CN114571597A

CN114571597A - Concrete placement equipment for hydraulic engineering construction

Info

Publication number: CN114571597A
Application number: CN202210119159.XA
Authority: CN
Inventors: 宋业政; 李涛; 高祥吉; 徐华斌; 孙录涛
Original assignee: Shandong Linyi Water Conservancy Engineering General Co ltd
Current assignee: Shandong Linyi Water Conservancy Engineering General Co ltd
Priority date: 2022-02-08
Filing date: 2022-02-08
Publication date: 2022-06-03
Anticipated expiration: 2042-02-08
Also published as: CN114571597B

Abstract

The invention is suitable for the technical field of hydraulic engineering construction, and provides concrete pouring equipment for hydraulic engineering construction, which comprises: the tank body is arranged between the supporting frames, and the stirring mechanism is arranged in the tank body; the feeding pipe is arranged on the supporting frame, and a pouring pipe is arranged on one side of the tank body; and the control mechanism is arranged on the support frame and is connected with the stirring mechanism. When this concrete placement equipment for hydraulic engineering construction used, add concrete raw materials to a jar internal portion through the inlet pipe, start rabbling mechanism afterwards, then the rabbling mechanism can stir concrete raw materials, start control mechanism simultaneously, control mechanism can drive the rabbling mechanism and carry out the position control of continuation, come the continuous operating position who changes the rabbling mechanism, the stirring that makes jar internal portion hungry concrete is more abundant, it has the stone sediment to remain to avoid the edge part, promote the treatment effect of concrete.

Description

Concrete placement equipment for hydraulic engineering construction

Technical Field

The invention belongs to the technical field of hydraulic engineering construction, and particularly relates to concrete pouring equipment for hydraulic engineering construction.

Background

The hydraulic engineering construction has many same parts with the construction of general civil engineering such as roads, railways, bridges, house buildings and the like, and is characterized in that: hydraulic engineering undertakes the tasks of water retaining, water storage and water drainage, so that special requirements are required for the stability, pressure bearing, seepage prevention, impact resistance, wear resistance, frost resistance, crack resistance and other properties of hydraulic buildings, and special construction methods and measures are required to be adopted according to the technical specifications of the hydraulic engineering to ensure the engineering quality; the requirements of hydraulic engineering on the foundation are strict, the engineering is often in regions and parts with complex geological conditions, hidden dangers can be left when the foundation is not treated well, the foundation is difficult to remedy afterwards, and special foundation treatment measures need to be taken; the hydraulic engineering is mostly constructed in riverways, lakes, coastal areas and other water areas, and construction diversion, interception and underwater operation are required to be carried out according to the natural conditions of water flow and the requirements of engineering construction; the hydraulic engineering needs to make full use of construction in a dry season, has strong seasonality and necessary construction strength, and some projects need to adopt temperature control measures due to weather influence so as to ensure the engineering quality. The hydraulic engineering construction is closely related to the society and the natural environment, so that the influence of the engineering implementation is large, the opportunity needs to be mastered, the plan needs to be reasonably arranged, the construction needs to be carefully organized, and the problems of flood control, flood fighting and the like in the construction can be timely solved so as to ensure the safety.

At present, with the development of science and technology, the fields of buildings and the like are rapidly developed, a large amount of concrete is needed during construction every day, and in order to improve the construction speed, some massive concrete blocks on the sides of roads and flower gardens are poured into concrete blocks in factories and then are transported to the site to be surrounded to form flower garden curb stones.

The concrete pouring refers to the process of pouring concrete into a mold until the concrete is plasticized, in the civil engineering and building engineering, materials such as concrete are put into the mold to be made into a preset shape, the free height of the concrete is not more than 2m when the concrete is poured, and corresponding measures are taken when the free height of the concrete exceeds 3 m.

In a factory, cement, gravel aggregate and water are mixed and stirred into a concrete mixture by adopting a casting machine, and then the concrete mixture is poured into a corresponding model to be solidified to form the curb.

The existing concrete pouring equipment can continuously stir the concrete before pouring so as to ensure that the inside stone slag can be uniformly mixed in the concrete, and the problems that the finished product is not uniformly poured and the mixing quality is poor due to the fact that more stone slag is accumulated at the same position are avoided.

