CN219412136U - Aluminum alloy template supporting structure for prefabricated wall body - Google Patents

Abstract

The utility model discloses an aluminum alloy template supporting structure for a prefabricated wall, which comprises a first prefabricated wall, wherein two ends of the first prefabricated wall are respectively provided with a second prefabricated wall, the two groups of second prefabricated walls are respectively connected with the first prefabricated wall through cast-in-situ walls, the surfaces of the outer walls of the two groups of cast-in-situ walls are respectively provided with an aluminum alloy template, the outer walls of each group of aluminum alloy templates are respectively provided with a plurality of groups of transverse back edges, and the two groups of transverse back edges which are positioned at the same height on the same cast-in-situ wall are connected through connecting screws.

Description

Aluminum alloy template supporting structure for prefabricated wall body

Technical Field

The utility model relates to the field of formwork support equipment, in particular to an aluminum alloy formwork support structure for a prefabricated wall body.

Background

The aluminum alloy template and the prefabricated wall combined construction process which is rising in recent years has the advantages of factory standardized production of the prefabricated wall, high wall flatness, no plastering and the like, and solves the quality problems of leakage, cracking, hollowness, falling and the like caused by plastering from the source.

Therefore, the two aspects of the aluminum alloy templates and the prefabricated wall body involve too many components and are staggered and complicated, so that collision conflict between the components in the aluminum alloy templates and the components in the prefabricated wall body is easy to occur, one supporting structure cannot be installed, and stability of the aluminum alloy templates in casting of the cast-in-situ wall or stability of the supporting prefabricated wall body is reduced, and the aluminum alloy template supporting structure for the prefabricated wall body is provided to solve the problems.

Disclosure of Invention

1. Technical problem to be solved

Aiming at the problems existing in the prior art, the utility model aims to provide the aluminum alloy template supporting structure for the prefabricated wall body, which can support the aluminum alloy templates in multiple directions through one pre-buried mechanism supporting point, and the same aluminum alloy template is supported by adopting an upper diagonal bracing mechanism and a lower diagonal bracing mechanism, so that the collision conflict problem of components in the aluminum alloy template and components in the prefabricated wall body can not occur, and the supporting stability of the aluminum alloy template supporting structure can be ensured.

2. Technical proposal

In order to solve the problems, the utility model adopts the following technical scheme.

The aluminum alloy template supporting structure for the prefabricated wall comprises a first prefabricated wall, wherein two ends of the first prefabricated wall are respectively provided with a second prefabricated wall, two groups of second prefabricated walls are respectively connected with the first prefabricated wall through cast-in-situ walls, the surfaces of the outer walls of the two groups of cast-in-situ walls are respectively provided with an aluminum alloy template, the outer walls of each group of aluminum alloy templates are respectively provided with a plurality of groups of transverse back edges, the two groups of transverse back edges which are positioned at the same height on the same cast-in-situ wall are connected through connecting screws, and the surfaces of the outer walls of the same aluminum alloy templates are respectively provided with at least one group of vertical back edges;

the vertical back edge is connected with an embedded mechanism through an inclined strut mechanism, and the bottom end of the embedded mechanism is arranged on the surface of the ground.

Further, the embedding mechanism comprises an embedding plate, and at least one embedding anchor rod is arranged at the bottom of the embedding plate;

the top surface of the embedded plate is fixedly provided with a supporting component, and the top end of the supporting component is connected with an expansion component through a connecting bolt.

Further, the support assembly comprises a first positioning frame fixedly arranged on the top surface of the embedded plate, a first movable pin rod used for connecting the bottom end of the diagonal bracing mechanism is arranged in the inner cavity of the first positioning frame, and a first connecting hole is formed in the top surface of the first positioning frame.

Further, the first movable pin rod is rotationally and detachably connected with the first positioning frame.

Further, the expansion assembly comprises a second positioning frame, a second movable pin rod used for connecting the bottom end of the diagonal bracing mechanism is arranged in the inner cavity of the second positioning frame, a second connecting hole is formed in the surface of the top bottom of the second positioning frame, and a third connecting hole is formed in the top end of the second positioning frame.

Further, the second movable pin rod is rotationally and detachably connected with the second positioning frame.

