CN211257859U - Pipeline material distribution system for concrete pouring, concrete material distributor and trolley - Google Patents

Abstract

The utility model provides a pipeline material distribution system for concrete placement, including the discharging pipe, the discharging pipe includes a section pipeline or at least two sections pipeline that establish ties and set up, the pipeline includes first section pipe and at least two second section pipes that set up side by side, first section pipe with at least one the second section pipe intercommunication; the first section of pipe of the pipeline at the rear section is communicated with the second section of pipe of the pipeline at the front section. Use the technical scheme of the utility model, the effect is: the structure of the discharge pipe is simplified; by adopting a one-to-many structural form, the construction requirement of simultaneously distributing materials on a single window or a plurality of windows can be met, and the construction efficiency is improved; the number of the sections of the pipeline can be adjusted according to actual conditions, and the requirements for conveying materials at different distances are met. The utility model also discloses a concrete spreader contains above-mentioned pipeline cloth system for concrete placement. The utility model discloses still disclose a platform truck, contain above-mentioned concrete spreader.

Description

Pipeline material distribution system for concrete pouring, concrete material distributor and trolley

Technical Field

The utility model relates to a concrete placement technical field, concretely relates to pipeline cloth system for concrete placement.

Background

In the step-by-step window-by-step layered pouring of concrete, 2-6 layers of feeding ports can be arranged according to construction requirements, and each layer is provided with 1-4 feeding ports or feeding windows.

The pipeline system in the prior art only has one discharge pipe, and the operation is troublesome because the feeding position and the window need to be frequently switched. And a pipeline can only pour a pan feeding position each time, a plurality of pan feeding mouths that same horizontal plane (layer) was arranged can not the pan feeding simultaneously, the height difference of pouring appears easily and the concrete flow distance overlength segregation scheduling problem appears.

Therefore, the design of the pipeline material distribution system which is simple in structure, adjustable in length and capable of realizing simultaneous material distribution of one or more windows is of great significance.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a pipeline cloth system that the structure is retrencied, length is adjustable and can realize single or a plurality of windows cloth simultaneously, concrete technical scheme as follows:

a pipeline material distribution system for concrete pouring comprises a material outlet pipe, wherein the material outlet pipe comprises a section of pipeline or at least two sections of pipelines which are arranged in series, the pipeline comprises a first section of pipe and at least two second sections of pipes which are arranged in parallel, and the first section of pipe is communicated with at least one second section of pipe;

the first section of pipe of the pipeline at the rear section is communicated with the second section of pipe of the pipeline at the front section.

Preferably, in the above technical solution, the second section of pipe includes at least two pipes connected in series, and two adjacent pipes are movably connected by a locking structure.

Preferably, in the above technical solution, the locking structure includes an end plate, a boss, and a guide seal;

the second section of pipe comprises a pipeline A and a pipeline B which are arranged in series, the connecting end of the pipeline A is communicated with the first section of pipe, and the connecting end of the pipeline B is communicated with the first section of pipe of the next section of pipe; the free end of the pipeline A is inserted into the free end of the pipeline B and movably arranged, the end plate is arranged at the end part of the pipeline B, the distance between the end plate and the outer wall surface of the pipeline A is 0.2-3mm, the boss is arranged on the outer wall of the free end of the pipeline A, an installation groove is formed in the boss, and the guide sealing element is arranged in the installation groove and used for sealing a gap between the pipeline A and the pipeline B;

or the free end of the pipeline B is inserted into the free end of the pipeline A and movably arranged, the end plate is arranged at the end part of the pipeline A, the distance between the end plate and the outer wall surface of the pipeline B is 0.2-3mm, the boss is arranged on the outer wall of the free end of the pipeline B, a mounting groove is formed in the boss, and the guide sealing element is arranged in the mounting groove and used for sealing a gap between the pipeline A and the pipeline B.

Preferably in the above technical scheme, the second section of pipe comprises at least two straight pipes and at least one bent pipe, two adjacent straight pipes are communicated through the bent pipe or the at least two bent pipes arranged in series, and the two straight pipes can rotate relatively around the joint of the bent pipes.

Preferably, the wind-water pipeline is arranged at the joint of the first section of pipe and the second section of pipe; and a stop valve for controlling whether wind and water can pass through is arranged on the wind and water pipeline.

