CN221219709U - Cast-in-situ tooling based on concrete - Google Patents

Abstract

The utility model provides a concrete-based cast-in-situ tooling, which comprises a body plate, a support frame horizontally and parallelly arranged on the body plate, a limiting cylinder arranged on the body plate, and a locking mechanism arranged on the limiting cylinder, wherein a plurality of limiting holes are formed in the body plate, and a part of the limiting holes are communicated with the inner wall of the limiting cylinder. The cylinder concrete pouring tool comprises the locking mechanism, wherein the locking mechanism can fix the positions of the steel bars before pouring and limit the positions of the pouring tool to a certain extent, so that cylinders which are in corresponding shapes and in which the steel bars are properly distributed can be formed, and the poured cylinders have enough strength and can be used as a framework structure of a fence.

Description

Cast-in-situ tooling based on concrete

Technical Field

The utility model belongs to the technical field of buildings, and relates to a cast-in-situ tool based on concrete.

Background

The column body is a framework structure in a building, such as an assembled enclosing wall, and consists of a plurality of columns which are arranged at intervals and a plurality of plate bodies positioned among the columns, wherein the column body is a structure for bearing wind load, and the column body needs to have enough strength, so that the column body is usually formed by pouring reinforced concrete, and the existing construction lacks a reliable pouring tool which can pour the column body with a corresponding shape and ensure the proper distribution of reinforcing steel bars in the column body.

Disclosure of utility model

The utility model aims to provide a cast-in-place tool based on concrete, and aims to solve the problem of lack of a reliable casting tool capable of casting a cylinder with a corresponding shape and ensuring proper distribution of reinforcing steel bars in the casting tool.

In order to solve the technical problems, the utility model provides a concrete-based cast-in-situ tooling, which comprises a body plate, a support frame horizontally and parallelly arranged on the body plate, a limiting cylinder arranged on the body plate, and a locking mechanism arranged on the limiting cylinder, wherein a plurality of limiting holes are formed in the body plate, and a part of the limiting holes are communicated with the inner wall of the limiting cylinder.

The locking mechanism further comprises a locking hole, a locking nut and a locking screw rod, wherein the locking hole and the locking nut are formed in the side part of the limiting cylinder, the locking screw rod is connected with the locking nut in a threaded mode, and the end part of the locking screw rod movably penetrates through the locking nut and the locking hole and then is located in the limiting cylinder.

The utility model discloses a height-adjustable screw cap, including a height-adjustable screw cap, a spacing section of thick bamboo is provided with the screw cap, still set up to, spacing section of thick bamboo is provided with four, four spacing section of thick bamboo is the rectangle distribution, the top of spacing section of thick bamboo is provided with the height-adjustable screw cap, still include with height-adjustable screw rod that height-adjustable screw cap screw thread links to each other, height-adjustable screw rod activity passes be located behind the height-adjustable screw cap spacing section of thick bamboo.

Further, a forming plate is arranged at the bottom of the body plate, and the projection of the forming plate in the vertical direction is located in the projection of the body plate in the vertical direction.

Further, a molding block is arranged at the bottom of the molding plate.

The vertical section of the support frame is L-shaped.

The four side plates of the body plate are respectively provided with a narrow plate, and the side parts of the four narrow plates are connected in pairs.

And the middle parts of the tops of the four narrow plates are provided with comparison grooves.

The connecting screw rod is arranged in the middle of the supporting frame, is connected with the connecting screw nut in a threaded mode, and is connected with the connecting screw nut in a threaded mode after penetrating through the first connecting hole and the second connecting hole.

Compared with the prior art, the utility model has the beneficial effects that:

The utility model provides a concrete-based cast-in-place tool which comprises a body plate, a support frame, a limiting cylinder and a locking mechanism, wherein the locking mechanism can fix the positions of reinforcing steel bars before casting and limit the casting tool to a certain degree, so that cylinders with corresponding shapes and proper distribution of the reinforcing steel bars in the cylinders can be formed, and the cast cylinders have enough strength and can be used as a framework structure of a fence.

Drawings

FIG. 1 is a schematic diagram of one embodiment of a concrete-based cast-in-place tooling of the present utility model;

FIG. 2 is a schematic diagram of a second embodiment of a concrete-based cast-in-place tooling of the present utility model;

FIG. 3 is a cross-sectional view of one embodiment of a concrete-based cast-in-place tooling of the present utility model.

1, A body plate; 2. a support frame; 3. a limiting cylinder; 4. a limiting hole; 5. a locking mechanism; 5a, locking holes; 5b, locking the nut; 5c, locking the screw; 6. a heightening nut; 7. height-adjusting screw rods; 8. forming a plate; 9. molding blocks; 10. a narrow plate; 11. a comparison groove; 12. a first connection hole; 13. a second connection hole; 14. a connecting screw; 15. and (5) connecting the screw cap.

