CN116428423A - Concrete conveying device for mountain complex terrain and application method - Google Patents

Abstract

The invention belongs to the technical field of mountain water conservancy project construction, and particularly relates to a concrete conveying device for mountain complex terrains and an application method. Including pipeline, flange subassembly, fixing device and antiseep layer, its characterized in that: the flange components are arranged at the two ends of the conveying pipeline, the anti-seepage layer is arranged at the joint of the conveying pipeline and the flange components, the fixing device is arranged at the outer side of the flange components, the flange components can be fastened at the outer side of the conveying pipeline, and the concrete can be transported in complex terrains through the conveying pipeline. The invention has the advantages and positive effects that: the embodiment realizes light dead weight, low cost, convenient installation, disassembly and cleaning, convenient carrying and easy storage, and flexible materials can be inserted in gaps of trees; the inner wall of the pipeline lining is smooth and is not easy to be bonded with concrete, and the phenomenon of pipe clamping and pipe blocking can not occur in the concrete pouring process; the pipeline outer lining can improve the wear resistance and scratch resistance of the conveying pipeline.

Description

Concrete conveying device for mountain complex terrain and application method

Technical Field

The invention belongs to the technical field of mountain water conservancy project construction, and particularly relates to a concrete conveying device for mountain complex terrains and an application method.

Background

Along with the increasing degree of national infrastructure, besides urban and rural infrastructure construction, many hydraulic engineering, electric power engineering, communication engineering and the like in the mountain gradually enter the line of sight of people, and accordingly, various difficulties brought to engineering construction due to the influence of environmental factors, such as mountain area concrete pouring, are brought.

At present, the domestic concrete pouring technology mainly uses the urban, village and town and other land-like flat environments, and the pouring mode mainly comprises a day pump, a ground pump, a chute, a conduit, a flexible conduit or direct pouring and the like; the existing mountain water conservancy projects have the problems of long linearity, complex topography, large height difference between part of positions and the existing highway, high construction cost of the highway projects and the like, and the existing highway width is insufficient for erecting large-scale equipment such as a day pump, a crane and the like.

When the free falling height of the concrete exceeds two meters, segregation occurs. The occurrence of segregation can greatly reduce the strength and bearing capacity of the concrete structural member, and influence the safety of the concrete structural member; meanwhile, the performance effect of the concrete structural member is poor, sand marks, exposed aggregate, exposed reinforcing steel bars and the like are easy to appear, and the durability of the concrete structure is affected. Therefore, when the casting height of the concrete structural member exceeds two meters, the vertical casting is usually carried by adopting a guide pipe, a flexible guide pipe or a chute, so that the functions of gathering, condensing, dispersing and buffering the concrete are achieved, and the concrete segregation is prevented to a certain extent.

The chute needs certain angle just can guarantee that concrete flows by oneself in the chute by the dead weight, in order to adjust chute angle, often need set up reliable and stable chute support, increased pouring cost and support and set up high altitude construction risk, still need a large amount of trees of cutting down. In addition, the opening position of the chute is fixed, and the in-mold distribution of concrete is limited, so that the chute is very limited in use place and is mainly used for casting shallow foundation pit plain concrete with smaller area.

When the casting fall is not large, the flexible conduit and the conduit can both play a role in preventing segregation to a certain extent, but when the casting fall is large, the segregation is unavoidable because the volume weights of broken stone, mortar and cement paste in the concrete mixture are different and the friction resistance of the wall of the flexible conduit is different, and the free falling speed is different after a certain distance. Most of the existing catheters in the market are made of thin steel into rigid catheters, which are not suitable for mounting and dismounting in mountainous areas.

Disclosure of Invention

In order to solve the technical problems, the invention provides the technical field of mountain hydraulic engineering construction, and particularly relates to a concrete conveying device for mountain complex terrains.