Further, the first locating frame top surface and be located first connecting hole outer lane ring and be equipped with multiunit first jack, the second locating frame bottom surface and be located second connecting hole outer lane ring and be equipped with the inserted bar that is used for pegging graft first jack.

Further, a plurality of groups of second jacks are arranged on the top surface of the second positioning frame and positioned on the outer ring of the third connecting hole.

Further, the diagonal bracing mechanism comprises an internal thread pipe, two ends of the inner cavity of the internal thread pipe are respectively connected with a first adjusting screw rod and a second adjusting screw rod in a rotating mode, the top end of the first adjusting screw rod is movably connected with a movable seat through a third movable pin rod, one side wall of the movable seat is connected with a vertical back edge, and a through hole for connecting the embedded mechanism is formed in the bottom end of the second adjusting screw rod.

Further, the diagonal bracing mechanism further comprises handles arranged on two sides of the middle of the internal thread pipe.

3. Advantageous effects

Compared with the prior art, the utility model has the advantages that:

(1) According to the scheme, before the cast-in-situ wall between the first prefabricated wall and the second prefabricated wall is required to be poured, at the moment, the worker firstly places the aluminum alloy templates on two sides between the first prefabricated wall and the second prefabricated wall, the inner wall of the aluminum alloy templates is tightly attached to the outer wall surface of the prefabricated wall, then the two aluminum alloy templates and the transverse back edges on the outer wall surface of the aluminum alloy templates are connected together through the screw rod, so that the two aluminum alloy templates tightly wrap the space between the first prefabricated wall and the second prefabricated wall, the cast-in-situ wall is prevented from being fried, a plurality of groups of transverse back edges are connected up and down into a whole through the vertical back edges, then the vertical back edges are connected with the pre-buried mechanism reserved on the ground through the diagonal bracing mechanism, the support of the vertical back edges can be achieved, the use stability of the aluminum alloy templates can be further enhanced, and the two aluminum alloy templates are further prevented from being outwards cracked into a plurality of groups of transverse back edges.

(2) According to the scheme, through the embedded plate in the embedded mechanism, the embedded plate can be embedded on the cement floor through four embedded anchor rods, so that the embedded plate is stable and firm, then the embedded plate can support the supporting component, so that the supporting component can be used for installing a plurality of diagonal bracing mechanisms, further, the top end of the diagonal bracing mechanism can be used for supporting the vertical back edge, so that the purpose of synchronously supporting the aluminum alloy templates can be achieved, when the aluminum alloy templates in the other direction are required to be supported, the expansion component can be installed on the supporting component through the connecting bolts, and the expansion component can be used for supporting the aluminum alloy templates in the other surfaces through the other diagonal bracing mechanisms, so that the aluminum alloy templates in the multiple directions can be supported through the position of the embedded plate, and the aluminum alloy templates can be supported by other cast-in-situ walls.

(3) According to the scheme, the movable seat in the diagonal bracing mechanism is rotated, the movable seat can be fixed on the vertical back edge and can be connected with the first adjusting screw rod through the third movable pin rod, then the movable pin rod on the embedded mechanism can be connected through the through hole through the second adjusting screw rod, and then the handle is used for rotating the internal thread pipe, so that the positions of the first adjusting screw rod and the second adjusting screw rod can be outwards adjusted, and further the embedded mechanism can stably support the vertical back edge through the diagonal bracing mechanism.

Drawings

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a schematic side view of the present utility model;

FIG. 3 is a schematic diagram of the pre-embedding mechanism of the present utility model;

FIG. 4 is a schematic view of a support assembly according to the present utility model;

FIG. 5 is a schematic diagram of an expansion assembly according to the present utility model;

fig. 6 is a schematic structural view of the diagonal bracing mechanism of the present utility model.

