CN214785994U - Climb frame and attach wall pre-buried sleeve - Google Patents

Abstract

The utility model relates to a climbing frame attaches wall pre-buried sleeve, including sleeve body and connection end cap, the connection end cap is along the one end of axial activity cartridge at the sleeve body, be provided with radial spacing subassembly between sleeve body and the connection end cap, radial spacing subassembly is used for limiting the relative rotation between sleeve body and the connection end cap, be provided with axial spacing subassembly between sleeve body and the connection end cap, axial spacing subassembly is used for limiting the connection end cap and moves to the sleeve body inside, be provided with the internal thread hole along the axial in the connection end cap; the sleeve body and the connecting plug can be fixed by matching and fixedly connecting the internal thread hole with the bolt on the template on one side, and the template on the other side is used for clamping the embedded sleeve, so that the problem that the embedded sleeve is not firm in fixation and easy to shift when concrete is poured in the prior art is thoroughly solved, and the accuracy of the reserved hole position is ensured.

Description

Climb frame and attach wall pre-buried sleeve

The technical field is as follows:

the utility model relates to a climb frame and attach wall pre-buried sleeve.

Background art:

at present, the construction of the assembled building climbing frame attaching wall includes the steps of firstly installing an embedded sleeve between two templates, then pouring concrete between the two templates, dismantling the two templates after the concrete is solidified and formed, then knocking the embedded sleeve by using a rubber hammer to enable the embedded sleeve to be loose from the peripheral concrete, and taking out the embedded sleeve, so that a pre-embedded hole is reserved in the climbing frame attaching wall for a steel bar to penetrate in later engineering.

The structure of the existing embedded sleeve determines the installation mode of the embedded sleeve between two templates, and the embedded sleeve mainly has the following two installation modes at present: firstly, consolidate the template through aluminium mould pulling-on piece or counter-pull screw rod, make pre-buried sleeve press from both sides tightly between two templates, when the pouring concrete, receive the concrete construction influence that vibrates, pre-buried sleeve takes place the aversion easily, leads to pre-buried hole position inaccuracy after pre-buried sleeve takes out, and the later stage still need climb the frame and attach trompil on the wall again, destroys and climbs the frame and attach the wall structure, produces the influence to the time limit for a project, incremental cost. Secondly, according to climbing frame attaches the wall screw diameter, trompil the template, make pre-buried sleeve pass the template frame and stand on the template, then the pouring concrete, with pre-buried sleeve pre-buried in climbing frame attaches the wall, this mode trompil aperture is great on the template, exceeds template lease side trompil aperture allowed range, can cause great destruction to the template face, is unfavorable for later stage template restoration. In addition, because of the structural defects of the existing embedded sleeve, the embedded sleeve has the following defects in use: firstly, because pre-buried sleeve is direct to contact with concrete, dismantle pre-buried sleeve and waste time and energy, can take some concrete pieces out moreover, climb the frame and attach the wall structure and suffer destruction and influence and climb the outward appearance that the frame attached the wall. Secondly, the existing embedded sleeve is of a solid structure, so that the consumption of raw materials is high, and the production cost is high. Thirdly, pre-buried sleeve on the market need cooperate a plurality of different accessories to install, and the structure is complicated, and the operation is wasted time and energy, and the efficiency of construction is low.

In conclusion, the problems of the structure and installation of the pre-embedded sleeve attached to the wall of the conventional climbing frame become a technical problem to be solved urgently in the industry.

The utility model has the following contents:

the utility model discloses a remedy prior art not enough, provide a climb frame and attach wall pre-buried sleeve, solved the fixed not jail of pre-buried sleeve among the prior art, take place the problem of aversion easily when pouring the concrete, reduced the destruction degree that attaches wall and template to climbing frame, reduced manufacturing cost and use cost, improved the efficiency of construction.

