A rolling data acquisition device for infrastructure projects

By using a locking design with a clamping roller and mounting base, combined with the use of a slider and a swing plate, the problem of low disassembly and assembly efficiency of existing equipment is solved, enabling convenient equipment installation and disassembly, and ensuring the accuracy of data acquisition and the stability of the equipment.

CN224414779UActive Publication Date: 2026-06-26BEIJING EASY VIEWPOINT TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
BEIJING EASY VIEWPOINT TECH CO LTD
Filing Date
2025-09-02
Publication Date
2026-06-26

AI Technical Summary

Technical Problem

The existing bolted connection method between compaction data acquisition equipment and connecting frame results in low disassembly and assembly efficiency, making it difficult to adapt to efficient construction. Furthermore, it can easily affect data accuracy or damage components under limited space and high operational skill requirements.

Method used

The device employs a locking mechanism using a locking roller and mounting base, combined with a slider, half-gear, and swing plate design to facilitate easy assembly and disassembly of the machine body and bracket. The lateral movement and retraction of the locking roller enable stabilization and unlocking, while the drive assembly simplifies operation.

Benefits of technology

It improved the efficiency of equipment assembly and disassembly, reduced the difficulty of operation, ensured the accuracy of data collection and the stability of equipment, and adapted to the flexible needs of construction.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model discloses a kind of rolling data acquisition equipment for capital construction project, including body and support, body is rolling data acquisition equipment, support is located above body, support is used to connect body to capital construction project operating equipment, the bottom of support is welded with four groups of connecting blocks, and connecting block is located at the outside of body, the side of connecting block is welded with mounting seat, the top of body is provided with driving assembly, the both sides of body are provided with mounting assembly.The rolling data acquisition equipment for capital construction project is cooperated between card stick and mounting seat, and then it will be clamped into mounting seat when card stick moves horizontally, at this time, body and support will be fixed by the way of clamping mounting seat, and when card stick moves back and separates from mounting seat, body will not be fixed with support, at this time, operator can conveniently disassemble body, and it is convenient to disassemble and assemble body and support.
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Description

Technical Field

[0001] This utility model relates to the field of infrastructure engineering technology, specifically to a compaction data acquisition device for infrastructure engineering. Background Technology

[0002] In infrastructure projects, the compaction quality of the roadbed and pavement determines the strength and lifespan of the project. Accurate collection of compaction data is the core of quality control. With the development of intelligent infrastructure, compaction data acquisition equipment has emerged. It integrates positioning, pressure, speed sensors and data transmission modules, and can collect data such as roller trajectory, number of passes, and pressure in real time, providing quality feedback for construction and improving construction efficiency and quality control.

[0003] The equipment needs to be fixed to the construction equipment via a connecting frame, and the stability of the connection directly affects the accuracy of data acquisition. However, existing equipment and connecting frames mostly use bolt connections, which, while meeting the foundation stability requirements, are difficult to adapt to efficient construction. This method results in low disassembly and assembly efficiency. When the equipment is moved across sections or the installation position needs to be adjusted, multiple bolts need to be removed using special tools. At the same time, it requires high installation space and operational skills. In some work areas, the installation space is limited, making the operation difficult. It also requires precise alignment of the holes and control of the bolt tightening torque. Improper operation can easily affect data accuracy or damage components. Summary of the Invention

[0004] The purpose of this invention is to provide a compaction data acquisition device for infrastructure projects, in order to solve the problems mentioned in the background art.

[0005] A compaction data acquisition device for infrastructure engineering includes a body, a support frame located on one side of the body for mounting the body, multiple sets of connecting blocks disposed on one side of the support frame and located outside the body, multiple sets of mounting seats disposed on one side of the connecting blocks, and two sets of mounting components. Each mounting component includes a fixed plate disposed on one side of the body, two sets of movable plates slidably disposed on one side of the fixed plate, a slider disposed on one side of each movable plate, and a locking roller disposed on one side of each slider. The locking roller and the mounting seat... Parallel, after the clamping roller shifts and engages with the mounting base, the machine body will be stably installed on the bracket. After the clamping roller moves back and disengages from the mounting base, the machine body will no longer be fixed to the bracket, at which point the operator can easily remove the machine body. Two sets of swing plates are rotatably arranged on one side of the fixed plate. The swing plates are inclined. A half gear is provided on one side of the swing plate. A horizontal plate is slidably arranged on one side of the fixed plate. Two sets of racks are provided on one side of the horizontal plate, and the racks and half gears mesh. A protrusion is provided on the other side of the horizontal plate. The protrusion is semi-elliptical, and a drive assembly is provided. The drive assembly is located on one side of the machine body.

[0006] Preferably, two sets of balance bars are provided on one side of the movable plate, and a support plate is slidably provided on the outer side of the balance bars, and the support plate is provided on one side of the fixed plate.