The reference numerals in the figures illustrate:

1. a first prefabricated wall; 2. cast-in-situ wall; 3. a second prefabricated wall; 4. an aluminum alloy template; 5. transverse back edges; 6. a connecting screw; 7. vertical back edges; 8. a pre-burying mechanism; 801. embedding a plate; 802. embedding an anchor rod; 803. a support assembly; 8031. a first positioning frame; 8032. a first movable pin; 8033. a first connection hole; 8034. a first jack; 804. an expansion component; 8041. a second positioning frame; 8042. a second movable pin; 8043. a second connection hole; 8044. a rod; 8045. a third connection hole; 8046. a second jack; 805. a connecting bolt; 9. a diagonal bracing mechanism; 901. an internally threaded tube; 902. a first adjusting screw; 903. a third movable pin; 904. a movable seat; 905. a second adjusting screw; 906. a through hole; 907. a handle.

Detailed Description

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model; it is apparent that the described embodiments are only some embodiments of the present utility model, not all embodiments, and that all other embodiments obtained by persons of ordinary skill in the art without making creative efforts based on the embodiments in the present utility model are within the protection scope of the present utility model.

Examples:

referring to fig. 1-2, an aluminum alloy formwork support structure for prefabricated wall bodies comprises a first prefabricated wall 1, wherein two ends of the first prefabricated wall 1 are respectively provided with a second prefabricated wall 3, two groups of second prefabricated walls 3 are respectively connected with the first prefabricated wall 1 through cast-in-situ walls 2, aluminum alloy formworks 4 are respectively arranged on the outer wall surfaces of the two groups of cast-in-situ walls 2, a plurality of groups of transverse back edges 5 are respectively arranged on the outer wall of each group of aluminum alloy formworks 4, and two groups of transverse back edges 5 which are arranged on the same cast-in-situ wall 2 and located at the same height are connected through connecting screws 6, and at least one group of vertical back edges 7 are respectively arranged on the outer wall surfaces of the same aluminum alloy formworks 4. The vertical back edge 7 is connected with an embedded mechanism 8 through an inclined strut mechanism 9, and the bottom end of the embedded mechanism 8 is arranged on the surface of the ground.

Before the cast-in-situ wall 2 between the first prefabricated wall 1 and the second prefabricated wall 3 is required to be poured, at this moment, staff firstly places the aluminum alloy templates 4 on two sides between the first prefabricated wall 1 and the second prefabricated wall 3, and enables the inner walls of the aluminum alloy templates 4 to be tightly attached to the outer wall surfaces of the prefabricated walls, then the two aluminum alloy templates 4 and the transverse back edges 5 on the outer wall surfaces of the aluminum alloy templates 4 can be connected together through the screw rods 6, so that the two aluminum alloy templates 4 tightly wrap the space between the first prefabricated wall 1 and the second prefabricated wall 3, the cast-in-situ wall 2 is prevented from being fried in a later pouring mode, a plurality of groups of transverse back edges 5 can be vertically connected into a whole through the vertical back edges 7, then the vertical back edges 7 can be connected with the pre-buried mechanism 8 reserved on the ground through the diagonal bracing mechanism 9, and further the stability of the use of the aluminum alloy templates 4 can be enhanced, and the two aluminum alloy templates 4 can be further prevented from being burst outwards by the vertical back edges 5.

Referring to fig. 3, the pre-embedding mechanism 8 includes a pre-embedding plate 801, and four pre-embedding anchor rods 802 are disposed at the bottom of the pre-embedding plate 801. The support component 803 is fixedly arranged on the top surface of the embedded plate 801, and the top end of the support component 803 is connected with the expansion component 804 through the connecting bolt 805. Through the embedded plate 801 among the embedded mechanism 8, can be through four embedded anchor rods 802 pre-buried on cement ground, thereby can make embedded plate 801 steady firm, then embedded plate 801 can support supporting component 803 again, thereby can make supporting component 803 install a plurality of bracing mechanisms 9, and then can make bracing mechanism 9 top support vertical back of the body 7, so that can play the synchronous support purpose to aluminum alloy template 4, when needs support aluminum alloy template 4 of another direction, can install extension subassembly 804 on supporting component 803 this moment through connecting bolt 805, and extension subassembly 804 at this moment can support aluminum alloy template 4 of other face through another bracing mechanism 9, therefore through setting up the position of an embedded plate 801, can support aluminum alloy template 4 of a plurality of directions, so as to support other cast-in-place walls 2.