The utility model discloses a solve the technical scheme that above-mentioned technical problem adopted and be:

the utility model provides a climb frame and attach wall pre-buried sleeve, includes sleeve body and connection end cap, connect the end cap along the one end of axial activity cartridge at the sleeve body, be provided with radial spacing subassembly between sleeve body and the connection end cap, radial spacing subassembly is used for restricting the sleeve body and connects the relative rotation between the end cap, be provided with the spacing subassembly of axial between sleeve body and the connection end cap, the spacing subassembly of axial is used for restricting the connection end cap and removes to sleeve body inside, be provided with the internal thread hole along the axial in the connection end cap.

Preferably, the radial limiting assembly comprises a guide strip axially arranged on the inner wall of the sleeve body and a sliding groove axially arranged on the outer surface of the connecting plug, and the guide strip is movably inserted in the sliding groove in a matched manner.

Preferably, the radial limiting assembly comprises a sliding groove axially formed in the inner wall of the sleeve body and a guide strip axially formed in the outer surface of the connecting plug, and the guide strip is movably inserted into the sliding groove in a matched manner.

Preferably, the axial limiting assembly comprises a limiting table arranged inside the sleeve body and/or a limiting ring arranged on the outer surface of the connecting plug.

Preferably, a through hole is axially formed in the sleeve body.

Preferably, the sleeve body is in the shape of a conical cylinder.

Preferably, the combined length of the sleeve body and the connecting plug is consistent with the thickness of the wall attached to the climbing frame. Preferably, a release agent layer is arranged on the outer surface of the sleeve body.

Preferably, the sleeve body and the connecting plug are made of ABS plastic.

The above technical scheme is adopted in the utility model, following beneficial effect has:

(1) the sleeve comprises a sleeve body, a connecting plug and a connecting sleeve body, wherein the sleeve body is provided with a radial limiting assembly, the radial limiting assembly is used for limiting relative rotation between the sleeve body and the connecting plug, the axial limiting assembly is arranged between the sleeve body and the connecting plug, the axial limiting assembly is used for limiting the connecting plug to move towards the inside of the sleeve body, an internal threaded hole is axially arranged in the connecting plug, the sleeve body and the connecting plug can be fixed through the internal threaded hole and a bolt on a template on one side in a matched and fixedly connected mode, the template on the other side is used for clamping the embedded sleeve, the problems that the embedded sleeve is not firmly fixed and the embedded sleeve is easy to shift when concrete is poured in the prior art are thoroughly solved, and the accuracy of the position of a reserved hole is ensured;

(2) through the through holes axially arranged in the sleeve body, the consumption of raw materials for manufacturing the embedded sleeve is reduced, and the production cost of the embedded sleeve is reduced;

(3) the appearance of the sleeve body is a conical cylinder, the embedded sleeve is easy to disassemble and take out due to the design, the destructive power on the wall and the template of the climbing frame is reduced, the time for disassembling the embedded sleeve is shortened, the construction efficiency is improved, and in addition, compared with the previous cylindrical design, the conical shape can also save the raw material consumption of the embedded sleeve and save the production cost;

(4) the release agent layer is arranged on the outer surface of the sleeve body, one end of the sleeve body is knocked by a rubber hammer, and the release agent layer can enable the surface of the embedded sleeve to be quickly separated from the climbing frame to be attached to the wall, so that concrete blocks brought out are reduced, and the appearance of the climbing frame to be attached to the wall is kept;

(5) the embedded sleeve adopts an integral injection molding manufacturing process, has a simple structure, saves time and labor when being produced, and improves the production efficiency;

(6) the ABS resin is one of five synthetic resins, has excellent impact resistance, heat resistance, low temperature resistance, chemical resistance and electrical performance, and also has the characteristics of easy processing, stable product size, good surface gloss, high toughness and the like. Therefore, the sleeve body and the connecting plug are made of ABS plastic, the service life of the embedded sleeve is prolonged, and the use cost of the embedded sleeve is reduced.

Description of the drawings:

fig. 1 is a schematic view of the internal structure of the present invention.

Fig. 2 is a top view of the sleeve body according to the present invention.

Fig. 3 is a top view of the connection plug of the present invention.

Fig. 4 is a schematic view of the working principle of the present invention.

In the figure, the sleeve comprises a sleeve body 1, a connecting plug 2, a connecting plug 3, an internal thread hole 4, a guide strip 5, a sliding groove 6, a limiting table 7, a limiting ring 8, a through hole 9, a climbing frame wall 10, a template 11 and a bolt.

The specific implementation mode is as follows:

in order to clearly illustrate the technical features of the present invention, the present invention is explained in detail by the following embodiments in combination with the accompanying drawings.

In connection with the embodiment shown in fig. 1-4, a wall-attachment pre-embedded sleeve for a creeper comprises:

the sleeve comprises a sleeve body 1 and a connecting plug 2, wherein the connecting plug 2 is movably inserted into one end of the sleeve body 1 along the axial direction, a radial limiting assembly is arranged between the sleeve body 1 and the connecting plug 2 and used for limiting relative rotation between the sleeve body 1 and the connecting plug 2, an axial limiting assembly is arranged between the sleeve body 1 and the connecting plug 2 and used for limiting the connecting plug 2 to move towards the inside of the sleeve body 1, and an internal thread hole 8 is axially arranged in the connecting plug 2. The bolt 11 through internal thread hole 8 on with one side template 10 cooperatees and links firmly, can fix sleeve body 1 and connection end cap 2, and the tight pre-buried sleeve of template 10 clamp of reuse opposite side has thoroughly solved among the prior art the fixed not firm of pre-buried sleeve, has taken place the problem of aversion easily when pouring the concrete, guarantees the accuracy of reserving the entrance to a cave position.

The radial limiting assembly comprises a guide strip 4 arranged on the inner wall of the sleeve body 1 along the axial direction and a sliding groove 5 arranged on the outer surface of the connecting plug 2 along the axial direction, and the guide strip 4 is movably inserted in the sliding groove 5 in a matched mode. The number of the guide strips 4 is at least one, the number of the guide strips 4 is consistent with that of the sliding grooves 5, and the radial limiting assembly is used for limiting the relative rotation between the sleeve body 1 and the connecting plug 2.

The radial limiting assembly comprises a sliding groove 5 axially arranged on the inner wall of the sleeve body 1 and a guide strip 4 axially arranged on the outer surface of the connecting plug 2, and the guide strip 4 is movably inserted in the sliding groove 5 in a matched mode. The number of the guide strips 4 is at least one, the number of the guide strips 4 is consistent with that of the sliding grooves 5, and the radial limiting assembly is used for limiting the relative rotation between the sleeve body 1 and the connecting plug 2. In addition, other conventional technical means are all within the protection scope of the utility model.

The axial limiting assembly comprises a limiting table 6 arranged inside the sleeve body 1 and/or a limiting ring 7 arranged on the outer surface of the connecting plug 2. And the limiting table 6 and/or the limiting ring 7 are used for limiting the connecting plug 2 to move towards the interior of the sleeve body 1. In addition, other conventional technical means are all within the protection scope of the utility model.

A through hole 8 is axially arranged in the sleeve body 1. The design through hole 8 can reduce the raw material consumption of making the embedded sleeve, and reduces the production cost of the embedded sleeve.

The sleeve body 1 is a conical cylinder in shape. The embedded sleeve is easy to disassemble and take out due to the design, the destructive power of the climbing frame attached wall 9 and the template 10 is reduced, the time for disassembling the embedded sleeve is shortened, the construction efficiency is improved, and in addition, the raw material consumption of the embedded sleeve can be saved due to the conical shape compared with the previous cylindrical design, and the production cost is saved.

The combined length of the sleeve body 1 and the connecting plug 2 is consistent with the thickness of the climbing frame attached wall 9. The inner threaded hole 8 is matched and fixedly connected with the bolt 11 on the template 10 on one side, the sleeve body 1 and the connecting plug 2 can be fixed, the template 10 on the other side is used for clamping the embedded sleeve, the embedded sleeve is prevented from shifting, and the accuracy of the reserved hole position is guaranteed.