The technical scheme adopted by the invention is as follows: a concrete conveying device for mountain area complex topography, includes pipeline, flange subassembly, fixing device and antiseep layer, its characterized in that:

the anti-leakage layer is arranged at the joint of the conveying pipeline and the flange component, and the fixing device is arranged at the outer side of the flange component, so that the flange component can be fastened at the outer side of the conveying pipeline.

Further, the conveying pipeline comprises a first conveying pipeline and a second conveying pipeline, and the first conveying pipeline is connected with the second conveying pipeline through the flange assembly.

Further, the conveying pipeline is provided with a pipeline outer lining and a pipeline inner lining, the pipeline inner lining is arranged in the conveying pipeline and clings to the pipeline outer lining, the pipeline outer lining can improve the bearing strength of the conveying pipeline, and the pipeline inner lining can lighten the friction force of concrete transportation on the conveying pipeline.

Further, the conveying pipeline is provided with a pipeline outer lining flange and a pipeline inner lining flange, the pipeline outer lining flange can be used for connecting the flange assembly, and the pipeline inner lining flange can be used for enabling concrete to enter the pipeline inner lining.

Further, the flange assembly comprises a first flange, a second flange and a third flange, wherein the first flange is arranged at the top of the pipeline lining flanging, the second flange is arranged at the outer side of the pipeline lining, and the third flange is arranged at the bottom surface of the pipeline outer lining flanging.

Further, a bolt hole is formed in the ring body of the flange assembly, and the fixing device can be arranged in the bolt hole.

Further, the fixing device is provided with a fixing bolt, and the fixing bolt can be arranged in the bolt hole to fix the flange assembly.

Further, the anti-leakage layer is provided with a rubber gasket, and the rubber gasket is arranged at the joint of the flange assembly and the conveying pipeline, so that leakage of concrete can be prevented.

Further, the delivery conduit is provided as a flexible delivery conduit.

Further, a method of applying a concrete delivery device for complex terrain in mountainous areas, characterized in that the method comprises the steps of:

the flange component is arranged on the outer side of the conveying pipeline, the anti-leakage layer is arranged at the joint of the flange component and the conveying pipeline, and the anti-leakage layer can prevent the flange component from sliding off the conveying pipeline and can prevent concrete from leaking from the conveying pipeline;

the fixing device is arranged on the outer side of the flange assembly and can fasten the flange assembly on the outer side of the conveying pipeline;

the conveying pipeline is spliced through the flange assembly, and the concrete is conveyed through the conveying pipeline.

The invention has the advantages and positive effects that: by adopting the technical proposal, the embodiment of the invention realizes light weight and low cost, the tree-shaped wood-plastic composite material is convenient to mount, dismount and clean, convenient to carry and easy to store, and the flexible material can be inserted in the gaps of the trees; the inner wall of the pipeline lining is smooth and is not easy to be bonded with concrete, and the phenomenon of pipe clamping and pipe blocking can not occur in the concrete pouring process; the polyester filament yarn material of the outer lining of the pipeline can improve the wear resistance and scratch resistance of the conveying pipeline.

In a conveying environment with high drop from top to bottom, the flat hose lining is made of rubber, when a certain amount of concrete enters the hose lining of a pipeline, the flat hose lining is automatically and gradually stretched under the extrusion of the dead weight of the concrete, and the concrete slowly flows down from the stretched flat hose lining by the dead weight; after the concrete flows, the flat hose lining is restored to the original state, the whole concrete flowing process flows in a restrained state, and the concrete is free of divergence and free falling and is not isolated.

In the horizontal and bottom-up conveying environment, the hose outer lining provided by the embodiment of the invention has high pressure-bearing performance of the polyester filament material, can restrict the sharing and expansion of the hose inner lining, and can realize long-distance concrete conveying by connecting a pipeline with a ground pump.