Referring to fig. 1, 3 and 4, the supporting component 803 includes a first positioning frame 8031 fixedly arranged on the top surface of the pre-buried plate 801, a first movable pin 8032 for connecting the bottom end of the diagonal bracing mechanism 9 is arranged in an inner cavity of the first positioning frame 8031, a first connecting hole 8033 is formed in the top surface of the first positioning frame 8031, the first movable pin 8032 is rotationally detached from and connected with the first positioning frame 8031, the first positioning frame 8031 in the supporting component 803 can be fixed on the top surface of the pre-buried plate 801, and the diagonal bracing mechanism 9 can be installed through the first movable pin 8032, so that the bottom end of the diagonal bracing mechanism 9 is stable and firm, the top end of the diagonal bracing mechanism 9 can support the aluminum alloy template 4, and the first positioning frame 8031 can be conveniently installed and expanded by the connecting bolt 805 to expand the pre-buried mechanism 8.

Referring to fig. 1 and 5, the expansion assembly 804 includes a second positioning frame 8041, a second movable pin 8042 for connecting the bottom end of the diagonal bracing mechanism 9 is disposed in an inner cavity of the second positioning frame 8041, a second connecting hole 8043 is formed in the top and bottom surface of the second positioning frame 8041, a third connecting hole 8045 is formed in the top end of the second positioning frame 8041, and the second movable pin 8042 is rotationally detached from and connected with the second positioning frame 8041.

Through the second locating frame 8041 in the expansion assembly 804, can install additional bracing mechanism 9 through second movable pin 8042, make things convenient for other bracing mechanisms 9 to support other aluminum alloy templates 4, can pass through connecting bolt 805 again, can install second locating frame 8041 on first locating frame 8031 through second connecting hole 8043 and first connecting hole 8033, and the staff can rotate nimble rotation according to the demand again and adjust the orientation of second locating frame 8041, and then can reach the aluminum alloy template 4 on the different faces and support, support through aluminum alloy template 4, can make things convenient for second locating frame 8041 further to expand.

Referring to fig. 5, a plurality of groups of first insertion holes 8034 are formed in the top surface of the first positioning frame 8031 and located on the outer ring of the first connection hole 8033, a plug rod 8044 for plugging the first insertion holes 8034 is formed in the bottom surface of the second positioning frame 8041 and located on the outer ring of the second connection hole 8043, and the plug rod 8044 and the first insertion holes 8034 are plugged with each other, so that the connection stability of the first positioning frame 8031 and the second positioning frame 8041 can be improved.

Referring to fig. 5, a plurality of groups of second jacks 8046 are arranged on the top surface of the second positioning frame 8041 and located on the outer ring of the third connecting hole 8045, and the second positioning frame 8041 and the re-expanded equipment can be conveniently positioned and installed through the second jacks 8046, so that the connection stability of the second positioning frame 8041 and the re-expanded equipment is improved.

Referring to fig. 6, the diagonal bracing mechanism 9 includes an internal thread pipe 901, two ends of an inner cavity of the internal thread pipe 901 are respectively connected with a first adjusting screw 902 and a second adjusting screw 905 in a rotating manner, the top end of the first adjusting screw 902 is movably connected with a movable seat 904 through a third movable pin 903, one side wall of the movable seat 904 is connected with a vertical back edge 7, a through hole 906 for connecting an embedded mechanism 8 is formed in the bottom end of the second adjusting screw 905, and the diagonal bracing mechanism 9 further includes handles 907 arranged on two sides of the middle of the internal thread pipe 901.

Through rotating movable seat 904 in diagonal bracing mechanism 9, can fix on vertical back of the body stupefied 7, can link to each other with first adjusting screw 902 through third movable pin 903 again, then through second adjusting screw 905, can link to each other with the movable pin on the pre-buried mechanism 8 through-hole 906, then through handle 907, rotatable internal thread pipe 901 to can outwards adjust the position of first adjusting screw 902 and second adjusting screw 905, and then can make pre-buried mechanism 8 through diagonal bracing mechanism 9 to the steady support of vertical back of the body stupefied 7.