And a release agent layer is arranged on the outer surface of the sleeve body 1. The release agent layer is a functional substance between the mold and the finished product, has chemical resistance, heat resistance and stress resistance, is not easy to decompose or wear, and is used for an interface coating of two object surfaces which are easy to adhere to each other, so that the object surfaces can be easily separated, smooth and clean. The rubber hammer is used for knocking one end of the sleeve body 1, the release agent layer enables the surface of the embedded sleeve to be easily separated from the climbing frame to be attached to the wall 9, concrete blocks brought out are reduced, and the appearance of the climbing frame to be attached to the wall 9 is kept.

The sleeve body 1 and the connecting plug 2 are made of ABS plastic. The ABS resin is one of five synthetic resins, has excellent impact resistance, heat resistance, low temperature resistance, chemical resistance and electrical performance, and also has the characteristics of easy processing, stable product size, good surface gloss, high toughness and the like.

The working principle is as follows:

before the buried sleeve uses, at first aim at gib block 4 and sliding tray 5, will connect end cap 2 to push away sleeve body 1 in, cooperate through the internal thread hole 8 and the bolt 11 on the template 10 of one side and link firmly, can fix sleeve body 1 and connection end cap 2, the tight buried sleeve of clamp of template 10 of reuse opposite side, avoid buried sleeve to take place the aversion, then from the bottom up pouring concrete, it demolishs buried sleeve both sides template 10 to treat behind the concrete setting shaping, use the rubber hammer to strike buried sleeve's one end in advance, buried sleeve is not hard up with peripheral concrete, take out buried sleeve at last, thereby leave the pre-buried hole in climbing frame attaches wall 9.

The above-mentioned specific embodiments can not be regarded as the restriction to the scope of protection of the utility model, to technical personnel in this technical field, it is right the utility model discloses any replacement improvement or transform that embodiment made all fall within the scope of protection of the utility model.

The parts of the present invention not described in detail are the known techniques of those skilled in the art.

Claims (9)

1. The utility model provides a climb pre-buried sleeve of frame attaches wall which characterized in that: the sleeve comprises a sleeve body and a connecting plug, wherein the connecting plug is inserted into one end of the sleeve body along the axial direction, a radial limiting assembly is arranged between the sleeve body and the connecting plug and used for limiting the relative rotation between the sleeve body and the connecting plug, an axial limiting assembly is arranged between the sleeve body and the connecting plug and used for limiting the connecting plug to move towards the inside of the sleeve body, and an internal thread hole is formed in the connecting plug along the axial direction.

2. The climbing frame wall-attached embedded sleeve according to claim 1, characterized in that: the radial limiting assembly comprises a guide strip arranged on the inner wall of the sleeve body along the axial direction and a sliding groove arranged on the outer surface of the connecting plug along the axial direction, and the guide strip is movably inserted in the sliding groove in a matched mode.

3. The climbing frame wall-attached embedded sleeve according to claim 1, characterized in that: the radial limiting assembly comprises a sliding groove axially arranged on the inner wall of the sleeve body and a guide strip axially arranged on the outer surface of the connecting plug, and the guide strip is movably inserted in the sliding groove in a matched mode.

4. The climbing frame wall-attached embedded sleeve according to claim 1, characterized in that: the axial limiting assembly comprises a limiting table arranged inside the sleeve body and/or a limiting ring arranged on the outer surface of the connecting plug.

5. The climbing frame wall-attached embedded sleeve according to claim 1, characterized in that: a through hole is axially formed in the sleeve body.

6. The climbing frame wall-attached embedded sleeve according to claim 1, characterized in that: the sleeve body is a conical cylinder in shape.

7. The climbing frame wall-attached embedded sleeve according to claim 1, characterized in that: the combined length of the sleeve body and the connecting plug is consistent with the thickness of the wall attached to the climbing frame.

8. The climbing frame wall-attached embedded sleeve according to claim 1, characterized in that: and a release agent layer is arranged on the outer surface of the sleeve body.

9. The climbing frame wall-attached embedded sleeve according to claim 1, characterized in that: the sleeve body and the connecting plug are made of ABS plastic.

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