CN217537008U - Entity bank protection construction equipment - Google Patents

Abstract

The utility model provides an entity slope protection construction device, wherein an entity slope protection construction tool comprises an entity slope protection side formwork structure, which is arranged along the side slope line of an entity slope protection, and a pouring space of the slope protection is formed inside the entity slope protection construction tool; entity bank protection face mould structure covers the setting and is in the space of pouring that entity bank protection side forms structure formed to can slide on entity bank protection side forms structure. The utility model discloses a combination is assembled with the steel sheet to the channel-section steel, increases template self weight, relies on self weight to resist buoyancy and the load of vibrating when the concrete is pour, and entity bank protection both sides adopt with bank protection channel-section steel of thickness such as, guarantee the design thickness of entity bank protection. Meanwhile, in order to improve the working efficiency, the winch is matched with the assembled steel template, the channel steel on the two sides is used as a sliding rail, concrete is poured while sliding, the solid slope protection plate can be formed by pouring at one time, construction joints are not needed, and a large number of construction periods and manpower are saved while the appearance quality is improved.

Description

Solid slope protection construction device

technical field

The utility model relates to the technical field of slope protection construction, in particular to a solid slope protection construction device.

Background technique

The traditional slope protection construction often adopts the following process: Step 1: Anchor steel bars on the slope as a formwork fulcrum; Step 2: Install and reinforce the formwork; Step 3: Concrete pouring and curing; Step 4: Demolition formwork, and proceed to the next formwork construction.

In this method, the solid slope protection of each slab needs to be constructed in layers, and construction joints need to be set up, which is not as good as the overall one-time pouring, and at the same time, the construction speed is slow, the construction period is long, and the labor cost is high. In addition, there is the problem that the formwork floats up when the concrete is poured, and the appearance quality is difficult to guarantee. And because the solid slope is on the fill slope, the formwork is extremely difficult to fix on the slope, and more steel bars need to be anchored in the slope, which wastes materials; when using wooden formwork, if the reinforcement is not good, the concrete is easily deformed during pouring. , affecting the appearance quality. When pouring concrete, the buoyancy of the concrete and the vibration load of the vibrating rod can easily cause the formwork to float up, and the construction quality cannot be guaranteed. If the steel pipe frame is used to build the construction platform on the side slope, more materials will be input, which is not economical, and when the side slope is high, there will be a greater safety hazard.

Utility model content

The utility model aims to solve at least one of the technical problems existing in the prior art.

To this end, the first aspect of the present utility model provides a solid slope protection construction device.

A second aspect of the present utility model provides a construction process of a solid slope protection construction device.

The utility model provides a solid slope protection construction device, comprising:

The solid slope protection side formwork structure is set along the slope line of the solid slope protection, and the pouring space of the slope protection is formed inside it;

The solid slope protection surface formwork structure covers the pouring space formed by the solid slope protection side formwork structure and can slide on the solid slope protection side formwork structure.

The solid slope protection construction device proposed by the utility model includes a solid slope protection side formwork structure and a solid slope protection surface formwork structure. The solid slope protection side formwork structure is installed on the side slope and arranged oppositely, so it can form the pouring space of the slope, and the solid slope protection surface formwork structure covers the pouring space, so it is only necessary to pour concrete in the pouring space, and no other installation is required. The pouring process of the slope protection can be completed by the structure. In addition, the solid slope protection surface mold structure can slide on the solid slope protection side mold structure, so after a part of the slope protection molding is completed, the solid slope protection surface mold structure can be pulled to slide up to form the pouring space for the next slope protection. The utility model can ensure that the one-time pouring of the slope protection can be completed without setting construction joints, and the construction quality and efficiency of the slope protection can be ensured.

The solid slope protection construction device according to the above technical solutions of the present utility model can also have the following additional technical features:

In the above technical solution, the solid slope protection surface formwork structure includes:

skeleton;

A face die steel plate, arranged on the bottom end face of the skeleton;

The first angle steel is arranged on the top end face of the skeleton to form a triangular structure with the skeleton;

The platform steel plate is arranged on one side of the first angle steel to form an operation platform.

In this technical solution, the solid slope protection face formwork structure includes a skeleton, a face formwork steel plate, a first angle steel and a platform steel plate. The skeleton is used to provide installation stations for other structures and increase the weight of the solid slope protection surface formwork structure, which can prevent the formwork from floating, so as to rely on its own gravity to resist the buoyancy and vibration load during concrete pouring, and ensure the formwork during pouring and vibrating concrete. No floating, appearance and quality are guaranteed. The face form plate is used to cover the pouring space to ensure the surface quality of the slope protection after forming. In addition, the face formwork steel plate can further increase the weight of the solid slope protection face formwork structure, thereby ensuring the construction quality. The first angle steel is connected to the top end face of the skeleton, and the skeleton forms a triangular structure to ensure the stability of the skeleton during sliding. The platform steel plate is used to form the operation platform. After the solid slope protection surface formwork structure is installed, the solid slope protection surface formwork structure is inclined along the slope protection direction, so the operation platform can be close to the level, which is convenient for construction personnel to carry out construction operations on the operation platform.

In the above technical solution, the skeleton is composed of a first steel groove and a second steel groove, and the first steel groove and the second steel groove are connected to each other and form a structure perpendicular to each other.

In this technical solution, the first steel groove and the second steel groove constitute the overall structure of the skeleton, and the steel material can increase the weight of the skeleton, thereby avoiding the floating of the formwork, and further ensuring the molding quality of the slope protection. In addition, in order to further increase the weight of the face form itself and better ensure that the formwork does not float up during pouring and vibrating, the steel mesh can be bound in the blank area between the first steel groove and the second steel groove.

In the above technical solution, it also includes:

The hoisting ring is arranged on the first steel groove and is used as a hoisting connection structure for installing the solid slope protection surface formwork structure.

In this technical solution, the hoisting ring can be connected to the hoisting device when installing the solid slope protection surface formwork structure. The number of hoisting rings can be four, and they are arranged around the frame, so as to ensure the stability of the hoisting process.

In the above technical solution, it also includes:

The pull ring is arranged on the second steel groove and is used as a connecting structure when the solid slope protection surface formwork structure is installed to slide up.

In this technical solution, after the solid slope protection surface formwork structure is installed on the solid slope protection side formwork structure and after the first concrete pouring is completed, the pull ring can be connected to the driving device to ensure the sliding of the solid slope protection surface formwork structure. In addition, the number of pull tabs may be four, and they may be arranged around the skeleton.

In the above technical solution, it also includes:

The driving device is arranged on the flat ground of the slope protection, and is connected with the pull ring through a steel wire rope to drive the solid slope protection surface mold structure to slide up.

In this technical solution, the driving device can be a hoist, and the hoist is connected with the solid slope protection surface formwork structure through the wire rope, and the driving solid slope protection surface formwork structure is slid.

In the above technical solution, the solid slope protection side formwork structure includes:

Channel steel side die;

Part of the second angle steel is supported and connected in the steel channel of the channel steel side mold, and the other part is connected with the slope ground through the connecting piece.

In this technical solution, the solid slope protection side formwork structure includes a channel steel sideform and a second angle steel. The channel steel side mold has a channel structure and forms a wing plate. One side of the second angle steel is supported and connected to the tank body, and the other side is directly connected to the slope, so as to ensure that the channel steel side mold will not be displaced during the pouring process, and further ensure the molding quality of the slope protection.

In the above technical solution, the second angle steel is formed with an installation hole, the connecting piece is an anchoring steel bar, and the anchoring steel bar passes through the installation hole to fix the solid slope protection side formwork structure on the slope.

In this technical solution, the second angle steel is fixed on the slope through the anchoring steel bar, thereby ensuring the stability of the channel steel side form.

The utility model also provides a construction process of a solid slope protection construction device, which applies the solid slope protection construction device described in any one of the above technical solutions, and is characterized in that, it includes the following steps:

Assemble the solid slope protection surface formwork structure;

Assemble the solid slope protection side formwork structure;

Install the solid slope protection side formwork structure on the slope;

The solid slope protection surface formwork structure is hoisted to the solid slope protection side formwork structure, and the solid slope protection surface formwork structure is connected to the hoist;

After the first concrete is poured and vibrated, the winch is started, and the solid slope protection surface formwork relies on the wing plate of the channel steel side form as the sliding track to slide up, slide to the position of the next form, and continue to pour and vibrate the concrete. Repeat this until the slab solid slope is poured to the design level.

Compared with the prior art, the solid slope protection construction device proposed by the utility model has the following beneficial effects:

The utility model adopts channel steel and steel plate to assemble and combine to increase the weight of the formwork itself, relying on its own weight to resist the buoyancy and vibration load during concrete pouring, and the channel steel with the same thickness as the slope protection is used on both sides of the solid slope protection to ensure the design of the solid slope protection. thickness.

At the same time, in order to improve work efficiency, the hoist is used to cooperate with the assembled steel formwork, and the channel steel on both sides is used as the sliding track, and the concrete is poured while sliding. While improving the appearance quality, it also saves a lot of construction time and labor.

Additional aspects and advantages of the present invention will become apparent in the following section of the description, or learned by practice of the present invention.

Description of drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily understood from the following description of embodiments in conjunction with the accompanying drawings, wherein:

Fig. 1 is the structural drawing of the solid slope protection construction device of the present utility model;

2 is a cross-sectional view of a solid slope protection surface formwork structure in the solid slope protection construction device of the present utility model;

3 is a top view of the solid slope protection surface formwork structure in the solid slope protection construction device of the present utility model;

4 is a structural diagram of the solid slope protection side formwork structure in the solid slope protection construction device of the present invention.

Wherein, the corresponding relationship between the reference numerals and the component names in Fig. 1 to Fig. 4 is:

1. Solid slope protection side formwork structure; 11. Channel steel side formwork; 12. Second angle steel; 13. Anchor steel bars; 2. Solid slope protection surface formwork structure; 21. Skeleton; groove; 22, face die steel plate; 23, first angle steel; 24, platform steel plate; 25, hoisting ring; 26, pull ring; 3, driving device.

Detailed ways

In order to be able to understand the above-mentioned objects, features and advantages of the present invention more clearly, the present invention will be further described in detail below with reference to the accompanying drawings and specific embodiments. It should be noted that the embodiments of the present application and the features in the embodiments may be combined with each other in the case of no conflict.

In the following description, many specific details are set forth in order to fully understand the present utility model. However, the present utility model can also be implemented in other ways different from those described herein. Therefore, the protection scope of the present utility model is not subject to the following disclosure. The limitations of the specific embodiment.

The solid slope protection construction device provided according to some embodiments of the present invention will be described below with reference to FIG. 1 to FIG. 4 .

Some embodiments of the present application provide a solid slope protection construction device.

As shown in Figures 1 to 4, the first embodiment of the present utility model proposes a solid slope protection construction device, including:

The solid slope protection side formwork structure 1 is set along the slope line of the solid slope protection, and the pouring space of the slope protection is formed inside it;

The solid slope protection surface formwork structure 2 covers the pouring space formed by the solid slope protection side formwork structure 1 and can slide on the solid slope protection side formwork structure 1 .

The solid slope protection construction device proposed by the utility model includes a solid slope protection side formwork structure 1 and a solid slope protection surface formwork structure 2 . The solid slope protection side formwork structure 1 is installed on the side slope and is arranged relative to each other, so it can form a pouring space for the slope, and the solid slope protection surface formwork structure 2 covers the pouring space, so it is only necessary to pour concrete in the pouring space, without the need for Set other structures to complete the pouring process of the slope protection. In addition, the solid slope protection surface mold structure 2 can slide on the solid slope protection side mold structure 1, so after a part of the slope protection molding is completed, the solid slope protection surface mold structure 2 can be pulled to slide up to form the pouring space for the next slope protection. The utility model can ensure that the one-time pouring of the slope protection can be completed without setting construction joints, and the construction quality and efficiency of the slope protection can be ensured.

The second embodiment of the present utility model proposes a solid slope protection construction device, and on the basis of the first embodiment, the solid slope protection surface formwork structure 2 includes:

skeleton 21;

The face plate 22 is arranged on the bottom end face of the frame 21;

The first angle steel 23 is arranged on the top end face of the frame 21 to form a triangular structure with the frame 21;

The platform steel plate 24 is arranged on one side of the first angle steel 23 to form an operation platform.

In this embodiment, the solid slope protection face formwork structure 2 includes a frame 21 , a face formwork steel plate 22 , a first angle steel 23 and a platform steel plate 24 . The skeleton 21 is used to provide installation stations for other structures and increase the weight of the solid slope protection surface formwork structure 2, which can prevent the formwork from floating up, so as to rely on its own gravity to resist the buoyancy and vibration load during concrete pouring, and ensure the pouring and vibrating concrete. When the template does not float, the appearance and quality are guaranteed. The face plate 22 is used to cover the pouring space to ensure the surface quality after the slope protection is formed. In addition, the face formwork steel plate 22 can further increase the weight of the solid slope protection face formwork structure 2, thereby ensuring the construction quality. The first angle steel 23 is connected to the top end face of the frame 21, and the frame 21 forms a triangular structure, thereby ensuring the stability of the frame 21 when sliding. The platform steel plate 24 is used to form the operation platform. After the solid slope protection surface formwork structure 2 is installed, the solid slope protection surface formwork structure 2 is inclined along the slope protection direction, so the operation platform can be close to the level, which is convenient for construction personnel to carry out construction operations on the operation platform. .

The third embodiment of the present invention proposes a solid slope protection construction device, and on the basis of any of the above embodiments, the skeleton 21 is composed of a first steel groove 211 and a second steel groove 212. The steel grooves 211 and the second steel grooves 212 are connected to each other and form a mutually perpendicular structure.

In this embodiment, the first steel channel 211 and the second steel channel 212 constitute the overall structure of the skeleton 21, and the use of steel material can increase the weight of the skeleton 21, thereby avoiding the floating of the formwork, and further ensuring the slope protection. Molding quality. In addition, in order to further increase the weight of the face form itself and better ensure that the formwork does not float up during pouring and vibrating, the steel mesh can be bound in the blank area between the first steel groove 211 and the second steel groove 212 .

The fourth embodiment of the present utility model proposes a solid slope protection construction device, and on the basis of any of the above-mentioned embodiments, it also includes:

The hoisting ring 25 is arranged on the first steel groove 211 as a hoisting connection structure for installing the solid slope protection surface formwork structure 2 .

In this embodiment, the hoisting ring 25 can be connected to a hoisting device when installing the solid slope protection surface formwork structure 2 . The number of hoisting rings 25 can be four, and they are arranged around the frame 21 to ensure the stability of the hoisting process.

The fifth embodiment of the present utility model proposes a solid slope protection construction device, and on the basis of any of the above-mentioned embodiments, it also includes:

The pull ring 26 is arranged on the second steel groove 212 to serve as a connecting structure when the solid slope protection surface formwork structure 2 is installed to slide up.

In this embodiment, after the solid slope protection surface formwork structure 2 is installed on the solid slope protection side formwork structure 1 and after the first concrete pouring is completed, the pull ring 26 is connected to the driving device 3 to ensure the sliding of the solid slope protection surface formwork structure 2 . Lift. In addition, the number of pull rings 26 may be four, and they are arranged around the frame 21 .

The sixth embodiment of the present utility model proposes a solid slope protection construction device, and on the basis of any of the above embodiments, it also includes:

The driving device 3 is arranged on the flat ground of the slope protection, and is connected with the pull ring 26 through the steel wire rope, so as to drive the solid slope protection surface mold structure 2 to slide up.

In this embodiment, the driving device 3 can be a hoist, and the hoist is connected with the solid slope protection surface formwork structure 2 through a wire rope, and the driving solid slope protection surface formwork structure 2 is slid.

The seventh embodiment of the present utility model proposes a solid slope protection construction device, and on the basis of any of the above embodiments, the solid slope protection side formwork structure 1 includes:

Channel steel side die 11;

A part of the second angle steel 12 is supported and connected in the steel channel of the channel steel side mold 11, and a part is connected with the slope ground through the connecting piece.

In this embodiment, the solid slope protection side mold structure 1 includes a channel steel side mold 11 and a second angle steel 12 . The channel steel side mold 11 has a channel structure and forms a wing plate. One side of the second angle steel 12 is supported and connected to the tank body, and the other side is directly connected to the slope, so as to ensure that the channel steel side mold 11 will not be displaced during the pouring process, further ensuring the molding quality of the slope protection.