When in use: before the cast-in-situ wall 2 between the first prefabricated wall 1 and the second prefabricated wall 3 is required to be poured, at this moment, staff firstly places the aluminum alloy templates 4 on two sides between the first prefabricated wall 1 and the second prefabricated wall 3, and enables the inner walls of the aluminum alloy templates 4 to be tightly attached to the outer wall surfaces of the prefabricated walls, then the two aluminum alloy templates 4 and the transverse back edges 5 on the outer wall surfaces of the aluminum alloy templates 4 can be connected together through the screw rods 6, so that the two aluminum alloy templates 4 tightly wrap the space between the first prefabricated wall 1 and the second prefabricated wall 3, the cast-in-situ wall 2 is prevented from being fried in a later pouring mode, a plurality of groups of transverse back edges 5 can be vertically connected into a whole through the vertical back edges 7, then the vertical back edges 7 can be connected with the pre-buried mechanism 8 reserved on the ground through the diagonal bracing mechanism 9, and further the stability of the use of the aluminum alloy templates 4 can be enhanced, and the two aluminum alloy templates 4 can be further prevented from being burst outwards by the vertical back edges 5.

Through the embedded plate 801 among the embedded mechanism 8, can be through four embedded anchor rods 802 pre-buried on cement ground, thereby can make embedded plate 801 steady firm, then embedded plate 801 can support supporting component 803 again, thereby can make supporting component 803 install a plurality of bracing mechanisms 9, and then can make bracing mechanism 9 top support vertical back of the body 7, so that can play the synchronous support purpose to aluminum alloy template 4, when needs support aluminum alloy template 4 of another direction, can install extension subassembly 804 on supporting component 803 this moment through connecting bolt 805, and extension subassembly 804 at this moment can support aluminum alloy template 4 of other face through another bracing mechanism 9, therefore through setting up the position of an embedded plate 801, can support aluminum alloy template 4 of a plurality of directions, so as to support other cast-in-place walls 2.

Through the first locating frame 8031 in the supporting component 803, can fix at pre-buried board 801 top surface, can install diagonal bracing mechanism 9 again through first movable pin 8032 to can make diagonal bracing mechanism 9 bottom steady firm, and then can make diagonal bracing mechanism 9 top support aluminum alloy template 4, through first connecting hole 8033, can make things convenient for first locating frame 8031 to install extension subassembly 804 through connecting bolt 805, and then can expand pre-buried mechanism 8.

Through the second locating frame 8041 in the expansion assembly 804, can install additional bracing mechanism 9 through second movable pin 8042, make things convenient for other bracing mechanisms 9 to support other aluminum alloy templates 4, can pass through connecting bolt 805 again, can install second locating frame 8041 on first locating frame 8031 through second connecting hole 8043 and first connecting hole 8033, and the staff again can rotate the orientation of adjusting second locating frame 8041 according to nimble as required, and then can reach the aluminum alloy template 4 on the different faces and support, support through aluminum alloy template 4, can make things convenient for second locating frame 8041 further to expand, peg graft each other through inserted bar 8044 and first jack 8034, thereby can improve the stability that first locating frame 8031 is connected with second locating frame 8041, can make things convenient for second locating frame 8041 to fix a position the installation with the equipment that expands once more, improve two connection stability through second jack 8046.

Through rotating movable seat 904 in diagonal bracing mechanism 9, can fix on vertical back of the body stupefied 7, can link to each other with first adjusting screw 902 through third movable pin 903 again, then through second adjusting screw 905, can link to each other with the movable pin on the pre-buried mechanism 8 through-hole 906, then through handle 907, rotatable internal thread pipe 901 to can outwards adjust the position of first adjusting screw 902 and second adjusting screw 905, and then can make pre-buried mechanism 8 through diagonal bracing mechanism 9 to the steady support of vertical back of the body stupefied 7. So far, this bearing structure can be through a pre-buried mechanism supporting point to can support the aluminum alloy template 4 of multiple directions, and two bracing mechanism 9 support about same aluminum alloy template 4 adoption, therefore can not lead to appearing the component in the aluminum alloy template and the component collision conflict problem in the prefabricated wall body, can guarantee the stability that its supported again simultaneously.

The above is only a preferred embodiment of the present utility model. The scope of the utility model is not limited in this respect. Any person skilled in the art, within the technical scope of the present disclosure, may apply to the present utility model, and the technical solution and the improvement thereof are all covered by the protection scope of the present utility model.

