CN215948886U - Aluminum template structure for high-rise building - Google Patents
Aluminum template structure for high-rise building Download PDFInfo
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- CN215948886U CN215948886U CN202122204670.3U CN202122204670U CN215948886U CN 215948886 U CN215948886 U CN 215948886U CN 202122204670 U CN202122204670 U CN 202122204670U CN 215948886 U CN215948886 U CN 215948886U
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Abstract
The utility model discloses an aluminum template structure for a high-rise building, which comprises a transverse aluminum membrane plate and a vertical aluminum membrane plate, wherein the transverse aluminum membrane plate comprises: the transverse aluminum diaphragm plate is arranged on the horizontal central axis of the transverse aluminum diaphragm plate, the cover plate which surrounds the transverse aluminum diaphragm plate and forms a hollow cavity with the transverse aluminum diaphragm plate, and the T-shaped connecting short plate and the T-shaped short groove are respectively and fixedly arranged at two ends of the transverse aluminum diaphragm plate; the vertical aluminum film plate comprises: the vertical beam is arranged on the vertical central axis of the vertical aluminum diaphragm plate, and the T-shaped connecting long plate and the T-shaped long groove are respectively and fixedly arranged on two sides of the vertical beam; the T-shaped connecting short plate of the transverse aluminum diaphragm plate is slidably embedded in the T-shaped long groove of the vertical aluminum diaphragm plate, and the T-shaped short groove of the transverse aluminum diaphragm plate is slidably sleeved on the T-shaped connecting long plate of the vertical aluminum diaphragm plate. In a word, the utility model has the advantages of novel structure, simple assembly, high assembly firmness and the like.
Description
Technical Field
The utility model belongs to the technical field of building assembly plates, and particularly relates to an aluminum template structure for a high-rise building.
Background
The aluminum alloy template is a new generation template system behind a wood template, a bamboo plywood and a steel template. The aluminum alloy template is a template which is made of aluminum alloy sections as main materials through processes of machining, welding and the like and is suitable for concrete engineering, and is formed by combining a panel, ribs, main section bars, a plane template, a corner template and an early-dismantling device according to the 50mm modulus design. The design and construction application of the aluminum alloy template are the innovation of the concrete engineering template technology, the promotion of the assembly type concrete technology and the realization of the industrialization of the construction technology.
The aluminum alloy template is a complete matched template system consisting of a template system, a fastening system, a supporting system and an accessory system, and is suitable for template systems with different structures. The aluminum alloy template is divided into a plane template, a corner template and an assembly according to the structural form. The corner template comprises an external corner template, an internal corner template and an internal corner template, and the assembly comprises a single-inclined aluminum beam, a double-inclined aluminum beam, a floor early-dismantling head and a beam bottom early-dismantling head.
Because the aluminum membrane plate is basically configured in a unified way, the sectional materials are processed in a factory in a unified way, the combined assembly effect is poor, a drawing needs to be designed in the prior period, and the construction progress is greatly prolonged by processing according to the drawing. Therefore, the utility model designs an aluminum template structure for a high-rise building.
SUMMERY OF THE UTILITY MODEL
Aiming at the problems, the utility model aims to provide an aluminum formwork structure for a high-rise building, which is convenient to assemble.
The technical scheme of the utility model is as follows: an aluminum template structure for high-rise buildings comprises a transverse aluminum membrane plate and a vertical aluminum membrane plate,
the horizontal aluminum film plate comprises:
the cross beam is arranged on the horizontal central axis of the transverse aluminum diaphragm plate and used for providing transverse rigid support,
the cover plate is arranged around the cross beam in a surrounding manner and forms a hollow cavity with the cross beam,
the T-shaped connecting short plate and the T-shaped short groove are respectively and fixedly arranged at two ends of the transverse aluminum membrane plate;
the vertical aluminum film plate comprises:
the vertical beam is arranged on the vertical central axis of the vertical aluminum diaphragm plate and used for providing vertical rigid support,
the T-shaped connecting long plate and the T-shaped long groove are fixedly arranged on two sides of the vertical beam respectively;
the T-shaped connecting short plate of the transverse aluminum diaphragm plate is slidably embedded in the T-shaped long groove of the vertical aluminum diaphragm plate and is fixed through high-strength bolts;
the T-shaped short groove of the transverse aluminum diaphragm plate is slidably sleeved on the T-shaped connecting long plate of the vertical aluminum diaphragm plate and is fixed through a high-strength bolt.
