阅读说明：本技术 一种沉井构造及沉井施工方法 (Open caisson structure and open caisson construction method ) 是由 刘福林 张怀玉 申川 夏伟国 于 2020-08-26 设计创作，主要内容包括：本发明公开了一种沉井构造及沉井施工方法,属于建筑技术领域,包括沉井本体,沉井本体的下部为刃脚,其特征在于：所述刃脚内圆周面为斜面,所述沉井本体的内侧周向均布有若干支压块体,所述支压块体块的下部为楔形面,所述支压块体的上部为承托平面,所述承托平面上设置有配重块。支压块体可增大沉井本体的下沉阻力,配重块可提供额外的下沉动力,增加的阻力可有效放置沉井本体产生突沉现象,通过配重块的重量调节,增加了下沉动力的可调空间,从而提高沉井下沉的可控能力,且能够维持沉井本体的下沉平衡。(The invention discloses a sunk well structure and a sunk well construction method, belonging to the technical field of buildings, comprising a sunk well body, wherein the lower part of the sunk well body is provided with a cutting edge, and the sunk well structure is characterized in that: the inner circumferential surface of the blade foot is an inclined plane, a plurality of supporting and pressing blocks are evenly distributed on the inner side of the open caisson body in the circumferential direction, the lower portions of the supporting and pressing blocks are wedge-shaped surfaces, the upper portions of the supporting and pressing blocks are bearing planes, and balancing weights are arranged on the bearing planes. The supporting and pressing block can increase the sinking resistance of the open caisson body, the balancing weight can provide extra sinking power, the increased resistance can effectively prevent the open caisson body from generating sudden sinking phenomenon, and the adjustable space of the sinking power is increased through the weight adjustment of the balancing weight, so that the sinking controllability of the open caisson is improved, and the sinking balance of the open caisson body can be maintained.)

1. The utility model provides a caisson structure, includes caisson body (1), the lower part of caisson body (1) is sword foot (2), its characterized in that: the inner circumferential surface of the blade foot (2) is an inclined plane (2-1), a plurality of supporting and pressing blocks (3) are uniformly distributed on the inner side of the open caisson body (1) in the circumferential direction, the lower portions of the supporting and pressing blocks (3) are wedge-shaped surfaces (3-1), the upper portions of the supporting and pressing blocks (3) are bearing planes (3-2), and balancing weights are arranged on the bearing planes (3-2).

2. The open caisson construction of claim 1, wherein: the open caisson body (1) is a rectangular cylinder with four side walls, and the supporting and pressing blocks (3) are arranged at the included angle between the two side walls on the inner side of the open caisson body (1).

3. The open caisson construction of claim 1, wherein: the open caisson body (1) is a circular cylinder, and four supporting and pressing blocks (3) are uniformly distributed on the lower portion of the inner side of the open caisson body (1) in the circumferential direction.

4. A method for constructing an open caisson is characterized in that: the method comprises the following steps:

the method comprises the following steps: laying a skid, and manufacturing a bottom section of the open caisson body (1) according to any one of claims 1 to 3 on the skid;

step two: filling sand at the lower part of the cutting edge (2) of the open caisson body (1), and symmetrically drawing out the skid;

step three: uniformly excavating a sinking caisson body (1), finishing the sinking of the bottom section of the sinking caisson body (1), and placing a balancing weight on a supporting and pressing block body (3) to control the sinking of the sinking caisson body (1) in the process of excavating the sinking caisson body (1);

step four: casting and manufacturing a second section of the open caisson body (1) on the upper part of the bottom section of the open caisson body (1), and continuously excavating according to the third step;

step five: and (3) performing base cleaning, bottom sealing and top sealing treatment after the open caisson body (1) is sunk to the designed elevation.

Technical Field

The invention belongs to the technical field of buildings, and particularly relates to an open caisson structure and an open caisson construction method.

Background

The open caisson is a well cylindrical structure, and is a foundation for bridge abutment or other structures by digging soil in the well, overcoming the frictional resistance of the well wall by means of the self gravity, sinking to a designed elevation, sealing the bottom by concrete and filling the well hole.

The lower part of the open caisson body 1 is provided with a cutting edge 2, and the cutting edge 2 is provided with a tread 2-2 and an inclined plane 2-1. The dead weight of the open caisson is sinking power, the counter force of the tread, the vertical counter force of the inclined plane and the frictional resistance of the outer side surface of the blade foot are open caisson resistance. The sinking force divided by the sinking resistance of the open caisson is the sinking coefficient of the open caisson.