Drawings

FIG. 1 is a schematic side view of an embodiment of the present invention;

FIG. 2 is a schematic exploded view of an embodiment of the present invention;

FIG. 3 is a schematic elevational view of an embodiment of the present invention;

FIG. 4 is a schematic side view of an embodiment of the present invention;

FIG. 5 is a schematic view showing an initial state of casting concrete from top to bottom according to an embodiment of the present invention;

FIG. 6 is a schematic view showing a state in which concrete of the embodiment of the present invention falls from an upper section of the conveying pipe to a lower section of the conveying pipe;

FIG. 7 is a schematic view showing the state of the upper section of the conveying pipe after the concrete flows out completely;

FIG. 8 is a schematic view showing a state in which concrete is continuously poured from top to bottom according to the embodiment of the present invention;

FIG. 9 is a schematic view showing an initial state of the horizontal casting of concrete by the pump connected thereto according to the embodiment of the present invention;

FIG. 10 is a schematic view showing an initial state of pouring concrete from bottom to top by connecting a ground pump according to an embodiment of the present invention;

FIG. 11 is a schematic view showing a state in which the horizontal continuous casting concrete is carried out by the pump connected to the ground according to the embodiment of the present invention;

FIG. 12 is a schematic view showing a state of continuously pouring concrete from bottom to top by connecting a ground pump according to the embodiment of the invention;

in the figure:

1. pipeline outer lining 2, pipeline inner lining 3 and flange assembly

4. Pipeline outer lining flanging 5, pipeline inner lining flanging 6 and fixing bolts

7. Rubber gasket 8, concrete 9 and upper flange

10. Middle flange 11, lower flange 12, bolt holes

Detailed Description

The objects, technical solutions and advantages of the present invention will become more apparent by the following detailed description of the present invention with reference to the accompanying drawings. It should be understood that the description is only illustrative and is not intended to limit the scope of the invention. In the following description, descriptions of techniques of a well-known structure are omitted so as not to unnecessarily obscure the concept of the present invention.

Embodiments of the present invention are described below with reference to the accompanying drawings.

In the description of the embodiments of the present invention, it should be understood that the orientation or positional relationship indicated by the terms "top", "bottom", etc. are based on the orientation or positional relationship shown in the drawings, are merely for convenience of description and to simplify the description, and are not indicative or implying that the apparatus or element in question must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the present invention. In the description of the present invention, it should be noted that, unless explicitly stated and limited otherwise, the terms "disposed," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art in a specific case.

1-4 show a structural schematic diagram of an embodiment of the invention, specifically showing the structure of the embodiment, the embodiment relates to a concrete conveying device for mountain complex terrains and an application method, the invention comprises at least two flexible conduit units connected up and down, each flexible conduit unit comprises a hose outer liner 1, a hose inner liner 2 and a flange assembly 3, the hose outer liner 1 is a cylindrical structure made of polyester filament yarn materials, and annular flanges which are outwards turned for a certain width are arranged at two ends of the hose outer liner 1; the hose lining 2 is made of flexible rubber materials, wherein two ends of the hose lining are round, the middle of the hose lining is flat, two symmetrical inner walls are mutually attached, and annular flanges which are outwards turned for a certain width are arranged at two ends of the hose lining; the flange assembly 3 comprises an upper flange 9, a middle flange 10 and a lower flange 11, wherein the upper flange 9 is pressed on the top surface of the hose lining flanging 5, the middle flange 10 is sleeved on the hose lining 2 and is tightly attached to the lower part of the hose lining flanging 5 and the upper part of the hose outer lining flanging 4, the lower flange 11 is sleeved on the hose outer lining 1 and is tightly attached to the bottom surface of the hose outer lining flanging 4, and the upper flange 9, the middle flange 10 and the lower flange 11 are connected through bolts 6 and clamp and fix the flanging; the flexible conduit unit is connected and fixed through flange assemblies 3 at two ends and bolts 6, and rubber gaskets 7 are arranged between the flange assemblies 3.