Disclosure of Invention

The embodiment of the invention aims to provide concrete pouring equipment for hydraulic engineering construction, and aims to solve the problems that the existing concrete pouring equipment can continuously stir concrete before pouring so as to ensure that internal rock ballast can be uniformly mixed in the concrete, and the problems of nonuniform finished product pouring and poor mixing quality caused by the fact that more rock ballast is accumulated at the same position are avoided.

The embodiment of the invention is realized in such a way that the concrete pouring equipment for the hydraulic engineering construction comprises:

the concrete pretreatment device comprises support frames, wherein tank bodies are arranged between the support frames, and a stirring mechanism is arranged in each tank body and is used for pretreating concrete;

the feeding pipe is arranged on the supporting frame, and a pouring pipe is arranged on one side of the tank body;

and the control mechanism is arranged on the support frame, is connected with the stirring mechanism and is used for adjusting the running mode of the stirring mechanism.

Preferably, the stirring mechanism includes:

the mounting groove is arranged on the inner wall of the tank body, a guide column is mounted in the mounting groove, and a sliding block is slidably sleeved on the guide column;

the telescopic link is installed on the sliding block, driving motor is installed to telescopic link one end, driving motor's output is connected with the pivot, the stirring piece is installed to the pivot lateral part.

Preferably, the quantity of mounting groove, guide post, sliding block and telescopic link is no less than two, and the symmetry installation on jar internal wall.

Preferably, the control mechanism comprises:

the supporting plate is arranged on the supporting frame, and a bidirectional motor is arranged on the supporting plate;

the lifting displacement mechanism and the transverse displacement mechanism are respectively arranged on two sides of the supporting plate and are connected with the bidirectional motor;

the connecting column is installed on the stirring mechanism, a first connecting groove is installed at one end of the connecting column, and a linkage block is slidably sleeved on the connecting column.

Preferably, the elevating displacement mechanism includes:

the first rotating disc is arranged at the output end of the bidirectional motor, and plate grooves are symmetrically formed in the first rotating disc;

the first rotating rod is rotatably connected to one side of the supporting plate, a first guide post is mounted on the first rotating rod, the first guide post is matched with the first rotating disc and the plate groove, a first linkage post is mounted at one end of the first rotating rod, and the first linkage post is matched with the first linkage groove;

the first spring is installed on one side of the supporting plate, and one end of the first spring is connected with the middle of the first rotating rod.

Preferably, the lateral displacement mechanism comprises:

the second turntable is arranged at the output end of the bidirectional motor, and a guide lug is arranged on the second turntable;

the second rotating rod is rotatably connected to one side of the supporting plate, a second guide post is mounted on the second rotating rod, the second guide post is matched with the second turntable and the guide convex block, and a second linkage post is mounted at one end of the second rotating rod;

the second spring is arranged on the supporting plate, and one end of the second spring is connected with the middle part of the second rotating rod;

the control groove is installed on one side of the supporting plate, a sliding rod is arranged in the control groove in a sliding mode, a connecting rod is installed on the sliding rod, one end of the connecting rod is connected with the linkage block, a second linkage groove is installed on the connecting rod, and the second linkage column is matched with the second linkage groove.

Preferably, the first and second springs are always in tension.

The concrete pouring equipment for the hydraulic engineering construction provided by the embodiment of the invention has the following beneficial effects:

when this concrete placement equipment for hydraulic engineering construction uses, add concrete raw materials to a jar internal portion through the inlet pipe, start rabbling mechanism afterwards, then the rabbling mechanism can stir concrete raw materials, start control mechanism simultaneously, control mechanism can drive the rabbling mechanism and carry out the position control of continuation, the operating position who constantly changes the rabbling mechanism, the stirring that makes jar internal portion hungry concrete is more abundant, it has the stone sediment to remain to avoid the edge part, promote the treatment effect of concrete, and the concrete accessible pouring pipe discharge after handling, and pour the operation.

Drawings

Fig. 1 is a schematic structural diagram of concrete pouring equipment for hydraulic engineering construction according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram 1 of a control mechanism in concrete pouring equipment for hydraulic engineering construction according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram 2 of a control mechanism in a concrete pouring device for hydraulic engineering construction according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram 3 of a control mechanism in a concrete pouring device for hydraulic engineering construction according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram 4 of a control mechanism in a concrete pouring device for hydraulic engineering construction according to an embodiment of the present invention;

fig. 6 is a partially enlarged view of a portion a in fig. 1.