Further, all run through on short board, the short recess of T type, the long board of T type connection, the long recess of T type and be equipped with corresponding fixed orifices, the high strength bolt passes the fixed orifices is connected fixedly to horizontal aluminium lamina membranacea and perpendicular aluminium lamina membranacea, and it can make things convenient for the combination to fix between aluminium lamina membranacea and the perpendicular aluminium lamina membranacea to predetermine the fixed orifices.
Furthermore, concrete can be poured in the hollow cavity after the transverse aluminum membrane plate and the vertical aluminum membrane plate are connected and fixed, so that the strength of the transverse aluminum membrane plate is improved.
Further, fixedly connected with strengthening rib between crossbeam and the apron avoids the apron to drop.
Furthermore, the T-shaped connecting short plate of the transverse aluminum diaphragm plate can be further slidably embedded in the T-shaped short groove of the other transverse aluminum diaphragm plate and is fixed through a high-strength bolt, the length of the transverse aluminum diaphragm plate is prolonged, the combination diversity of the transverse aluminum diaphragm plate and the vertical aluminum diaphragm plate is improved, and the applicability is higher.
Furthermore, the vertical beam is hollow and sealed at the bottom, and concrete is poured into the vertical beam after the transverse aluminum film plate and the vertical aluminum film plate are connected and fixed, so that the stability of the vertical beam is improved.
Furthermore, a plurality of groups of batten plates are fixedly arranged on the T-shaped long groove through high-strength bolts and used for sealing the T-shaped long groove.
The assembly method of the utility model comprises the following steps: vertically and fixedly mounting vertical aluminum membrane plates at a preset position, measuring the distance between two adjacent vertical aluminum membrane plates, embedding a T-shaped connecting short plate of a transverse aluminum membrane plate on a T-shaped short groove of another transverse aluminum membrane plate to prolong the length of the transverse aluminum membrane plate, embedding the prolonged T-shaped connecting short plate of the transverse aluminum membrane plate on a T-shaped long groove of the vertical aluminum membrane plate in a sliding manner to set the height, synchronously sleeving the prolonged T-shaped short groove of the transverse aluminum membrane plate on a T-shaped connecting long plate of another vertical aluminum membrane plate, and penetrating fixing holes corresponding to each other on the T-shaped connecting short plate, the T-shaped short groove, the T-shaped connecting long plate and the T-shaped long groove by using high-strength bolts, and finally, fixing a plurality of groups of transverse aluminum membrane plates and vertical aluminum membrane plates respectively, pouring concrete into the hollow cavity and the vertical beam respectively after the transverse aluminum membrane plates and the vertical aluminum membrane plates are fixed, fixing two ends of the high-strength bolt by the concrete, and fixing the batten plates at the hollow parts of the T-shaped long grooves respectively by the high-strength bolt.
Compared with the prior art, the utility model has the beneficial effects that: adopt horizontal aluminium lamina membranacea of assembled and perpendicular aluminium lamina membranacea integrated configuration, the integrated configuration is various, and transportation simple to operate, be applicable to high-rise building and use, set up the crossbeam in the middle of horizontal aluminium lamina membranacea, guarantee the connection rigidity of horizontal aluminium lamina membranacea, and set up the T type chain stub bar that can interconnect and can be connected with perpendicular aluminium lamina membranacea at horizontal aluminium lamina membranacea both ends, T type connecting groove, can prolong the length of horizontal aluminium lamina membranacea, and T type scarf joint structural connection intensity is high, non-deformable, still connect the setting apron with the strengthening rib on the crossbeam, in the cavity that forms and the cavity of perpendicular aluminium lamina membranacea erect the roof beam in pour the concrete, both can make high strength bolt both ends fixed by the concrete, horizontal aluminium lamina membranacea and the holistic intensity of perpendicular aluminium lamina membranacea have been improved again. In a word, the utility model has the advantages of novel structure, simple assembly, high assembly firmness and the like.
Drawings
FIG. 1 is a schematic view of the overall assembly structure of the present invention;
FIG. 2 is a schematic view of the overall structure of a transverse aluminum laminate of the present invention;
FIG. 3 is a schematic view of the internal structure of a horizontal aluminum laminate of the present invention;
FIG. 4 is a schematic view of the overall structure of the vertical aluminum laminate of the present invention.
The aluminum plate comprises 1-transverse aluminum membrane plates, 11-transverse beams, 12-cover plates, 121-hollow cavities, 122-reinforcing ribs, 13-T-shaped connecting short plates, 14-T-shaped short grooves, 2-vertical aluminum membrane plates, 21-vertical beams, 22-T-shaped connecting long plates, 23-T-shaped long grooves, 3-high-strength bolts, 4-fixing holes and 5-batten plates.
Detailed Description
The following detailed description of the present invention is provided in conjunction with the accompanying drawings, but it should be understood that the scope of the present invention is not limited to the specific embodiments.
Example (b): as shown in figure 1, the aluminum template structure for the high-rise building comprises a transverse aluminum membrane plate 1 and a vertical aluminum membrane plate 2, is various in combination form, convenient to transport and install and suitable for the high-rise building. As shown in fig. 2 to 3, the horizontal aluminum laminate 1 includes: the transverse aluminum diaphragm plate comprises a transverse beam 11, a cover plate 12, a T-shaped connecting short plate 13 and a T-shaped short groove 14, wherein the transverse beam 11 is arranged on a horizontal central axis of a transverse aluminum diaphragm plate 1 and used for providing transverse rigid support, the cover plate 12 is arranged around the transverse beam 11 and forms a hollow cavity 121 with the transverse beam 11, a reinforcing rib 122 is fixedly connected between the transverse beam 11 and the cover plate 12, concrete can be poured in the hollow cavity 121 after the transverse aluminum diaphragm plate 1 and a vertical aluminum diaphragm plate 2 are fixedly connected, and the T-shaped connecting short plate 13 and the T-shaped short groove 14 are respectively and fixedly arranged at two ends of the transverse aluminum diaphragm plate 1; as shown in fig. 4, the vertical aluminum diaphragm 2 includes: the vertical beam 21 is arranged on a vertical central axis of the vertical aluminum diaphragm plate 2 and used for providing vertical rigid support, the vertical beam 21 is hollow and sealed at the bottom and used for pouring concrete into the vertical beam 21 after the horizontal aluminum diaphragm plate 1 and the vertical aluminum diaphragm plate 2 are fixedly connected, the T-shaped connecting long plate 22 and the T-shaped long groove 23 are respectively and fixedly arranged at two sides of the vertical beam 21, and a plurality of groups of batten plates 5 are fixedly arranged on the T-shaped long groove 23 through high-strength bolts 3 and used for sealing the T-shaped long groove 23; corresponding fixing holes 4 are formed in the T-shaped connecting short plate 13, the T-shaped short groove 14, the T-shaped connecting long plate 22 and the T-shaped long groove 23 in a penetrating mode, and the high-strength bolts 3 penetrate through the fixing holes 4 to fixedly connect the transverse aluminum membrane plate 1 and the vertical aluminum membrane plate 2; the T-shaped connecting short plate 13 of the transverse aluminum diaphragm plate 1 can be slidably embedded in the T-shaped long groove 23 of the vertical aluminum diaphragm plate 2 and is fixed through the high-strength bolt 3, and the T-shaped connecting short plate 13 of the transverse aluminum diaphragm plate 1 can also be slidably embedded in the T-shaped short groove 14 of the other transverse aluminum diaphragm plate 1 and is fixed through the high-strength bolt 3 and is used for prolonging the length of the transverse aluminum diaphragm plate 1; the T-shaped short groove 14 of the transverse aluminum diaphragm plate 1 is slidably sleeved on the T-shaped connecting long plate 22 of the vertical aluminum diaphragm plate 2 and is fixed by the high-strength bolt 3.
The assembly method of the above embodiment is: vertically and fixedly installing vertical aluminum membrane plates 2 at preset positions, measuring the distance between two adjacent vertical aluminum membrane plates 2, embedding a T-shaped connecting short plate 13 of a transverse aluminum membrane plate 1 on a T-shaped short groove 14 of another transverse aluminum membrane plate 1 to prolong the length of the transverse aluminum membrane plate 1, embedding the T-shaped connecting short plate 13 of the prolonged transverse aluminum membrane plate 1 on a T-shaped long groove 23 of the vertical aluminum membrane plate 2 in a sliding manner to set the height, synchronously sleeving a T-shaped short groove 14 of the prolonged transverse aluminum membrane plate 1 on a T-shaped connecting long plate 22 of another vertical aluminum membrane plate 2, penetrating the T-shaped connecting short plate 13, the T-shaped short groove 14, the T-shaped connecting long plate 22 and the T-shaped long groove 23 through mutually corresponding fixing holes 4, respectively fixing a plurality of groups of transverse aluminum membrane plates 1 and vertical aluminum membrane plates 2 according to the method, respectively pouring concrete into the hollow cavity 121 and the vertical beam 21 after fixing, the two ends of the high-strength bolt 3 are fixed by concrete, and finally the batten plates 5 are respectively and fixedly arranged at the hollow parts of the T-shaped long grooves 23 by the high-strength bolts 3.
The specific types of the components are not specially designated, and common products sold in the market can be selected as long as the use requirements of the utility model can be met.
The above-mentioned embodiments are intended to illustrate the objects, technical solutions and advantages of the present invention in further detail, and it should be understood that the above-mentioned embodiments are only exemplary embodiments of the present invention, and are not intended to limit the present invention, and any modifications, equivalents, improvements and the like made within the spirit and principle of the present invention are included in the protection scope of the present invention.
Claims (7)
1. The utility model provides a high-rise building uses aluminum mould plate structure, includes horizontal aluminum diaphragm plate (1) and perpendicular aluminum diaphragm plate (2), its characterized in that:
the transverse aluminum diaphragm plate (1) comprises: the cross beam (11) is arranged on the horizontal central axis of the transverse aluminum diaphragm plate (1) and is used for providing transverse rigid support; the cover plate (12) is arranged around the cross beam (11) in a surrounding mode and forms a hollow cavity (121) with the cross beam (11); the T-shaped connecting short plate (13) and the T-shaped short groove (14) are respectively and fixedly arranged at two ends of the transverse aluminum diaphragm plate (1);
the vertical aluminum diaphragm plate (2) comprises: the vertical beam (21) is arranged on the vertical central axis of the vertical aluminum diaphragm plate (2) and is used for providing vertical rigid support; the T-shaped connecting long plate (22) and the T-shaped long groove (23) are respectively and fixedly arranged on two sides of the vertical beam (21);
the T-shaped connecting short plate (13) of the transverse aluminum diaphragm plate (1) is slidably embedded in the T-shaped long groove (23) of the vertical aluminum diaphragm plate (2) and is fixed through high-strength bolts (3) respectively; the T-shaped short groove (14) of the transverse aluminum diaphragm plate (1) is slidably sleeved on the T-shaped connecting long plate (22) of the vertical aluminum diaphragm plate (2) and is fixed through a high-strength bolt (3).
2. The aluminum formwork structure for the high-rise building as claimed in claim 1, wherein the T-shaped connecting short plate (13), the T-shaped short groove (14), the T-shaped connecting long plate (22) and the T-shaped long groove (23) are provided with corresponding fixing holes (4) in a penetrating manner, and the high-strength bolt (3) penetrates through the fixing holes (4) to connect and fix the horizontal aluminum diaphragm plate (1) and the vertical aluminum diaphragm plate (2).
3. The aluminum formwork structure for the high-rise building according to claim 1, wherein concrete can be poured in the hollow cavity (121) after the transverse aluminum membrane plate (1) and the vertical aluminum membrane plate (2) are connected and fixed.
4. The aluminum formwork structure for high-rise buildings according to claim 1, wherein a reinforcing rib (122) is fixedly connected between the beam (11) and the cover plate (12).
5. The aluminum formwork structure for high-rise buildings as claimed in claim 1, wherein the T-shaped connecting short plate (13) of the horizontal aluminum diaphragm plate (1) is also slidably inserted into the T-shaped short groove (14) of the other horizontal aluminum diaphragm plate (1) and fixed by the high-strength bolt (3) for extending the length of the horizontal aluminum diaphragm plate (1).
6. The aluminum formwork structure for the high-rise building according to claim 1, wherein the vertical beam (21) is hollow inside and sealed at the bottom for pouring concrete inside the vertical beam (21) after the horizontal aluminum membrane plate (1) and the vertical aluminum membrane plate (2) are connected and fixed.
7. The aluminum formwork structure for high-rise buildings according to claim 1, wherein a plurality of groups of gusset plates (5) are fixedly provided on the T-shaped long groove (23) through high-strength bolts (3) for closing the T-shaped long groove (23).
Priority Applications (1)
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CN202122204670.3U CN215948886U (en) | 2021-09-13 | 2021-09-13 | Aluminum template structure for high-rise building |
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CN202122204670.3U CN215948886U (en) | 2021-09-13 | 2021-09-13 | Aluminum template structure for high-rise building |
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CN215948886U true CN215948886U (en) | 2022-03-04 |
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2021
- 2021-09-13 CN CN202122204670.3U patent/CN215948886U/en active Active
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