Preferably, the hose outer lining is made of polyester filament yarn material with the thickness of 2-4 mm; the hose lining is integrally manufactured and formed by flexible rubber with the thickness of 2-4 mm; the width of the turned edges at the two ends of the hose can be set to be 70mm, so that the hose can be conveniently fixed with the flange assembly; the length of each conveying flexible pipeline can be set to be 1m, 2m, 5m and 10m according to the field condition, and the diameter of the flexible conduit is set to be 150-250mm.

Preferably, the upper flange 9, the middle flange 10 and the lower flange 11 are all manufactured by processing 2-4mm thick steel plates, and the sizes of the upper flange, the middle flange and the lower flange are consistent with the diameters and the flanging sizes of the flexible guide pipes.

Preferably, the rubber gasket 7 may be formed using a 3-5 mm thick rubber process, and is shaped and sized to conform to the flange assembly 3. In the implementation of the invention, in order to facilitate the fixation between the hose lining 2, the hose outer lining 1 and each flange component 3 and the connection of two flexible conduit units, 8 bolt holes 12 can be respectively formed in the upper flange 9, the middle flange 10, the lower flange 11, the inner lining flange 5, the outer lining flange 4 and the rubber gasket 7 of each flexible conduit in a circumferential equidistant manner, wherein the 4 bolt holes 12 are used for fixing the upper flange 9, the middle flange 10 and the lower flange 11 with the outer lining flange 4 and the inner lining flange 5, and in addition, 4 bolt holes 12 are reserved for being used for bolt fixation during the connection of the flexible conduit, and the two bolt holes are used at intervals.

When the embodiment of the invention is used for pouring concrete from top to bottom, a proper number of flexible conduit units are connected with each other according to the height of the pouring drop. A lifting rope can be wound around the bottom of the flange assembly 3 of the uppermost flexible conduit unit and connected to the concrete hopper. The pouring process is as follows:

as shown in fig. 5 and 6, in the initial pouring, after the concrete 8 enters the hose lining 2 of the uppermost flexible conduit unit, the concrete slides downwards under the action of gravity and gradually spreads the flat body part of the hose lining 2 to fall into the hose lining 2 below, and the flat body part can restrict and delay the falling speed of the concrete to prevent segregation; after the concrete in the upper hose lining 2 enters the lower hose lining 2, the falling process in the lower hose lining 2 is the same as that of the upper hose lining 2, and the concrete falls step by step to finally reach the pouring position.

As shown in fig. 7, after the concrete in the upper hose lining 2 is completely discharged, the hose lining 2 is restored by elasticity; when the subsequent concrete re-enters the hose lining 2, the concrete falling process is the same as the initial casting.

As shown in fig. 8, when concrete is poured continuously, the flat body part of the hose lining 2 of each stage has convergence and retardation effects on the concrete, and the whole flowing process of the concrete flows in a restrained state without divergence and free falling, so that an ideal segregation preventing effect can be achieved.

When the embodiment of the invention is used for conveying concrete horizontally or from bottom to top, the flexible pipes with proper quantity can be connected with each other according to the distance, and one end of each flexible pipe is connected with the ground pump. The pouring process is as follows:

as shown in fig. 9, 10, 11 and 12, the flat body portion of the concrete 8 is gradually spread and expanded to the periphery when the pumping pressure enters the hose lining 2, and after the expansion is performed to a certain extent, the expansion is stopped under the restraint of the hose outer lining 1, and the forward or upward pressure is generated to convey the concrete to the pouring position.

The embodiment of the invention has light dead weight, low cost, convenient installation, disassembly and cleaning, convenient carrying and easy storage, and the flexible material can be inserted in the gaps of the trees; the inner wall of the pipeline lining is smooth and is not easy to be bonded with concrete, and the phenomenon of pipe clamping and pipe blocking can not occur in the concrete pouring process; the polyester filament yarn material of the outer lining of the pipeline can improve the wear resistance and scratch resistance of the conveying pipeline.