In the drawings: 1-a support frame; 2-tank body; 3-a stirring mechanism; 31-a mounting groove; 32-a guide post; 33-a slider; 34-a telescopic rod; 35-a drive motor; 36-a rotating shaft; 37-stirring sheet; 4-a feed pipe; 5, pouring a pipe; 6-a control mechanism; 61-a support plate; 62-a bi-directional motor; 63-connecting column; 64-a first linkage slot; 65-linkage block; 66-a first carousel; 67-plate groove; 68-a first rotating bar; 69-a first guide post; 610-a first linkage column; 611-a first spring; 612-a second carousel; 613-guide projection; 614-second rotating bar; 615-a second guide post; 616-a second linkage post; 617-second spring; 618-control slot; 619-a slide bar; 620-connecting rod; 621-second interlocking groove.

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 below with reference to the accompanying drawings and 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.

Specific implementations of the present invention are described in detail below with reference to specific embodiments.

As shown in fig. 1, in an embodiment of the present invention, the concrete pouring apparatus for hydraulic engineering construction includes:

the concrete pretreatment device comprises support frames 1, wherein tank bodies 2 are arranged between the support frames 1, a stirring mechanism 3 is arranged in each tank body 2, and the stirring mechanism 3 is used for pretreating concrete;

the feeding pipe 4 is arranged on the supporting frame 1, and a pouring pipe 5 is arranged on one side of the tank body 2;

and the control mechanism 6 is arranged on the support frame 1, and the control mechanism 6 is connected with the stirring mechanism 3 and is used for adjusting the operation mode of the stirring mechanism 3.

When this concrete placement equipment for hydraulic engineering construction uses, add concrete raw materials to jar body 2 inside through inlet pipe 4, start rabbling mechanism 3 afterwards, then rabbling mechanism 3 can stir concrete raw materials, start control mechanism 6 simultaneously, control mechanism 6 can drive rabbling mechanism 3 and carry out the position control of persistence, come the continuous operating position who changes rabbling mechanism 3, the stirring that makes jar body 2 inside hungry concrete is more abundant, it has the stone sediment to remain to avoid the edge part, promote the treatment effect of concrete, and the concrete accessible after the processing pours pipe 5 discharges, and pour the operation.

As shown in fig. 1 and 2, in the embodiment of the present invention, the stirring mechanism 3 includes:

the installation groove 31 is arranged on the inner wall of the tank body 2, a guide post 32 is arranged in the installation groove 31, and a sliding block 33 is slidably sleeved on the guide post 32;

telescopic link 34 installs on sliding block 33, driving motor 35 is installed to telescopic link 34 one end, driving motor 35's output is connected with pivot 36, stirring piece 37 is installed to the 36 lateral parts of pivot.

During the use, start driving motor 35, then driving motor 35 can drive stirring piece 37 through pivot 36 and rotate to this realizes the stirring operation, and the operation that sliding block 33 and telescopic link 34's structure can adaptation control mechanism 6, makes rabbling mechanism 3 carry out the operation of lift, sideslip, richenes the stirring effect.

In the embodiment of the present invention, the number of the mounting grooves 31, the guide posts 32, the sliding blocks 33 and the telescopic rods 34 is not less than two, and the mounting grooves, the guide posts, the sliding blocks 33 and the telescopic rods are symmetrically mounted on the inner wall of the tank body 2.

As shown in fig. 1 to 6, in the embodiment of the present invention, the control mechanism 6 includes:

the supporting plate 61 is arranged on the supporting frame 1, and the bidirectional motor 62 is arranged on the supporting plate 61;

the lifting displacement mechanism and the transverse displacement mechanism are respectively arranged on two sides of the supporting plate 61 and are connected with the bidirectional motor 62;

the connecting column 63 is installed on the stirring mechanism 3, a first linkage groove 64 is installed at one end of the connecting column 63, and a linkage block 65 is slidably sleeved on the connecting column 63.

As shown in fig. 1 to 6, in an embodiment of the present invention, the elevating displacement mechanism includes:

the first rotating disc 66 is installed at the output end of the bidirectional motor 62, and plate grooves 67 are symmetrically formed in the first rotating disc 66;

a first rotating rod 68 rotatably connected to one side of the supporting plate 61, wherein a first guide post 69 is mounted on the first rotating rod 68, the first guide post 69 is matched with the first rotating disc 66 and the plate slot 67, a first linkage post 610 is mounted at one end of the first rotating rod 68, and the first linkage post 610 is matched with the first linkage slot 64;

and a first spring 611 installed at one side of the support plate 61, one end of the first spring 611 being connected to the middle of the first rotating rod 68.