The eighth embodiment of the present utility model proposes a solid slope protection construction device, and on the basis of any of the above embodiments, the second angle steel 12 is formed with an installation hole, the connecting piece is an anchoring steel bar 13, and the Anchoring steel bars 13 pass through the mounting holes to fix the solid slope protection side formwork structure 1 on the slope.

In this embodiment, the second angle steel 12 is fixed on the side slope through the anchoring steel bar 13 , thereby ensuring the stability of the channel steel side mold 11 .

The ninth embodiment of the present utility model proposes a construction process of a solid slope protection construction device, applying the solid slope protection construction device as described in any one of the above technical solutions, which is characterized in that it includes the following steps:

Assemble the solid slope protection surface formwork structure;

Assemble the solid slope protection side formwork structure;

Install the solid slope protection side formwork structure on the slope;

The solid slope protection surface formwork structure is hoisted to the solid slope protection side formwork structure, and the solid slope protection surface formwork structure is connected to the hoist;

After the first concrete is poured and vibrated, the winch is started, and the solid slope protection surface formwork relies on the wing plate of the channel steel side form as the sliding track to slide up, slide to the position of the next form, and continue to pour and vibrate the concrete. Repeat this until the slab solid slope is poured to the design level.

Among them, small slump concrete is used during pouring (small slump concrete can be set after pouring and vibrating, even if the formwork slides upward, there is no need to worry about the concrete being scattered without formwork), and the concrete below is poured. After the vibration is completed, the hoist can be started to lift the formwork, and so on and so forth until the pouring reaches the design elevation.

In this specification, schematic representations of the above terms do not necessarily refer to the same embodiment or instance. Furthermore, the particular features, structures, materials or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention shall be included in the protection scope of the present invention.

Claims (8)

1. a solid slope protection construction device, is characterized in that, comprises: The solid slope protection side formwork structure (1) is arranged along the side slope line of the solid slope protection, and the pouring space of the slope protection is formed inside it; The solid slope protection surface formwork structure (2) covers the pouring space formed by the solid slope protection side formwork structure (1), and can slide on the solid slope protection side formwork structure (1). 2. The solid slope protection construction device according to claim 1, wherein the solid slope protection surface formwork structure (2) comprises: skeleton (21); A face die steel plate (22) is arranged on the bottom end face of the skeleton (21); The first angle steel (23) is arranged on the top end face of the frame (21) to form a triangular structure with the frame (21); A platform steel plate (24) is arranged on one side of the first angle steel (23) to form an operation platform. 3 . The solid slope protection construction device according to claim 2 , wherein the skeleton ( 21 ) is composed of a first steel groove ( 211 ) and a second steel groove ( 212 ), and the first steel groove ( 211 ). ) and the second steel channel (212) are connected to each other and form a mutually perpendicular structure. 4. The solid slope protection construction device according to claim 3, is characterized in that, also comprises: A hoisting ring (25) is arranged on the first steel groove (211) to serve as a hoisting connection structure for installing the solid slope protection surface formwork structure (2). 5. The solid slope protection construction device according to claim 4, characterized in that, further comprising: A pull ring (26) is arranged on the second steel groove (212) to serve as a connection structure when the solid slope protection surface formwork structure (2) is installed to slide up. 6. The solid slope protection construction device according to claim 5, characterized in that, further comprising: A driving device (3) is provided on the flat ground of the slope protection, and is connected with the pull ring (26) through a wire rope to drive the solid slope protection surface mold structure (2) to slide up. 7. The solid slope protection construction device according to claim 6, wherein the solid slope protection side formwork structure (1) comprises: Channel steel side die (11); A part of the second angle steel (12) is supported and connected in the steel channel of the channel steel side mold (11), and a part is connected with the slope ground through the connecting piece. 8 . The solid slope protection construction device according to claim 7 , wherein the second angle steel ( 12 ) is formed with a mounting hole, the connecting piece is an anchoring steel bar (13 ), and the anchoring steel bar (13 ) passes through the Through the installation hole, the solid slope protection side formwork structure (1) is fixed on the side slope.

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