CN215594938U - Aluminum formwork reinforced structure - Google Patents

Abstract

The utility model relates to an aluminum template reinforcing structure which comprises a telescopic rod, clamping equipment, a telescopic sleeve, a reinforcing ribbed plate, a first supporting cross rod and a second supporting cross rod, wherein the clamping equipment is connected to the inner wall of the telescopic rod through a pivot, the telescopic sleeve is connected to the outer wall of the telescopic rod in a sliding mode, the reinforcing ribbed plate is connected to the outer wall of the telescopic sleeve through bolts, the first supporting cross rod is connected to the inner wall of the top of the reinforcing ribbed plate through bolts, the second supporting cross rod is hinged to the first supporting cross rod, extension parts are welded to the bottoms of the first supporting cross rod and the second supporting cross rod, an extension rod is sleeved on the inner wall of the extension part, a connecting plate is welded to the bottom of the extension rod, and the bolts are connected to the reinforcing equipment at the bottoms of the first supporting cross rod and the second supporting cross rod. The telescopic link and the telescopic tube conveniently follow the size of the aluminum mould plate and adjust, have improved the application scope of this structure, and clamping equipment is used for following the interval between the aluminum mould plate and carries out the adjusting distance, has improved the reinforced fastness of reinforcement equipment, supports horizontal pole one and supports horizontal pole two and articulate, makes things convenient for this structure to fold, has improved the portability of this structure, and simple structure maintains the maintenance convenience.

Description

Aluminum formwork reinforced structure

Technical Field

The utility model relates to the technical field of aluminum templates, in particular to an aluminum template reinforcing structure.

Background

The reinforced concrete beam is made ofReinforced concrete materialThe finished beam. The reinforced concrete beam can be made into independent beam or combined with itReinforced concreteBoardTo form an integral beam-plate type floor system, or to form an integral single-layer or multi-layer frame with the reinforced concrete column. The reinforced concrete beam has various forms, is the most basic bearing component in engineering structures such as house buildings, bridge buildings and the like, and has extremely wide application range.

At present, every house all needs to have the girder when covering, makes up through the aluminium template during current girder and constitutes the room roof beam then carrying out concrete placement, and current aluminium template of pouring all needs to use reinforced structure usually, and the fixed mounting of current aluminium template nevertheless receives the lateral pressure that the concrete placement in-process produced easily for the aluminium template produces the deformation, leads to pouring the shaping and appears the deviation, influences building quality. Therefore, an aluminum formwork reinforcing structure is needed.

SUMMERY OF THE UTILITY MODEL

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

an aluminum formwork reinforcement structure comprising: the telescopic rod, the clamping device which is pivoted on the inner wall of the telescopic rod provides clamping force for aluminum templates on two sides through the clamping device, deformation is effectively avoided, the telescopic sleeve which is slidably connected on the outer wall of the telescopic rod facilitates size adjustment through the sliding connection of the telescopic sleeve and the telescopic rod, the application range is improved, the reinforcing rib plate which is bolted on the outer wall of the telescopic sleeve is provided, the first supporting cross rod which is bolted on the inner wall of the top of the reinforcing rib plate connects the first supporting cross rod and the second supporting cross rod with the telescopic sleeve through the reinforcing rib plate, the firmness is improved, the first supporting cross rod and the second supporting cross rod which are hinged on the first supporting cross rod facilitate folding of the first supporting cross rod and the second supporting cross rod, the portability is improved, the first supporting cross rod and the second supporting cross rod are welded with extension parts, the extension rod is sleeved on the inner wall of the extension parts, and the connecting plate at the bottom of the extension rod is welded with the connecting plate to facilitate height adjustment of the connecting plate through the extension part and the extension rod, the application range is improved, and the firmness of the aluminum template is improved by the reinforcing equipment which is connected to the bottoms of the first supporting cross rod and the second supporting cross rod through bolts;

in any of the above aspects, it is preferable that the gripping apparatus includes: the clamping rod is subjected to size adjustment, the application range is improved, the front part of the clamping rod is in bolted connection with a compression plate for compressing an aluminum template, the aluminum template is prevented from generating side pressure, the stability is improved, the outer wall of the clamping rod is in bolted connection with a fastening nut for fixing the clamping rod, the firmness is improved, the size of the clamping rod is adjusted by the adjusting nut, and the convenience in adjustment is improved;

in any of the above schemes, preferably, the outer wall of the telescopic tube is provided with a positioning hole, and the inner wall of the positioning hole is sleeved with a positioning bolt to fix the heights of the telescopic tube and the extension rod through the positioning bolt and the positioning hole, so that the firmness of the telescopic tube and the telescopic rod is improved;

in any of the above schemes, preferably, the first supporting cross rod comprises a hinge to facilitate folding of the first supporting cross rod and the second supporting cross rod, so that portability is improved, a fixing boss is welded at the front part of the first supporting cross rod and matched with the second supporting cross rod through the fixing boss, so that stability is improved, and the first supporting cross rod and the second supporting cross rod are fixed by a positioning stopping column sleeved on the supporting cross rod, so that firmness is improved;

in any scheme, preferably, a limiting groove is formed in the front of the second supporting cross rod and used for limiting the first supporting cross rod, stability is improved, a stop hole is formed in the outer wall of the extending portion, a stop bolt is sleeved on the inner wall of the stop hole and connected with the stop bolt through the stop hole, reliability of height fixing is improved, a bolt hole is formed in the surface of the connecting plate and used for being connected with a through hole of an aluminum template, and stability of a reinforcing structure is improved;

in any of the above schemes, preferably, the triangular rib plates are welded on the inner wall of the reinforcing equipment to provide supporting force through the triangular rib plates, the front part of the reinforcing equipment is in bolted connection with the reinforcing connecting rod to provide pulling force through the reinforcing connecting rod, so that the reinforcing reliability of the reinforcing equipment is improved, and the top of the reinforcing equipment is connected with the first supporting cross rod and the second supporting cross rod is connected with the telescopic sleeve to improve the fastening performance of the reinforcing structure;

compared with the prior art, the utility model has the beneficial effects that: the telescopic link and the telescopic tube conveniently follow the size of the aluminum mould plate and adjust, the application scope of the structure is improved, the clamping equipment is used for following the distance between the aluminum mould plates and adjusting the distance, the firmness of reinforcing equipment reinforcement is improved, the first supporting cross rod is hinged with the second supporting cross rod, the structure is convenient to fold, the portability of the structure is improved, the reinforcing equipment provides tightness for the first supporting cross rod and the second supporting cross rod and the telescopic tube, the firmness is improved, the structure is simple, and the maintenance is convenient.

Drawings

FIG. 1 is a block diagram of a preferred embodiment of the present invention;

FIG. 2 is a front view of a preferred embodiment of the present invention;

FIG. 3 is a left side view of a preferred embodiment of the present invention;

FIG. 4 is a cross-sectional view of a preferred embodiment of the present invention;

in the figure: the device comprises 1 telescopic rod, 2 clamping devices, 3 telescopic pipes, 4 reinforcing rib plates, 5 supporting cross rod I, 6 supporting cross rod II, 7 extending parts, 8 lengthening rods, 9 connecting plates, 10 reinforcing devices, 2-0 clamping rods, 2-1 pressing plates, 2-2 fastening nuts, 2-3 adjusting nuts, 3-0 positioning holes, 3-1 positioning bolts, 5-0 hinges, 5-1 fixing bosses, 5-2 stopping columns, 6-0 limiting grooves, 7-0 stopping holes, 7-1 stopping bolts, 10-0 triangular rib plates and 10-1 reinforcing connecting rods.