[0007] Preferably, a second spring is provided on one side of the support plate, the end of the second spring away from the support plate is fixedly disposed with the movable plate, and the second spring is located on the outside of the balance bar.

[0008] Preferably, a buffer pad is provided on the outer side of the balance bar. The buffer pad is a rubber buffer pad and is located on the side of the support plate away from the second spring.

[0009] Preferably, two sets of fixed shafts are provided on one side of the fixed plate, and the swing plate is rotatably disposed on the outside of the fixed shafts.

[0010] Preferably, a central shaft is provided on the side of the swing plate away from the fixed shaft, and a pulley is rotatably provided on the outer side of the central shaft.

[0011] Preferably, a limit rod is provided inside the fixed plate, a balance block is provided on one side of the horizontal plate, the balance block is slidably disposed outside the limit rod, and a first spring is provided on one side of the balance block, with the end of the first spring away from the balance block disposed inside the fixed plate.

[0012] Preferably, the drive assembly includes a bearing, which is disposed on one side of the machine body. A threaded tube is disposed in the middle of the bearing, and a sleeve is screwed onto the outer side of the threaded tube. Placement plates are disposed on both sides of the sleeve, and a top block is disposed on the side of the placement plate away from the sleeve, with the outer side of the top block contacting one side of the protrusion.

[0013] By adopting the above technical solution, convenient assembly and disassembly between the body and the bracket can be achieved.

[0014] Compared with the prior art, the beneficial effects of this utility model are: the compaction data acquisition device used in infrastructure projects,

[0015] Through the cooperation between the clamping roller and the mounting base, the clamping roller will be inserted into the mounting base when it moves laterally. At this time, the clamping roller will fix the machine body and the bracket by locking the mounting base. When the clamping roller moves back and disengages from the mounting base, the machine body will no longer be fixed to the bracket. At this time, the operator can easily disassemble the machine body, which facilitates the disassembly and assembly of the machine body and the bracket. Attached Figure Description

[0016] Figure 1 This is a schematic diagram of the main structure of this utility model;

[0017] Figure 2 This is a cross-sectional view of the protective cover structure of this utility model;

[0018] Figure 3 This is a schematic diagram of the installation component structure of this utility model;

[0019] Figure 4 This is a schematic diagram of the swing plate structure of this utility model;

[0020] Figure 5 This is a sectional view of the fixing plate structure of this utility model;

[0021] Figure 6 This is a schematic diagram of the installation component of this utility model;

[0022] Figure 7 This is a schematic diagram of the drive component structure of this utility model;

[0023] Figure 8 This is a schematic diagram of the body structure of this utility model.

[0024] In the diagram: 1. Body; 2. Mounting components; 201. Fixing plate; 202. Horizontal plate; 203. Slider; 204. Clamping roller; 205. Moving plate; 206. Protrusion; 207. Central shaft; 208. Pulley; 209. Swinging plate; 210. Fixing shaft; 211. Half gear; 212. Balance block; 213. Rack; 214. First spring; 215. Limiting rod; 216. Balance rod; 217. Buffer pad; 218. Support plate; 219. Second spring; 3. Drive components; 301. Bearing; 302. Placement plate; 303. Top block; 304. Sleeve; 305. Threaded pipe; 306. Handle; 4. Bracket; 5. Protective cover; 6. Connecting block; 7. Mounting base. Detailed Implementation

[0025] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0026] Please see Figure 1-8 This utility model provides a technical solution: a compaction data acquisition device for infrastructure engineering, including a body 1 and a support 4. The body 1 is the compaction data acquisition device, and the support 4 is located above the body 1. The support 4 is used to connect the body 1 to the infrastructure engineering operation equipment. Four sets of connecting blocks 6 are welded to the bottom of the support 4, and the connecting blocks 6 are located on the outside of the body 1. A mounting seat 7 is welded to one side of the connecting blocks 6. A drive component 3 is provided on the top of the body 1, and mounting components 2 are provided on both sides of the body 1.

[0027] Please see Figure 1-6In this embodiment, the mounting assembly 2 includes a fixed plate 201, which is bolted to one side of the body 1. Two sets of movable plates 205 are slidably connected to one side of the fixed plate 201. A slider 203 is welded to one side of the movable plate 205. A locking roller 204 is welded to the side of the slider 203 away from the movable plate 205, and the locking roller 204 is parallel to the mounting base 7. Two sets of fixed shafts 210 are welded to one side of the fixed plate 201. A swing plate 209 is rotatably connected to the outer side of the fixed shaft 210. The swing plate 209 is inclined, and a half gear 211 is welded to the outer side of the swing plate 209. The swing plate 209 is located away from the fixed plate 1. A central shaft 207 is welded to one side of the fixed shaft 210. A pulley 208 is rotatably connected to the outside of the central shaft 207, and the outside of the pulley 208 contacts one side of the moving plate 205. A limit rod 215 is welded inside the fixed plate 201. A horizontal plate 202 is slidably connected to one side of the fixed plate 201. A balance block 212 is welded to one side of the horizontal plate 202, and the balance block 212 is slidably connected to the outside of the limit rod 215. Two sets of racks 213 are welded to the bottom of the horizontal plate 202, and the racks 213 mesh with the half gears 211. A protrusion 206 is welded to the top of the horizontal plate 202. The protrusion 206 is semi-elliptical.