The open caisson has the following states in the construction and sinking process: the state is as shown in figure 1, generally, the state is an initial state, the depth of the blade foot inserted into the soil layer is larger, and the soil layer on the inner side of the open caisson is positioned above the inclined plane; and the second state is a conventional state as shown in fig. 2, the inclined surface of the blade foot is inserted into a part of the soil layer, the second state is also an ideal state for open caisson construction, and in the second state, the open caisson body slowly sinks. The third state is shown in fig. 3, which is a state that can occur in open caisson construction, and along with the increase of excavation depth, as soil becomes hard, the frictional resistance between the soil layer and the open caisson blade becomes large, after excavation, the open caisson cannot sink along with the soil, in this state, in order to further reduce the bearing capacity of the soil layer, some constructors can continue excavation construction until the open caisson is excavated to the fourth state shown in fig. 4, in this state, the open caisson body is very easy to generate 'sudden sinking', namely, the open caisson body can sink suddenly under an unpredicted condition, transverse steel bars are generally reserved on the inner side of the open caisson body, and the sudden-sinking open caisson body can greatly threaten the personal safety of the constructors in the open caisson body and is fatal when serious, and has great potential safety hazards.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a sunk well structure and a sunk well construction method for solving the problem of sudden sinking potential safety hazard in sunk well construction.

The invention is realized in this way, a sunk well structure, including the sunk well body, the lower part of the sunk well body is the cutting edge, its characteristic lies in: the inner circumferential surface of the blade foot is an inclined plane, a plurality of supporting and pressing blocks are evenly distributed on the inner side of the open caisson body in the circumferential direction, the lower portions of the supporting and pressing blocks are wedge-shaped surfaces, the upper portions of the supporting and pressing blocks are bearing planes, and balancing weights are arranged on the bearing planes.

According to the invention, the support pressure block can increase the sinking resistance of the open caisson body, the balancing weight can provide additional sinking power, the increased resistance can effectively prevent the open caisson body from generating a sudden sinking phenomenon, and the adjustable space of the sinking power is increased through weight adjustment of the balancing weight, so that the sinking controllability of the open caisson is improved, and the sinking balance of the open caisson body can be maintained.

In the above technical scheme, preferably, the open caisson body is a rectangular cylinder body with four side walls, the supporting and pressing blocks are arranged at included angles of the two side walls of the inner side of the open caisson body, and wedge-shaped surfaces of the supporting and pressing blocks are connected with the inclined surfaces of the blade feet and have the same inclination angle.

In the above technical scheme, preferably, the open caisson body is a circular cylinder, four supporting and pressing blocks are uniformly distributed on the circumferential direction of the lower part of the inner side of the open caisson body, and the wedge-shaped surfaces of the supporting and pressing blocks are connected with the inclined surfaces of the blade feet and have the same inclination angle.

A method for constructing an open caisson is characterized in that: the method comprises the following steps:

the method comprises the following steps: paving a skid, and manufacturing a bottom section of the open caisson body on the skid;

step two: filling sand at the lower part of the cutting edge of the open caisson body, and symmetrically drawing out the skid;

step three: uniformly excavating a sinking well body, finishing the sinking of the bottom section of the sinking well body, and placing a balancing weight on a supporting and pressing block body to control the sinking of the sinking well body in the process of excavating the sinking well body;

step four: casting and manufacturing a second section of the open caisson body on the upper part of the bottom section of the open caisson body, and continuously excavating according to the third step;

step five: and (4) after the open caisson body sinks to the designed elevation, performing foundation cleaning, bottom sealing and top sealing treatment.

Drawings

FIG. 1 is a diagram of state one in the background of the invention;

FIG. 2 is a diagram illustrating a second state of the art;

FIG. 3 is a diagram of state three in the background of the invention;

FIG. 4 is a diagram of state four in the background of the invention;

fig. 5 is a schematic bottom structure view of a first embodiment of the open caisson of the present invention;

fig. 6 is a schematic bottom structure view of a second embodiment of the open caisson of the present invention.

In the figure, 1, a caisson body; 2. a blade foot; 2-1, inclined plane; 2-2, a tread; 3. a support and compression block body; 3-1, wedge surface; 3-2, bearing plane.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail with reference to the following embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The open caisson structure enables the open caisson body to sink more controllably, can avoid sudden sinking, eliminates potential safety hazards and is beneficial to sinking balance of the open caisson body. To further illustrate the structure of the present invention, the following detailed description is made with reference to the accompanying drawings: