged in the mounting groove (7-3), a threaded hole is formed in the positioning member (7-8), a screw (8-1) connected with the threaded hole is arranged on the bracket (8), the bracket (8) is of a horizontal support plate structure, and an upward bent folded edge is formed at the end of the bracket (8).

7. The splicing type wiring wall body for downhole operation according to claim 1, wherein a first mating block (4-4) and a first mating seat (4-5) are respectively formed on two sides of the lower cover (4-2), a second mating block (4-6) and a second mating seat (4-7) are respectively formed on two sides of the upper cover (4-1), the first mating seat (4-5) is a U-shaped structure with an upward opening, the second mating seat (4-7) is a U-shaped structure with a downward opening, the first mating block (4-4) is embedded in the second mating seat (4-7), and the second mating block (4-6) is embedded in the first mating seat (4-5).

8. The splicing type wiring wall body for underground operation according to claim 1, wherein the projection (7-13) is of a trapezoidal structure, one side of the projection (7-13) is flush with the wall plate (7), the other side of the projection (7-13) is of an inclined structure, the size of the projection (7-13) is gradually increased from top to bottom, a gap is formed between the inclined side of the projection (7-13) and the outer wall of the wall plate (7), the buckle (13) is of a U-shaped structure, and two sides of the U-shaped structure of the buckle (13) are provided with folded edges (13-1) which are bent inwards.

9. Spliced-type wiring wall for downhole operations according to claim 1, characterized in that the circular arc groove (7-2) is located at the bottom of the wall plate (7).

10. The splicing type wiring wall body for downhole operation according to claim 1, characterized in that the cable (5) is bound with a binding belt (9), and the wire inlet groove (4-3) of the upper cover (4-1) is provided with an adaptive rubber plug (12).