CN216740705U - Vertical comprehensive support structure in building pipe well - Google Patents

Abstract

The utility model relates to a vertical integrated support structure in building tube well for to sleeve pipe location, including the support body, install on the support body and the slide bar assembly of support body activity relatively and set up the installed part on slide bar assembly to fix the sleeve pipe on slide bar assembly through the installed part, the opposite side of support body all is equipped with a plurality of spouts, and each spout lower extreme is equipped with a plurality of scale grooves equidistantly, and each spout link up each other rather than a plurality of scale grooves of lower extreme correspondence ground, so that slide bar assembly slides to the scale inslot that corresponds along the spout. The utility model discloses vertical integrated support structure easy dismounting is swift in the building tube well, and repeatedly usable, can improve supporting structure's stability, slides along the spout that corresponds in the support body through the slide bar assembly for the slide bar assembly slides to the scale inslot that corresponds, thereby makes the sleeve pipe accurate correspondence from top to bottom with accurate position sleeve's position, avoids because the rework that the sleeve pipe positional deviation caused the construction difficulty and lead to.

Description

Vertical comprehensive support structure in building pipe well

Technical Field

The utility model relates to a building structure especially relates to a vertical integrated support structure in building tubular well.

Background

At present, in the building construction, among the sleeve pipe work progress in the tube well, generally divide into several steps: firstly, a sleeve mould is reserved in the structural construction process; secondly, taking out the sleeve mould after the concrete is initially set to form a reserved hole; finally, the hole is trimmed and the sleeve is installed. The traditional construction method for reserving the holes in the pipeline comprises the following steps:

the method for making holes in the wooden template box comprises the following steps: the patent of the prior publication No. CN107829750B, a structure and a method for simultaneously constructing a rail top air duct and an interval shield, namely, in the floor construction process, a square mould is nailed by a wooden template at a place where a hole needs to be reserved, a hole opening is reserved, and the concrete is removed until the concrete completely reaches the strength, so that the defects that the processing, the installation and the removal of a mould box are time-consuming and can not be repeatedly utilized are overcome;

the sleeve direct-buried method includes: the patent of the publication No. CN102213006B at present, the UPVC sleeve direct-burying method, that is, directly burying the sleeve pipe to the position at one time at the place where the vertical pipe passes through the floor slab, has the disadvantages that the sleeve pipe pre-burying precision is difficult to control, it is suitable for causing the pipelines and the sleeve pipes to be non-concentric, and the construction quality of the project is reduced and economic loss is generated when the error is corrected;

the post-construction method is that the construction process of the floor slab is not reserved, and the mechanical punching is temporarily carried out on the floor slab at a required place during the installation of the pipeline, so that the defect that the mechanical punching possibly causes great damage to the structure, the pre-buried line pipe and the like is overcome.

In view of the above, there is a need for improvement in this technology.

Disclosure of Invention

The utility model provides a vertical integrated support structure in building tubular well to improve the sleeve pipe installation agility, and to convenient fixed, the accurate positioning of sleeve pipe.

In order to achieve the above purpose, the technical scheme of the utility model is that: the utility model provides a vertical integrated support structure in building tube well for to sleeve pipe location, include the support body, install on the support body and the slide bar subassembly that can support body activity relatively and set up the installed part on the slide bar subassembly to fix the sleeve pipe on the slide bar subassembly through the installed part, the opposite side of support body all is equipped with a plurality of spouts, is equipped with a plurality of scale grooves at each spout lower extreme equidistant, and each spout link up each other with a plurality of scale grooves rather than lower extreme correspondence ground, so that slide bar subassembly slides to the scale inslot that corresponds along the spout.

As a further improvement, the frame body comprises two groups of steel plate assemblies, wherein one group of steel plate assemblies comprises two parallel horizontal steel plates, the other group of steel plate assemblies comprises two parallel vertical steel plates, and two ends of the two horizontal steel plates are correspondingly connected with the two vertical steel plates to form the frame body.

As a further improvement, the mounting piece comprises a pipe hoop and a fastener for fastening the pipe hoop, wherein the two ends of the pipe hoop are provided with through holes for the sliding rod assemblies to pass through the through holes at the two ends of the pipe hoop, and the pipe hoop is fastened on the sliding rod assemblies through the fastener.

As a further improvement, the sliding rod assembly comprises horizontal sliding rods, the sliding grooves are oppositely arranged on each vertical steel plate, the horizontal sliding rods are arranged in a group of sliding grooves correspondingly between the two vertical steel plates, and the horizontal sliding rods can slide to the scale grooves along the corresponding sliding grooves in the vertical steel plates.

As a further improvement, the pipe clamp is of a U-shaped structure, and comprises an arc-shaped section clamping wall and connecting walls correspondingly formed at two ends of the arc-shaped section clamping wall, wherein each connecting wall is provided with the through hole for the sliding rod assembly to pass through, so that a fastening cavity is formed between the arc-shaped section clamping wall of the pipe clamp and the two connecting walls for fastening the sleeve.

As a further improvement, two ends of the horizontal sliding rod are provided with horizontal positioning sleeves.

As a further improvement, the sliding rod assembly further comprises a vertical sliding rod, the vertical sliding rod is arranged in a group of sliding grooves correspondingly between the two horizontal steel plates, and the vertical sliding rod can slide along the sliding grooves and slide into the corresponding scale grooves.

As a further improvement, two ends of the vertical sliding rod are provided with vertical positioning sleeves.

As a further improvement, the vertical sliding rod and the horizontal sliding rod are both screws.

As a further improvement, the horizontal positioning sleeve and the vertical positioning sleeve both adopt positioning nuts meshed with the screw rod.

The above technical scheme of the utility model following beneficial effect has: the utility model discloses vertical integrated support structure passes through the fastener and fixes the sleeve pipe on slide bar assembly in the building tube well, and slide bar assembly passes through set nut and sets up in the spout that corresponds in the support body, in order to improve support structure's stability, and this support structure easy dismounting is swift, but reuse, slide bar assembly slides along the spout that corresponds in the support body, make slide bar assembly slide to the scale inslot that corresponds, with accurate position sleeve's position, make the sleeve pipe accurate correspondence from top to bottom, thereby avoid because the rework that the sleeve pipe positional deviation caused the construction difficulty and lead to.

Drawings

FIG. 1 is a schematic view of the vertical integrated support structure in the building pipe shaft of the present invention;

FIG. 2 is a top view of the vertical integrated support structure in the building pipe well of the present invention;

FIG. 3 is a schematic structural view of a vertical steel plate 12 in the vertical integrated bracket structure in the building pipe shaft of the present invention;

fig. 4 is the utility model discloses the structure schematic diagram of ferrule 31 among the vertical comprehensive support structure in the building tube well.

Detailed Description

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

Referring to fig. 1 to 4, the vertical integrated supporting structure for a building tubular well of the present invention is used to quickly fix and accurately position a casing 40, and specifically includes a frame body 10, a sliding rod assembly 20 mounted on the frame body 10 and movable relative to the frame body 10, and a mounting member 30 disposed on the sliding rod assembly 20, so as to fix the casing 40 on the sliding rod assembly 20 through the mounting member 30.

Referring to fig. 1 to 2, the frame body 10 is a rectangular frame structure, and has a size equivalent to that of the tube well, and includes two sets of steel plate assemblies, one set of steel plate assemblies includes two parallel horizontal steel plates 11, the other set of steel plate assemblies includes two parallel vertical steel plates 12, two ends of the two horizontal steel plates 11 are correspondingly connected to the two vertical steel plates 12, so as to form the frame body 10 with the rectangular frame structure, in this embodiment, the length of the vertical steel plates 12 is greater than that of the horizontal steel plates 11.

Referring to fig. 3, each vertical steel plate 12 is provided with a plurality of sliding slots 121, specifically, two sliding slots 121 are provided, and the vertical steel plate 12 is divided into an upper structure and a lower structure, the lower end of each sliding slot 121 is provided with a plurality of scale slots 122 at equal intervals, and each sliding slot 121 and the corresponding scale slot 122 at the lower end of the sliding slot 121 are mutually communicated, so that the sliding rod assembly 20 slides into the corresponding scale slot 122 along the sliding slot 121, in this embodiment, the interval between every two adjacent scale slots 122 is 50 mm. The horizontal steel plate 11 has the same structure as the vertical steel plate 12, and thus, the description thereof is omitted.

Referring to fig. 1 to 2, the sliding rod assembly 20 includes a horizontal sliding rod 201 and a vertical sliding rod 202, the horizontal sliding rod 201 is disposed in a corresponding set of sliding slots 121 between two vertical steel plates 12, the horizontal sliding rod 201 can slide along the sliding slots 121, and horizontal positioning sleeves 2011 are disposed at two ends of the horizontal sliding rod 201 to prevent the end of the water smoothing rod 201 from falling off along the sliding slots 121.

The vertical sliding rod 202 is disposed in a corresponding group of sliding grooves between the two horizontal steel plates 11, the vertical sliding rod 202 can slide along the sliding grooves, and the vertical positioning sleeves 2021 are disposed at two ends of the vertical sliding rod 202 to prevent the end of the vertical sliding rod 202 from falling off along the sliding grooves, thereby improving the stability of the bracket structure. In this embodiment, the horizontal sliding rod 201 and the vertical sliding rod 202 are both screws, and the horizontal positioning sleeve 2011 and the vertical positioning sleeve 2021 both use positioning nuts engaged with the screws.

The mounting members 30 are provided in a plurality of groups, and can be correspondingly disposed on the horizontal sliding rod 201 and the vertical sliding rod 202 of the sliding rod assembly 20 as required, so that the sleeve 40 is fixed on the horizontal sliding rod 201 or the vertical sliding rod 202 of the sliding rod assembly 20 through the mounting members 30, and slides along the corresponding sliding grooves through the horizontal sliding rod 201 or the vertical sliding rod 202, and the horizontal sliding rod 201 or the vertical sliding rod 202 slides into the corresponding scale grooves, so as to accurately position the sleeve 40, so that the sleeve 40 accurately corresponds up and down, and the sleeve 40 is concentric with the pipeline, thereby improving the engineering construction quality and avoiding rework caused by construction difficulty due to deviation of the sleeve position.

In this embodiment, each set of the mounting members 30 comprises a pipe clamp 31 and a fastener 32 for fastening the pipe clamp 31, wherein both ends of the pipe clamp 31 are provided with through holes, so that the horizontal sliding bar 201 or the vertical sliding bar 202 of the sliding bar assembly 20 passes through the through holes at both ends of the pipe clamp 31, and the pipe clamp 31 is fastened on the sliding bar assembly 20 by the fastener 32.

Specifically, referring to fig. 4, the pipe clamp 31 is a U-shaped structure, and includes an arc-shaped clamping wall 311 and connecting walls 312 correspondingly formed at two ends of the arc-shaped clamping wall 311, each connecting wall 312 is provided with a through hole for the water smooth rod 201 or the vertical sliding rod 202 to pass through, so that a fastening cavity is formed between the arc-shaped clamping wall 311 of the pipe clamp 31 and the inside of the two connecting walls 312 for fastening the sleeve 40, the fastening member 32 is two fastening nuts correspondingly disposed on the horizontal sliding rod 201 or the vertical sliding rod 202 of the sliding rod assembly 20, the internal threads of the fastening nuts are engaged with the external threads of the screws, and each fastening nut is disposed outside the connecting wall 312 of the pipe clamp 31, so that the two fastening nuts move relative to the horizontal sliding rod 201 or the vertical sliding rod 202 to control the size of the cavity of the fastening cavity, thereby achieving the tightness degree of the sleeve 40.

In operation, the sleeve 40 is fixed on the horizontal sliding bar 201 or the vertical sliding bar 202 of the sliding bar assembly 20 through the mounting member 30; then, the horizontal sliding rod 201 or the vertical sliding rod 202 is arranged in the corresponding sliding groove of the frame body 10 through a positioning nut, specifically: the horizontal sliding rod 201 is arranged in a group of sliding grooves 121 corresponding to the space between the two vertical steel plates 12, and the vertical sliding rod 202 is arranged in a group of sliding grooves corresponding to the space between the two horizontal steel plates 11; and finally, fixing the frame body 10 with the size equivalent to that of the pipe well at the reserved pipe well opening of the structural plate, sliding the horizontal sliding rod 201 or the vertical sliding rod 202 along the corresponding sliding groove, and enabling the horizontal sliding rod 201 or the vertical sliding rod 202 to slide into the corresponding scale groove so as to accurately position the position of the sleeve 40 and enable the sleeve 40 to accurately correspond up and down.

To sum up, the utility model discloses vertical comprehensive support structure passes through installed part 30 in the building tube well and fixes sleeve pipe 40 on slide bar assembly 20, and slide bar assembly 20 passes through set nut and sets up in support body 10 in the spout correspondingly, with the stability that improves supporting structure, and this supporting structure easy dismounting is swift, but reuse, slide bar assembly 20 slides along the spout that corresponds in the support body 10, make slide bar assembly 20 slide to the scale inslot that corresponds, with accurate position sleeve pipe 40's position, make sleeve pipe 40 accurate correspondence from top to bottom, thereby avoid because the rework that the sleeve pipe positional deviation caused the construction difficulty and lead to.