Preferably, a plurality of the second section pipes are provided with valves for controlling whether the conveyed materials can pass through.

Preferably, in the above technical solution, the pipeline includes a first section of pipe and two second sections of pipes arranged in parallel, and the first section of pipe and the two second sections of pipes form a Y-shaped structure.

Preferably, in the above technical scheme, the first section of the pipeline is detachably provided with a bell mouth butted with the feeding pipe.

Use the technical scheme of the utility model, following beneficial effect has:

(1) the utility model discloses a pipeline cloth system for concrete placement includes the discharging pipe, the discharging pipe includes a section pipeline or at least two sections pipeline that set up in series, the pipeline includes first section pipe and at least two second section pipes that set up side by side, first section pipe with at least one the second section pipe intercommunication; the first section of pipe of the pipeline at the rear section is communicated with the second section of pipe of the pipeline at the front section. The structure of the discharge pipe is simplified; by adopting a one-to-many structural form, the construction requirement of simultaneously distributing materials on a single window or a plurality of windows can be met, and the construction efficiency is improved; the number of the sections of the pipeline can be adjusted according to actual conditions, and the requirements for conveying materials at different distances are met.

(2) The second section pipe of the utility model comprises at least two pipelines which are connected in series, and two adjacent pipelines are movably connected through a clamping structure. The design of the clamping structure can realize the sealing connection of the two pipelines, and can ensure that the two pipelines can relatively stretch and rotate, thereby meeting the requirement of random adjustment of the material distribution position. The clamping structure comprises an end plate, a boss and a guide sealing piece, the structure is simplified, and the processing is convenient; the design that the direction sealing member combines the end plate can enough realize the regulation between the pipeline, can prevent again that the transported substance from getting into between the pipeline, ensures the device normal work.

(3) The utility model also comprises an air-water pipeline which is arranged at the joint of the first section of pipe and the second section of pipe; the wind-water pipeline is provided with a stop valve for controlling whether cleaning materials (including wind, water and sponge balls) can pass or not; and valves for controlling whether the conveyed materials or the cleaning materials (including wind, water and sponge balls) can pass through are arranged on the second sections of pipes. The design of the wind-water pipeline is convenient for cleaning the discharge pipe; the combined design of the valve on the second section pipeline and the stop valve on the air pipeline is used for controlling the flow direction of conveying materials (concrete for pouring) or cleaning materials (containing wind, water and sponge balls) and meeting different construction requirements.

(4) The pipeline in the utility model comprises a first section of pipe and two second sections of pipes arranged in parallel, and the first section of pipe and the two second sections of pipes form a Y-shaped structure, so that the pipeline occupies small space and is convenient to assemble; first section detachable be equipped with the horn mouth with the butt joint of pan feeding pipe on the first section pipe of pipeline, can realize the quick butt joint with the pan feeding pipe, improve the efficiency of construction.

A second object of the present invention is to disclose a concrete spreader, which comprises the above-mentioned pipeline spreader system for concrete pouring. And the concrete distribution construction is convenient.

A third object of the present invention is to disclose a trolley, which comprises the above concrete spreader. And the concrete distribution construction is convenient.

In addition to the above-described objects, features and advantages, the present invention has other objects, features and advantages. The present invention will be described in further detail with reference to the drawings.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification. In the drawings:

FIG. 1 is a schematic configuration diagram of a concrete pouring piping and distributing system in example 1;

FIG. 2 is a schematic view showing a structure of a second stage pipe in example 1;

FIG. 3 is a cross-sectional view of the junction of the conduit A and the conduit B of FIG. 2;

FIG. 4 is a schematic view showing the connection relationship between the first section of pipe, the second section of pipe and the wind and water pipeline in FIG. 1;

wherein, 1, discharging pipe, 1.1, first section pipe, 1.2, second section pipe, 1.21, A pipeline, 1.22, B pipeline, 1.23, first section straight tube, 1.24, second section straight tube, 1.25, return bend, 2, block the structure, 2.1, end plate, 2.2, boss, 2.3, direction sealing member, 3, valve, 4, horn mouth, 5, geomantic omen pipeline, 6, pipe strap.

Detailed Description

The embodiments of the invention will be described in detail hereinafter with reference to the accompanying drawings, but the invention can be implemented in many different ways, which are defined and covered by the claims.

Example 1:

referring to fig. 1, a pipeline material distribution system for concrete pouring includes a material discharge pipe 1, where the material discharge pipe 1 includes one section of pipeline or at least two sections of pipelines connected in series, two sections are illustrated in fig. 1, and a first section of pipe 1.1 of the pipeline at the rear section is communicated with a second section of pipe 1.2 of the pipeline at the front section.

The pipeline comprises a first section of pipe 1.1 and two second sections of pipes 1.2 arranged in parallel, a Y-shaped structure is formed by the first section of pipe 1.1 and the two second sections of pipes 1.2, and the first section of pipe 1.1 is communicated with at least one second section of pipe 1.2. Preferably, the second section pipe 1.2 is provided with a valve 3 for controlling whether materials to be conveyed or cleaned (including wind, water and sponge balls) can pass through, when only one valve on the second section pipe is opened, the first section pipe is communicated with the second section pipe, and when the valves on the two second section pipes are opened, the first section pipe is communicated with the two second section pipes simultaneously. A valve can also be arranged on the first section of pipe according to requirements.

Second section pipe 1.2 includes multistage return bend and multistage straight tube, has illustrated A pipeline 1.21, B pipeline 1.22, first section straight tube 1.23, second section straight tube 1.24 and three-section return bend 1.25 in fig. 2, specifically is: the first section of straight pipe 1.23 is communicated with the second section of straight pipe 1.24 through a bent pipe; the second section of straight pipe 1.24 is communicated with the pipeline A1.21 through two sections of serially connected bent pipes 1.25, and the pipeline A1.21 and the pipeline B1.22 are movably connected through a clamping structure 2, which is shown in detail in figure 3. The structure 2 includes end plate 2.1, boss 2.2 and direction sealing member 2.3 to stop, second section pipe 1.2 is including the A pipeline 1.21 and the B pipeline 1.22 of series connection setting, specifically is:

the connecting end of the pipeline A is communicated with the first section of pipe 1.1, and the connecting end of the pipeline B is communicated with the first section of pipe 1.1 of the next section of pipeline; the free end of A pipeline inserts the free end activity of B pipeline sets up, end plate 2.1 sets up the tip at the B pipeline, just end plate 2.1 distance the outer wall 0.2-3mm of A pipeline, boss 2.2 sets up on the outer wall of the free end of A pipeline (the boss can be with A pipeline structure as an organic whole), be equipped with mounting groove on the boss 2.2, direction sealing member 2.3 sets up be used for sealing in the mounting groove A pipeline with clearance between the B pipeline. In addition, the following method (not shown) may be adopted: the free end of the pipeline B is inserted into the free end of the pipeline A, the end plate is arranged at the end of the pipeline A, the distance between the end plate and the outer wall surface of the pipeline B is 0.2-3mm, the boss is arranged on the outer wall of the free end of the pipeline B, a mounting groove is formed in the boss, and the guide sealing element is arranged in the mounting groove and used for sealing a gap between the pipeline A and the pipeline B.

The whole of the a pipe 1.21 and the B pipe 1.22 can rotate at a certain angle around the bent pipe connected with the a pipe 1.21 as a rotation center.

In this embodiment, the a pipe 1.21 and the B pipe 1.22 are generally located at the ends of the entire piping and distribution system.

Other adjacent pipes in the pipeline are preferably connected by pipe clamps 6.

The wind and water pipeline 5 is arranged at the joint of the first section of pipe 1.1 and the second section of pipe 1.2, and is shown in detail in fig. 4; the wind-water pipeline is provided with a stop valve (not shown) for controlling whether cleaning materials (including wind, water and sponge balls) can pass through.

In order to be better butted with the feeding pipe, a bell mouth 4 butted with the feeding pipe is detachably arranged on the first section pipe 1.1 of the first section of the pipeline.

By applying the technical scheme of the embodiment, the first section of pipeline is in butt joint connection with the feeding pipe through a bell mouth; the valve 3 on the second section pipeline is regulated and controlled according to the requirement, and the purpose that a single second section pipe 1.2 conveys materials or a plurality of second section pipes 1.2 convey materials simultaneously is achieved. The relative positions of the pipeline A1.21 and the pipeline B1.22 in the second section of the pipe 1.2 can be adjusted according to requirements, so that the length of the second section of the pipe 1.2 can be adjusted, and the material distribution requirements of different windows can be met.

Example 2:

the concrete spreader comprises the concrete pouring pipeline spreading system in embodiment 1, wherein the whole concrete pouring pipeline spreading system is arranged on a spreading trolley of the concrete spreader, and the trolley drives the whole concrete pouring pipeline spreading system to move back and forth.

Example 3:

a trolley comprises the concrete spreader as in embodiment 2, and a spreading trolley of the concrete spreader is arranged on a walking track on a trolley portal.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The pipeline material distribution system for concrete pouring is characterized by comprising a material outlet pipe (1), wherein the material outlet pipe (1) comprises a section of pipeline or at least two sections of pipelines which are arranged in series, the pipeline comprises a first section of pipe (1.1) and at least two second sections of pipes (1.2) which are arranged in parallel, and the first section of pipe (1.1) is communicated with at least one second section of pipe (1.2);

the first section of pipe (1.1) of the pipeline at the rear section is communicated with the second section of pipe (1.2) of the pipeline at the front section.

2. Pipeline lining system for concrete pouring according to claim 1, characterised in that said second length of pipe (1.2) comprises at least two pipes arranged in series, adjacent two of said pipes being movably connected by means of a blocking structure (2).

3. Pipeline lining system for concrete pouring according to claim 2, characterized in that the retaining structure (2) comprises end plates (2.1), bosses (2.2) and guide seals (2.3);

the second section of pipe (1.2) comprises a pipeline A and a pipeline B which are arranged in series, the connecting end of the pipeline A is communicated with the first section of pipe (1.1), and the connecting end of the pipeline B is communicated with the first section of pipe (1.1) of the next section of pipe; the free end of the pipeline A is inserted into the free end of the pipeline B and movably arranged, the end plate (2.1) is arranged at the end part of the pipeline B, the distance between the end plate (2.1) and the outer wall surface of the pipeline A is 0.2-3mm, the boss (2.2) is arranged on the outer wall of the free end of the pipeline A, an installation groove is formed in the boss (2.2), and the guide sealing element (2.3) is arranged in the installation groove and used for sealing a gap between the pipeline A and the pipeline B;

or, the free end of B pipeline inserts the free end activity setting of A pipeline, end plate (2.1) set up the tip at A pipeline, just end plate (2.1) distance the outer wall surface of B pipeline is 0.2-3mm, boss (2.2) set up on the outer wall of the free end of B pipeline, be equipped with mounting groove on boss (2.2), direction sealing member (2.3) set up be used for sealing in the mounting groove A pipeline with the clearance between the B pipeline.

4. Pipeline distribution system for concrete pouring according to claim 1, characterized in that said second length of pipe (1.2) comprises at least two straight pipes and at least one bent pipe, adjacent two straight pipes being connected by a bent pipe or at least two bent pipes arranged in series, the two straight pipes being able to rotate relatively around the junction of the bent pipes.

5. The concrete pouring pipeline distribution system according to any one of claims 1-4, characterized by further comprising a wind and water pipeline (5), wherein the wind and water pipeline (5) is arranged at the joint of the first section of pipe (1.1) and the second section of pipe (1.2); and a stop valve for controlling whether wind and water can pass through is arranged on the wind and water pipeline.

6. Pipeline distribution system for concrete pouring according to any one of claims 1 to 4, characterized in that a plurality of said second lengths of pipe (1.2) are provided with valves (3) for controlling the passage of the transported material.

7. Pipeline distribution system for concrete pouring according to any one of claims 1 to 4, characterized in that the pipeline comprises a first section of pipe (1.1) and two second sections of pipe (1.2) arranged side by side, and a Y-shaped structure is formed by the first section of pipe (1.1) and the two second sections of pipe (1.2).

8. Pipeline distribution system for concrete pouring according to any one of claims 1-4, characterized in that the first section of the pipeline (1.1) is detachably provided with a bell mouth (4) which is butted with the feeding pipe.

9. A concrete distributor comprising the concrete pouring pipe distribution system according to any one of claims 1 to 8.

10. A trolley, characterized by comprising a concrete spreader as claimed in claim 9.

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