Automatic concrete distributing device
By combining the material distribution pipe and the material spreading pipe, and using the sliding of the slider to achieve automated material distribution, the problems of complex structure and low degree of automation in the existing technology are solved, and efficient automatic distribution of concrete is realized.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- CHINA RAILWAY ELEVENTH BUREAU GROUP FIFTH ENGINEERING CO LTD
- Filing Date
- 2025-09-12
- Publication Date
- 2026-06-19
AI Technical Summary
Existing concrete distribution devices have complex structures, low levels of automation, and many overlapping pipeline sections.
The system employs several short cloth-feeding pipes and multiple distribution pipes, connected by a distribution assembly. A slider slides within a chute to connect the cloth-feeding pipes and the distribution pipes. Combined with a sliding cylinder to push the slider, automated material distribution is achieved.
The overall structure has been simplified, the level of automation has been improved, and concrete can be automatically delivered to different locations, avoiding duplication of multiple pipes and improving material distribution efficiency.
Smart Images

Figure CN224379429U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the technical field of concrete pouring equipment, specifically relating to an automatic material dispensing device for concrete. Background Technology
[0002] To enable concrete pouring at different locations, a material distribution device is installed to allow concrete to be poured in multiple places. The existing material distribution device achieves material distribution by setting multiple outlets on the discharge hopper and manually controlling the opening of the corresponding outlets. This not only has a low degree of automation, but also has a complex overall structure due to the presence of multiple pipes with many overlapping parts. Utility Model Content
[0003] This utility model aims to provide an automatic material dispensing device for concrete, which has a simple overall structure and can realize automated material dispensing.
[0004] Therefore, the technical solution adopted by this utility model is as follows: an automatic concrete dispensing device, comprising several short dispensing pipes and multiple dispensing pipes that can extend to different positions, and dispensing pipes are connected between two short dispensing pipes through a dispensing assembly; the dispensing assembly includes a dispensing support block, the dispensing pipes and a short dispensing pipe are arranged on the front side of the dispensing support block at left and right intervals, the rear side of the dispensing support block is provided with a sliding groove for left and right movement, a slider is slidably arranged in the sliding groove, and another short dispensing pipe is arranged on the rear side of the slider.
[0005] As a preferred embodiment of the above scheme, a sliding cylinder capable of pushing the slider to slide within the slide groove is provided on either the left or right side of the material distribution support block via a sliding bracket.
[0006] Further preferably, the front side of the material distribution support block is provided with a front material connector at the position corresponding to each material through hole, which is connected to the material distribution pipe or the front material short pipe. The rear side of the slider is provided with a rear material connector at the position corresponding to the connecting hole. The rear material connector is used to connect to the rear material short pipe.
[0007] Further preferably, the fabric short tube includes a fabric straight tube and a fabric flexible tube, and the fabric flexible tube is connected to the slider.
[0008] The beneficial effects of this utility model are: there are no multiple overlapping pipes, which makes the overall structure simple, and the connection between adjacent placing pipes or between placing pipes and distribution pipes is achieved by the left and right sliding of the slider in the groove, so that concrete can be transported to the placing pipe or to different distribution pipes, thereby enabling the concrete to be transported to different places. Attached Figure Description
[0009] Figure 1 This is a schematic diagram of the material distribution component in this utility model.
[0010] Figure 2 This is a schematic diagram of the material distribution support block in this utility model.
[0011] Figure 3 This is a schematic diagram of the slider in this utility model.
[0012] Reference numerals: material distribution pipe-610, material distribution short pipe-620, material distribution straight pipe-621, material distribution flexible hose-622, material distribution support block-630, material distribution through hole-631, front material distribution joint-632, slide groove-633, slider-640, connecting hole-641, rear material distribution joint-642, sliding bracket-650, sliding cylinder-660. Detailed Implementation
[0013] The present invention will be further described below with reference to embodiments and accompanying drawings:
[0014] like Figure 1-3 As shown, an automatic concrete distribution device mainly consists of several short concrete distribution pipes 620, multiple distribution pipes 610, and multiple distribution components. The distribution pipes 610 are connected between two short concrete distribution pipes 620 through the distribution components, forming a "U" shape between each distribution component.
[0015] The specific structure of the material distribution component includes a material distribution support block 630, a material distribution pipe 610 and a short material distribution pipe are arranged on the front side of the material distribution support block 630 at left and right intervals, a sliding groove 633 for left and right movement is provided on the rear side of the material distribution support block 630, a slider 640 is slidably arranged in the sliding groove 633, and another short material distribution pipe is provided on the rear side of the slider 640.
[0016] The rearmost placing pipe 620 is connected at one end to the concrete output end with conveying power, allowing the entire device to receive concrete. The frontmost placing pipe extends to one of the locations where the concrete needs to reach. The middle placing pipe connects two adjacent distribution support blocks, with one end connected to the distribution support block and the other extending to the location where the concrete needs to reach. By moving the slider, the two placing pipes can be connected, or the placing pipe can be connected to the distribution pipe, thus allowing the concrete to reach different locations.
[0017] To enable automatic switching of the material distribution components, a sliding cylinder 660 is installed on either the left or right side of the material distribution support block 630 via a sliding bracket 650, capable of pushing the slider 640 to slide within the groove. To facilitate the connection between the material distribution tube or the distribution pipe and the material distribution support block, a front material distribution connector 632 is provided on the front side of the material distribution support block 630 at the position corresponding to each material distribution through hole 631, for connection to the distribution pipe or the front material distribution tube. To facilitate the connection between the material distribution tube and the slider, a rear material distribution connector 642 is provided on the rear side of the slider 640 at the position corresponding to the connecting hole 641, the rear material distribution connector 642 for connection to the rear material distribution tube.
[0018] To facilitate the movement of the rear fabric tube by the slider, the fabric tube 620 includes a fabric straight tube 621 and a fabric flexible tube 622, and the fabric flexible tube 622 is connected to the slider 640.
Claims
1. An automatic concrete distributing device, characterized by: It includes several short fabric tubes (620) and multiple distribution tubes (610) that can extend to different positions. The two short fabric tubes (620) are connected by a distribution tube (610). The distribution tube (610) is provided on the front side of the distribution support block (630) with the distribution tube (610) and a short fabric tube (620) spaced apart. The rear side of the distribution support block (630) is provided with a sliding groove (633) that can move left and right. A slider (640) is slidably arranged in the sliding groove (633). Another short fabric tube (620) is provided on the rear side of the slider (640).
2. The automatic concrete distributing device as claimed in claim 1, wherein: On either the left or right side of the material distribution support block (630), a sliding cylinder (660) is provided via a sliding bracket (650) to push the slider (640) to slide in the groove.
3. The automatic concrete distributing device as claimed in claim 1, wherein: The front side of the material distribution support block (630) is provided with a front material connector (632) corresponding to the position of each material through hole (631) and connected to the material distribution pipe or the front material short pipe (620). The rear side of the slider (640) is provided with a rear material connector (642) corresponding to the position of the connecting hole (641). The rear material connector (642) is used to connect to the rear material short pipe (620).
4. The automatic concrete dispensing device according to claim 1, characterized in that: The fabric tube (620) includes a fabric straight tube (621) and a fabric flexible tube (622), and the fabric flexible tube (622) is connected to the slider (640).