The above embodiment is only the utility model discloses a vertical comprehensive support structure preferred embodiment in building tubular well describes, and is not right the utility model discloses a scope is injectd, does not deviate from the utility model relates to a under the prerequisite of spirit, the ordinary skilled person in the art is right the utility model discloses various deformation and improvement that vertical comprehensive support structure's technical scheme made in building tubular well all should fall into the utility model discloses the protection within range that the claim of vertical comprehensive support structure in building tubular well confirmed.

Claims (10)

1. The utility model provides a vertical integrated support structure in building tubular well for to sleeve pipe (40) location, its characterized in that: including support body (10), install on support body (10) and slide bar assembly (20) and the installed part (30) of setting on slide bar assembly (20) that support body (10) activity relatively to fix sleeve pipe (40) on slide bar assembly (20) through installed part (30), the opposite side of support body (10) all is equipped with a plurality of spouts, and each spout lower extreme is equipped with a plurality of scale grooves equidistantly, and each spout link up each other with a plurality of scale grooves that its lower extreme corresponds to supply slide bar assembly (20) to slide to the scale inslot that corresponds along the spout.

2. The vertical integrated support structure in the building tubular well according to claim 1, characterized in that: the support body (10) includes two sets of steel sheet subassemblies, and one of them group steel sheet subassembly includes horizontal steel sheet (11) that two parallels were put, and another group steel sheet subassembly includes perpendicular steel sheet (12) that two parallels were put, two the both ends of horizontal steel sheet (11) are connected two correspondingly perpendicular steel sheet (12), in order to form support body (10).

3. The vertical integrated support structure in the building tubular well according to claim 1, characterized in that: the mounting part (30) comprises a pipe clamp (31) and a fastener (32) for fastening the pipe clamp (31), wherein through holes are formed in two ends of the pipe clamp (31) so that the sliding rod assembly (20) can penetrate through the through holes in the two ends of the pipe clamp (31), and the pipe clamp (31) is fastened on the sliding rod assembly (20) through the fastener (32).

4. The building pipe shaft internal vertical comprehensive support structure according to claim 2, characterized in that: the sliding rod assembly (20) comprises horizontal sliding rods (201), each vertical steel plate (12) is provided with the sliding grooves relatively, the horizontal sliding rods (201) are arranged in a group of corresponding sliding grooves between the two vertical steel plates (12), and the horizontal sliding rods (201) can slide to the scale grooves along the corresponding sliding grooves in the vertical steel plates (12).

5. The building tubular shaft inner vertical comprehensive support structure of claim 3, characterized in that: the pipe hoop (31) is of a U-shaped structure and comprises an arc-shaped section clamping wall (311) and connecting walls (312) correspondingly formed at two ends of the arc-shaped section clamping wall (311), wherein each connecting wall (312) is provided with the through hole for the sliding rod assembly (20) to pass through, so that a fastening cavity is formed between the arc-shaped section clamping wall (311) of the pipe hoop (31) and the two connecting walls (312) for fastening the sleeve (40).

6. The vertical integrated support structure in the building pipe well according to claim 4, characterized in that: and horizontal positioning sleeves (2011) are arranged at two ends of the horizontal sliding rod (201).

7. The vertical integrated support structure in the building pipe well according to claim 6, characterized in that: the sliding rod assembly (20) further comprises a vertical sliding rod (202), the vertical sliding rod (202) is arranged in a corresponding group of sliding grooves between the two horizontal steel plates (11), and the vertical sliding rod (202) can slide along the sliding grooves and slide into the corresponding scale grooves.

8. The building pipe shaft internal vertical comprehensive support structure according to claim 7, characterized in that: and two ends of the vertical sliding rod (202) are provided with vertical positioning sleeves (2021).

9. The vertical integrated support structure in the building pipe well according to claim 8, characterized in that: the vertical sliding rod (202) and the horizontal sliding rod (201) are both screws.

10. The vertical integrated support structure in the building pipe well according to claim 9, characterized in that: the horizontal positioning sleeve (2011) and the vertical positioning sleeve (2021) both adopt positioning nuts meshed with a screw.

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