During the use, start two-way motor 62, then two-way motor 62 can drive first carousel 66 rotatoryly to control first guide post 69 through the distance difference between first carousel 66 edge and the first carousel 66 centre of a circle department of board groove 67, and then drive first rotary rod 68 and do reciprocating type wobbling effect, then first rotary rod 68 can drive spliced pole 63 through the cooperation relation between first linkage post 610 and the first linkage groove 64 and go up and down the operation, and then drive rabbling mechanism 3 and carry out the operation of going up and down.

As shown in fig. 1 to 6, in an embodiment of the present invention, the lateral displacement mechanism includes:

a second turntable 612 installed at an output end of the bi-directional motor 62, wherein a guide projection 613 is installed on the second turntable 612;

a second rotating rod 614 rotatably connected to one side of the supporting plate 61, wherein a second guiding post 615 is installed on the second rotating rod 614, the second guiding post 615 is matched with the second rotating disk 612 and the guiding protrusion 613, and a second linking post 616 is installed at one end of the second rotating rod 614;

a second spring 617 installed on the supporting plate 61, wherein one end of the second spring 617 is connected to the middle of the second rotating rod 614;

the control groove 618 is installed on one side of the supporting plate 61, a sliding rod 619 is slidably arranged in the control groove 618, a connecting rod 620 is installed on the sliding rod 619, one end of the connecting rod 620 is connected with the linkage block 65, a second linkage groove 621 is installed on the connecting rod 620, and the second linkage column 616 is matched with the second linkage groove 621.

During use, the operation of the bi-directional motor 62 drives the second turntable 612 to rotate, and the distance difference between the edge of the second turntable 612 and the distance from the guiding protrusion 613 to the center of the second turntable 612 controls the second guiding column 615, and further drives the second rotating rod 614 to swing, so that the swing of the second rotating rod 614 drives the sliding rod 619 to perform a transverse reciprocating movement effect through the cooperation between the second linking column 616 and the second linking groove 621, and further pulls the linking column 63 to move, so that the stirring mechanism 3 performs a synchronous transverse movement.

In the present embodiment, the first spring 611 and the second spring 617 are always in a stretched state.

To sum up, when this concrete placement equipment for hydraulic engineering construction used, add concrete raw materials to the internal portion of jar through inlet pipe 4, start rabbling mechanism 3 afterwards, then rabbling mechanism 3 can stir concrete raw materials, start control mechanism 6 simultaneously, control mechanism 6 can drive rabbling mechanism 3 and carry out the position control of continuation, come the continuous operating position who changes rabbling mechanism 3, the stirring that makes the internal portion of jar 2 hungry concrete is more abundant, avoid there being the stone sediment at the edge part to remain, promote the treatment effect of concrete, and the concrete accessible after the processing pours pipe 5 discharges, and pour the operation.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims

1. The utility model provides a concrete placement equipment for hydraulic engineering construction which characterized in that, concrete placement equipment for hydraulic engineering construction includes:

2. The concrete pouring device for hydraulic engineering construction according to claim 1, wherein the stirring mechanism comprises:

3. The concrete pouring equipment for the water conservancy engineering construction according to claim 2, wherein the number of the mounting grooves, the guide columns, the sliding blocks and the telescopic rods is not less than two, and the mounting grooves, the guide columns, the sliding blocks and the telescopic rods are symmetrically mounted on the inner wall of the tank body.

4. The concrete pouring device for hydraulic engineering construction according to claim 1, wherein the control mechanism includes:

5. The concrete pouring apparatus for hydraulic engineering construction according to claim 4, wherein the elevating displacement mechanism comprises:

6. The concrete pouring device for hydraulic engineering construction according to claim 5, wherein the lateral displacement mechanism comprises:

the second rotating rod is rotatably connected to one side of the supporting plate, a second guide post is mounted on the second rotating rod, the second guide post is matched with the second turntable and the guide protruding block, and a second linkage post is mounted at one end of the second rotating rod;

7. The concrete pouring device for hydraulic engineering construction according to claim 6, wherein the first spring and the second spring are always in a stretched state.