Detailed Description

Example (b):

referring to fig. 1 to 4, in the aluminum form reinforcing structure provided in this embodiment, a clamping device 2 pivotally connected to an inner wall of a telescopic rod 1 through the telescopic rod 1 provides clamping force to aluminum forms on both sides through the clamping device, so as to effectively prevent deformation, a telescopic tube 3 slidably connected to an outer wall of the telescopic rod 1 facilitates size adjustment through sliding connection of the telescopic tube and the telescopic rod, so as to increase a use range, a reinforcing rib plate 4 bolted to an outer wall of the telescopic tube 3, a first supporting cross bar 5 bolted to an inner wall of a top of the reinforcing rib plate 4 connects a first supporting cross bar and a second supporting cross bar to the telescopic tube through the reinforcing rib plate, so as to increase firmness, a second supporting cross bar 6 hinged to the first supporting cross bar 5 facilitates folding of the first supporting cross bar and the second supporting cross bar, so as to increase portability, an extension portion 7 is welded at bottoms of the first supporting cross bar 5 and the second supporting cross bar 6, extension bar 8 has been cup jointed to 7 inner walls of extension, and 8 welding in the bottom of extension bar have connecting plate 9 make things convenient for the connecting plate to carry out the altitude mixture control through extension and extension bar, have improved application range, and bolted connection has improved the fastness of aluminium template in the reinforcement equipment 10 that supports horizontal pole one 5 and support horizontal pole two 6 bottoms.

Further, the by-gripping apparatus 2 includes: the clamping rod 2-0 is subjected to size adjustment, the application range is improved, the pressing plate 2-1 is connected to the front portion of the clamping rod 2-0 through a bolt, the aluminum template is compressed, lateral pressure of the aluminum template is avoided, stability is improved, the fastening nut 2-2 is connected to the outer wall of the clamping rod 2-0 through a bolt, the clamping rod is fixed, firmness is improved, the size of the clamping rod is adjusted through the adjusting nut 2-3, and adjustment convenience is improved.

Furthermore, the outer wall of the telescopic sleeve 3 is provided with a positioning hole 3-0, the inner wall of the positioning hole 3-0 is sleeved with a positioning bolt 3-1, and the heights of the telescopic sleeve and the extension rod are fixed through the positioning bolt and the positioning hole, so that the firmness of the telescopic sleeve and the telescopic rod is improved.

Furthermore, the first supporting cross rod 5 comprises a hinge 5-0, so that the first supporting cross rod and the second supporting cross rod can be conveniently folded, the portability is improved, the fixing boss 5-1 welded to the front portion of the first supporting cross rod 5 is matched with the second supporting cross rod through the fixing boss, the stability is improved, the first supporting cross rod 5 is sleeved with the stopping post 5-2 to fix the first supporting cross rod and the second supporting cross rod, and the firmness is improved.

Furthermore, a limiting groove 6-0 is formed in the front portion of the second supporting cross rod 6 and used for limiting the first supporting cross rod, stability is improved, a stop hole 7-0 is formed in the outer wall of the extending portion 7, a stop bolt 7-1 is sleeved on the inner wall of the stop hole 7-0 and connected with the stop bolt through the stop hole, reliability of height fixing is improved, a bolt hole is formed in the surface of the connecting plate 9 and used for being connected with a through hole of an aluminum template, and stability of the reinforcing structure is improved.

Furthermore, a triangular rib plate 10-0 is welded on the inner wall of the reinforcing equipment 10 and provides supporting force through the triangular rib plate, a reinforcing connecting rod 10-1 is connected to the front portion of the reinforcing equipment 10 through a bolt and provides pulling force through the reinforcing connecting rod, the reinforcing reliability of the reinforcing equipment is improved, and the tightness of the reinforcing structure is improved as the top of the reinforcing equipment 10 is connected with the first supporting cross rod 5 and the second supporting cross rod 6 are connected with the telescopic sleeve 3.