Detailed Description

The concrete-based cast-in-place tool according to the present utility model will be described in further detail with reference to the accompanying drawings and specific examples. The advantages and features of the present utility model will become more apparent from the following description. It should be noted that the drawings are in a very simplified form and are all to a non-precise scale, merely for convenience and clarity in aiding in the description of embodiments of the utility model. The same or similar reference numbers in the drawings refer to the same or similar parts.

The utility model provides a concrete-based cast-in-place tool, which comprises a body plate 1, a support frame 2 horizontally and parallelly arranged on the body plate 1, a limiting cylinder 3 arranged on the body plate 1, wherein a plurality of limiting holes 4 are formed in the body plate 1, a part of the limiting holes 4 are communicated with the inner wall of the limiting cylinder 3, and a locking mechanism 5 arranged on the limiting cylinder 3 is further included.

The using method comprises the following steps: when pouring, the wooden plates are used in advance to enclose the coaming with rectangular cross section, then two ends of the two supporting frames 2 are respectively lapped on two opposite sides of the coaming, thus, a pouring tool is placed at the top of the coaming, then a reinforcing steel bar or an L-shaped pipeline (which is formed in a cylinder after pouring and is convenient for electric wiring) passes through the limiting hole 4, the top end of a part of reinforcing steel bar stretches into the limiting cylinder 3, the locking mechanism 5 is correspondingly operated, the reinforcing steel bar can stretch into the end of the limiting cylinder 3 to fix, the position of the reinforcing steel bar is fixed, the reinforcing steel bar fixed by the locking mechanism 5 and the pouring tool form a whole, the reinforcing steel bar is in a vertical and upright state, the pouring tool is in a horizontal placement state, and the vertical and fixed reinforcing steel bar can play a certain supporting and limiting role on the pouring tool in the vertical direction, so that the pouring tool is prevented from being inclined by applying lateral force on the reinforcing steel bar which only passes through the limiting hole 4, after that concrete is poured into the coaming, the cylinder is solidified, and the reinforcing steel bar is formed into a corresponding shape, and the reinforcing steel bar with proper distribution can be used as a skeleton of the skeleton. By using the tool, the steel bars can be positioned in advance, and the operation is simple and convenient.

Referring to fig. 3, the locking mechanism 5 includes a locking hole 5a and a locking nut 5b which are formed on the side of the limiting cylinder 3, and a locking screw 5c which is connected with the locking nut 5b by screw threads, wherein the end of the locking screw 5c movably passes through the locking nut 5b and the locking hole 5a and then is located in the limiting cylinder 3, when in use, after a steel bar enters the limiting cylinder 3, and when the height of the steel bar is proper, the locking screw 5c is screwed, the locking screw 5c moves gradually horizontally until contacting the steel bar, and when continuing to move, the locking screw abuts against the steel bar, and the steel bar is fixed on a pouring tool.

Referring to fig. 1, the limiting cylinders 3 are provided with four, four limiting cylinders 3 are in rectangular distribution, the tops of the limiting cylinders 3 are provided with height-adjusting nuts 6, the height-adjusting screws 7 connected with the height-adjusting nuts 6 in a threaded mode are further included, the height-adjusting screws 7 movably penetrate through the height-adjusting nuts 6 and then are located in the limiting cylinders 3, when the steel bars extend into the limiting cylinders 3, the tops of the steel bars are in contact with the bottoms of the height-adjusting screws 7 in a radial direction, the height of the height-adjusting screws 7 is changed, the heights of corresponding steel bars are also changed, and at the moment, preliminary judgment is conducted by observing the heights of the height-adjusting screws 7 on the height-adjusting nuts 6, so that the steel bars in the four limiting cylinders 3 are adjusted to be at the same height.

Referring to fig. 2, a forming plate 8 is disposed at the bottom of the body plate 1, and a projection of the forming plate 8 in the vertical direction is located within a projection of the body plate 1 in the vertical direction, so that after casting, a step shape matching with the shape of the forming plate 8 is formed.

Referring to fig. 2, a molding block 9 is disposed at the bottom of the molding plate 8, after pouring, a groove matching the molding block 9 is formed at the top of the column, so that when a wind-resistant column or other structure is installed above the column, a protrusion matched with the groove can be disposed at the bottom of the wind-resistant column or other structure, and when the wind-resistant column or other structure bears lateral shearing force, the shearing force can be distributed to the column through the structure of the protrusion and the groove, so that the whole structure is more stressed.

Referring to fig. 1, the longitudinal section of the support frame 2 is L-shaped, and the L-shaped support frame 2 has a larger strength and is not easy to deform, so that the support frame 2 can stably play a role in supporting the pouring tool.

Referring to fig. 1, the four side plates of the body plate 1 are provided with narrow plates 10, and the sides of the four narrow plates 10 are connected in pairs, so that the strength of the body plate 1 can be improved by the narrow plates 10, and the body plate 1 is less prone to deformation.

Referring to fig. 1, the middle of the top of each of the four narrow plates 10 is provided with a comparison groove 11, and the comparison grooves 11 can assist in the horizontal and longitudinal alignment of the pouring fixture, and the alignment is not precise alignment, and specifically, the practical operation is as follows: a long line is pulled in the middle of the top of a plurality of coamings, the contact part between the long line and the top of the coamings is marked, the top of each coaming is provided with two marks, then a linear bar is used for being placed at the two marks, then whether two comparison grooves 11 are right opposite to the linear bar (whether two points are on the same straight line) or not is seen from the top, the transverse position of the pouring tool in the horizontal direction is correspondingly adjusted, the middle part of the linear bar is marked, whether the other two comparison grooves 11 are right opposite to the middle part of the linear bar (whether three points are in a straight line) or not is seen from the side, and the longitudinal position of the pouring tool in the horizontal direction is correspondingly adjusted.

Referring to fig. 1 and 2, two first connecting holes 12 are formed in the middle of the support frame 2, four second connecting holes 13 are correspondingly formed in the body plate 1, the support frame further comprises a connecting screw 14 and a connecting nut 15, and the connecting screw 14 passes through the first connecting holes 12 and the second connecting holes 13 and then is connected with the connecting nut 15 through threads, so that separable connection between the support frame 2 and the body plate 1 can be achieved.

The above description is only illustrative of the preferred embodiments of the present utility model and is not intended to limit the scope of the present utility model, and any alterations and modifications made by those skilled in the art based on the above disclosure shall fall within the scope of the appended claims.

Claims (9)

1. The utility model provides a cast-in-situ frock based on concrete, its characterized in that, including body board (1), level and parallel set up in support frame (2) on body board (1) and set up in spacing section of thick bamboo (3) on body board (1), a plurality of spacing holes (4) have been seted up on body board (1), a portion spacing hole (4) with the inner wall of spacing section of thick bamboo (3) is linked together, still including setting up locking mechanical system (5) on spacing section of thick bamboo (3).

2. The concrete-based cast-in-place tooling according to claim 1, wherein the locking mechanism (5) comprises a locking hole (5 a) formed in the side part of the limiting cylinder (3), a locking screw cap (5 b) and a locking screw rod (5 c) connected with the locking screw cap (5 b) in a threaded manner, and the end part of the locking screw rod (5 c) movably penetrates through the locking screw cap (5 b) and the locking hole (5 a) and is positioned in the limiting cylinder (3).

3. The concrete-based cast-in-place tooling according to claim 1 or 2, wherein four limiting cylinders (3) are arranged, the four limiting cylinders (3) are distributed in a rectangular shape, a height-adjusting screw cap (6) is arranged at the top of each limiting cylinder (3), the concrete-based cast-in-place tooling further comprises a height-adjusting screw (7) which is connected with the height-adjusting screw cap (6) in a threaded mode, and the height-adjusting screw (7) movably penetrates through the height-adjusting screw cap (6) and then is located in the limiting cylinder (3).

4. The concrete-based cast-in-place tooling according to claim 1, characterized in that the bottom of the body plate (1) is provided with a forming plate (8), the projection of the forming plate (8) in the vertical direction being located within the projection of the body plate (1) in the vertical direction.

5. The concrete-based cast-in-place tooling according to claim 4, wherein the bottom of the forming plate (8) is provided with forming blocks (9).

6. The concrete-based cast-in-place tooling according to claim 1, wherein the longitudinal section of the support frame (2) is L-shaped.

7. The concrete-based cast-in-place tooling according to claim 1, wherein the four side plates of the body plate (1) are provided with narrow plates (10), and the side parts of the four narrow plates (10) are connected in pairs.

8. The concrete-based cast-in-place tooling according to claim 7, wherein the middle of the top of the four narrow plates (10) is provided with a comparison groove (11).

9. The concrete-based cast-in-place tooling according to claim 1, wherein two first connecting holes (12) are respectively formed in the middle of the support frame (2), four second connecting holes (13) are correspondingly formed in the body plate (1), the concrete-based cast-in-place tooling further comprises connecting screws (14) and connecting nuts (15), and the connecting screws (14) penetrate through the first connecting holes (12) and the second connecting holes (13) and then are connected with the connecting nuts (15) in a threaded mode.