In a conveying environment with high drop from top to bottom, the flat hose lining is made of rubber, when a certain amount of concrete enters the hose lining of a pipeline, the flat hose lining is automatically and gradually stretched under the extrusion of the dead weight of the concrete, and the concrete slowly flows down from the stretched flat hose lining by the dead weight; after the concrete flows, the flat hose lining is restored to the original state, the whole concrete flowing process flows in a restrained state, and the concrete is free of divergence and free falling and is not isolated.

In the horizontal and bottom-up conveying environment, the hose outer lining provided by the embodiment of the invention has high pressure-bearing performance of the polyester filament material, can restrict the sharing and expansion of the hose inner lining, and can realize long-distance concrete conveying by connecting a pipeline with a ground pump.

The foregoing describes the embodiments of the present invention in detail, but the description is only a preferred embodiment of the present invention and should not be construed as limiting the scope of the invention. All equivalent changes and modifications within the scope of the present invention are intended to be covered by the present invention.

Claims (10)

1. A concrete conveying device for mountain area complex topography, includes pipeline, flange subassembly, fixing device and antiseep layer, its characterized in that:

the anti-leakage layer is arranged at the joint of the conveying pipeline and the flange component, and the fixing device is arranged at the outer side of the flange component, so that the flange component can be fastened at the outer side of the conveying pipeline.

2. The concrete delivery device for mountain complex terrain of claim 1, wherein: the conveying pipeline comprises a first conveying pipeline and a second conveying pipeline, and the first conveying pipeline is connected with the second conveying pipeline through the flange assembly.

3. The concrete delivery device for mountain complex terrain of claim 2, wherein: the pipeline is provided with a pipeline outer lining and a pipeline inner lining, the pipeline inner lining is arranged in the pipeline and clings to the pipeline outer lining, the pipeline outer lining can improve the bearing strength of the pipeline, and the pipeline inner lining can lighten the friction force of transportation of concrete to the pipeline.

4. A concrete delivery apparatus for use in complex terrain of mountainous areas as claimed in claim 3, wherein: the conveying pipeline is provided with a pipeline outer lining flanging and a pipeline inner lining flanging, the pipeline outer lining flanging can be used for connecting the flange assembly, and the pipeline inner lining flanging can be used for enabling concrete to enter the pipeline inner lining.

5. The concrete delivery device for mountain complex terrain of claim 1, wherein: the flange assembly comprises a first flange, a second flange and a third flange, wherein the first flange is arranged at the top of the pipeline lining flanging, the second flange is arranged at the outer side of the pipeline lining, and the third flange is arranged at the bottom surface of the pipeline outer lining flanging.

6. The concrete conveying apparatus for mountain complex terrain as claimed in claim 5, wherein: the ring body of the flange assembly is provided with a bolt hole, and the fixing device can be arranged in the bolt hole.

7. The concrete conveying apparatus for mountain complex terrain as claimed in claim 6, wherein: the fixing device is provided with a fixing bolt, and the fixing bolt can be arranged in the bolt hole to fix the flange assembly.

8. The concrete delivery device for mountain complex terrain of claim 1, wherein: the anti-leakage layer is provided with a rubber gasket, and the rubber gasket is arranged at the joint of the flange assembly and the conveying pipeline and can prevent concrete from leaking.

9. The concrete delivery device for mountain complex terrain of claim 1, wherein: the conveying pipeline is arranged as a flexible conveying pipeline.

10. A method of applying the concrete delivery device for complex terrain of mountainous areas as claimed in claim 1, characterized in that the steps of the method include:

the flange component is arranged on the outer side of the conveying pipeline, the anti-leakage layer is arranged at the joint of the flange component and the conveying pipeline, and the anti-leakage layer can prevent the flange component from sliding off the conveying pipeline and can prevent concrete from leaking from the conveying pipeline;

the fixing device is arranged on the outer side of the flange assembly and can fasten the flange assembly on the outer side of the conveying pipeline;

the conveying pipeline is spliced through the flange assembly, and the concrete is conveyed through the conveying pipeline.

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