When the aluminum formwork is used, the size of the aluminum formwork is well adjusted, the first supporting cross rod 5 and the second supporting cross rod 6 are opened through the hinge 5-0, then the fixing boss 5-1 is placed into the limiting groove 6-0 of the second supporting cross rod 6, the first supporting cross rod 5 and the second supporting cross rod 6 are fixed through the stop column 5-2, the heights of the telescopic rod 1 and the telescopic sleeve 2 are adjusted along with the size of the aluminum formwork, the compression plate 2-1 is screwed on the clamping rod 2-0, the clamping rod 2-0 is fixed through the fastening nut 2-2, the size of the clamping rod 2-0 is adjusted through the adjusting nut 2-3 to drive the compression plate 2-1 to be connected with the aluminum formwork, the sizes of the extension part 7 and the extension rod 8 are adjusted through the stop hole 7-0 and the stop bolt 7-1, and then the connecting plate 9 is bolted with the aluminum formwork through the extension rod 8, then, the reinforcing equipment is used for supporting the first cross rod 5, the second cross rod 6 and the telescopic sleeve to provide support, and concrete is poured into the aluminum template so that building forming can be conducted.

The above are merely preferred embodiments of the present invention; the scope of the utility model is not limited thereto. Any person skilled in the art should be able to cover the technical scope of the present invention by equivalent or modified solutions and modifications within the technical scope of the present invention.

Claims (6)

1. The utility model provides an aluminum mould board reinforced structure which characterized in that: the method comprises the following steps: telescopic link (1), the pivot connect in clamping equipment (2) of telescopic link (1) inner wall, sliding connection in telescopic link (1) outer wall's telescopic tube (3), bolted connection in reinforcing floor (4) of telescopic tube (3) outer wall, bolted connection in the support horizontal pole one (5) of reinforcing floor (4) top inner wall, the hinge connect in support horizontal pole two (6) of horizontal pole one (5), support horizontal pole one (5) and support the welding of horizontal pole two (6) bottom and have extension (7), extension (7) inner wall has cup jointed extension bar (8), the welding of extension bar (8) bottom has connecting plate (9), bolted connection in support horizontal pole one (5) and support reinforcement equipment (10) of horizontal pole two (6) bottoms.

2. The aluminum formwork reinforcing structure according to claim 1, characterized in that: the gripping device (2) comprises: the clamping device comprises a clamping rod (2-0), wherein the front part of the clamping rod (2-0) is in bolted connection with a pressing plate (2-1), and the outer wall of the clamping rod (2-0) is in bolted connection with a fastening nut (2-2) and an adjusting nut (2-3).

3. The aluminum formwork reinforcing structure according to claim 1, characterized in that: the outer wall of the telescopic sleeve (3) is provided with a positioning hole (3-0), and the inner wall of the positioning hole (3-0) is sleeved with a positioning bolt (3-1).

4. The aluminum formwork reinforcing structure according to claim 1, characterized in that: the supporting cross rod I (5) comprises a hinge (5-0), a fixed boss (5-1) is welded at the front part of the supporting cross rod I (5), and the supporting cross rod I (5) is sleeved with a stop column (5-2).

5. The aluminum formwork reinforcing structure according to claim 1, characterized in that: the front part of the second support cross rod (6) is provided with a limiting groove (6-0), the outer wall of the extension part (7) is provided with a stop hole (7-0), the inner wall of the stop hole (7-0) is sleeved with a stop bolt (7-1), and the surface of the connecting plate (9) is provided with a bolt hole.

6. The aluminum formwork reinforcing structure according to claim 1, characterized in that: the reinforcing equipment is characterized in that triangular rib plates (10-0) are welded on the inner wall of the reinforcing equipment (10), a reinforcing connecting rod (10-1) is connected to the front portion of the reinforcing equipment (10) through bolts, and the top of the reinforcing equipment (10) is connected with the first supporting cross rod (5) and the second supporting cross rod (6) and the telescopic sleeve (3).

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