Claims (10)

1. The utility model provides an aluminum alloy template bearing structure for prefabricated wall body, includes first prefabricated wall (1), first prefabricated wall (1) both ends all are provided with prefabricated wall of second (3) to two sets of prefabricated wall of second (3) all link to each other with first prefabricated wall (1) through cast-in-place wall (2), its characterized in that: the outer wall surfaces of the two groups of cast-in-situ walls (2) are provided with aluminum alloy templates (4), and the outer wall of each group of aluminum alloy templates (4) is provided with a plurality of groups of transverse back ribs (5);

two groups of transverse back edges (5) positioned at the same height on the same cast-in-situ wall (2) are connected through a connecting screw (6), and at least one group of vertical back edges (7) are arranged on the outer wall surface of the same aluminum alloy template (4);

the vertical back edge (7) is connected with an embedded mechanism (8) through an inclined strut mechanism (9), and the bottom end of the embedded mechanism (8) is arranged on the surface of the ground.

2. An aluminum alloy formwork support structure for a prefabricated wall according to claim 1, wherein: the embedding mechanism (8) comprises an embedding plate (801), and at least one embedding anchor rod (802) is arranged at the bottom of the embedding plate (801);

the embedded plate is characterized in that a supporting component (803) is fixedly arranged on the top surface of the embedded plate (801), and an expansion component (804) is connected to the top end of the supporting component (803) through a connecting bolt (805).

3. An aluminum alloy formwork support structure for a prefabricated wall according to claim 2, wherein: the supporting assembly (803) comprises a first positioning frame (8031) fixedly arranged on the top surface of the embedded plate (801), a first movable pin rod (8032) used for connecting the bottom end of the diagonal bracing mechanism (9) is arranged in an inner cavity of the first positioning frame (8031), and a first connecting hole (8033) is formed in the top surface of the first positioning frame (8031).

4. An aluminum alloy formwork support structure for a prefabricated wall according to claim 3, wherein: the first movable pin rod (8032) is rotationally and detachably connected with the first positioning frame (8031).

5. An aluminum alloy formwork support structure for a prefabricated wall according to claim 3, wherein: the expansion assembly (804) comprises a second positioning frame (8041), a second movable pin rod (8042) used for connecting the bottom end of the diagonal bracing mechanism (9) is arranged in an inner cavity of the second positioning frame (8041), a second connecting hole (8043) is formed in the top bottom surface of the second positioning frame (8041), and a third connecting hole (8045) is formed in the top end of the second positioning frame (8041).

6. An aluminum alloy formwork support structure for a prefabricated wall according to claim 5, wherein: the second movable pin rod (8042) is rotationally and detachably connected with the second positioning frame (8041).

7. An aluminum alloy formwork support structure for a prefabricated wall according to claim 5, wherein: the first locating frame (8031) top surface and lie in first connecting hole (8033) outer lane ring and be equipped with multiunit first jack (8034), second locating frame (8041) bottom surface and lie in second connecting hole (8043) outer lane ring and be equipped with inserted bar (8044) that are used for pegging graft first jack (8034).

8. An aluminum alloy formwork support structure for a prefabricated wall according to claim 7, wherein: the top surface of the second positioning frame (8041) and the outer ring of the third connecting hole (8045) are provided with a plurality of groups of second jacks (8046).

9. An aluminum alloy formwork support structure for a prefabricated wall according to claim 1, wherein: the inclined support mechanism (9) comprises an inner threaded pipe (901), a first adjusting screw (902) and a second adjusting screw (905) are respectively connected to two ends of an inner cavity of the inner threaded pipe (901) in a rotating mode, a movable seat (904) is movably connected to the top end of the first adjusting screw (902) through a third movable pin rod (903), one side wall of the movable seat (904) is connected with a vertical back edge (7), and a through hole (906) for connecting an embedded mechanism (8) is formed in the bottom end of the second adjusting screw (905).

10. An aluminum alloy formwork support structure for a prefabricated wall according to claim 9, wherein: the diagonal bracing mechanism (9) further comprises handles (907) arranged on two sides of the middle of the internal thread pipe (901).