[0028] Specifically, in order to make the horizontal plate 202 move back quickly, a first spring 214 is welded to one side of the balance block 212. The end of the first spring 214 away from the balance block 212 is welded to the inside of the fixed plate 201. Thus, when the horizontal plate 202 is pushed, the first spring 214 will be squeezed by the balance block 212. When the horizontal plate 202 is no longer pushed, the first spring 214 will drive the horizontal plate 202 to quickly return to the initial position by bouncing the balance block 212 back.

[0029] Specifically, in order to maintain the balance of the movable plate 205, two sets of balance bars 216 are welded to one side of the movable plate 205. A support plate 218 is slidably connected to the outer side of the balance bar 216. One side of the support plate 218 is welded to one side of the fixed plate 201. Thus, on the one hand, the balance bar 216 maintains the balance of the movable plate 205 during movement, preventing the movable plate 205 from becoming unbalanced and swaying during movement, and ensuring the normal displacement of the movable plate 205. On the other hand, the balance bar 216 restricts the direction of the movable plate 205, preventing the device from failing due to misalignment of the movable plate 205, and ensuring the normal use of the device.

[0030] Meanwhile, in order to enable the movable plate 205 to move back quickly, two sets of second springs 219 are welded on one side of the movable plate 205. The end of the second spring 219 away from the movable plate 205 is welded to the support plate 218. Thus, when the movable plate 205 is pushed, the second spring 219 will be squeezed by the movable plate 205, and when the movable plate 205 is no longer pushed, the second spring 219 will bounce the movable plate 205 back to the initial position quickly.

[0031] Furthermore, in order to prevent the moving plate 205 from excessively shifting back, a buffer pad 217 is fixedly connected to the outside of the balance bar 216. The buffer pad 217 is made of rubber and is located on the side of the support plate 218 away from the second spring 219. Thus, the moving plate 205 can be blocked by the support plate 218 blocking the buffer pad 217, thereby preventing the moving plate 205 from excessively shifting back.

[0032] When the protrusion 206 is pushed, it will cause the horizontal plate 202 to move downward. The downward movement of the horizontal plate 202 will cause the rack 213 to move downward and drive the half gear 211 to rotate. The rotation of the half gear 211 will cause the swing plate 209 to swing around the fixed shaft 210. At this time, one side of the swing plate 209 will push the pulley 208 by pushing the central shaft 207. The movement of the pulley 208 will push the moving plate 205 to move laterally. The movement of the moving plate 205 will drive the locking roller 204 to move laterally by driving the slider 203. At this time, the lateral movement of the locking roller 204 will... The machine body 1 can be stably installed on the bracket 4 by locking the mounting base 7 with the locking rod 204. When the protrusion 206 is no longer pushed, the first spring 214 will drive the horizontal plate 202 to quickly return to the initial position by moving the balance block 212 back. At this time, the rack 213 pushes the half gear 211 to rotate, and then the pulley 208 stops pushing the moving plate 205. Subsequently, the second spring 219 will spring the moving plate 205 back to the initial position quickly, so that the locking rod 204 is disengaged from the mounting base 7. At this time, the operator can easily disassemble the machine body 1.

[0033] Please see Figure 1 , Figure 2 and Figure 7 In this embodiment, the drive assembly 3 includes a bearing 301, which is fixedly mounted on the top of the body 1. A threaded tube 305 is fixedly mounted in the middle of the bearing 301. A sleeve 304 is screwed onto the outer side of the threaded tube 305. A threaded hole is opened inside the sleeve 304, and the thread on the inner wall of the threaded hole matches the thread on the outer side of the threaded tube 305. Placement plates 302 are welded to both sides of the sleeve 304. A top block 303 is welded to the side of the placement plate 302 away from the sleeve 304. The top block 303 is circular, and the outer side of the top block 303 contacts one side of the protrusion 206. A protective cover 5 is bolted to the top of the body 1, and the protective cover 5 is located outside the threaded tube 305. Thus, the threaded tube 305 can be protected by the protective cover 5. A handle 306 is welded to the end of the threaded tube 305 away from the bearing 301, and the handle 306 is located outside the protective cover 5. Thus, the threaded tube 305 can be easily rotated by the handle 306.

[0034] When the handle 306 is turned, the handle 306 will drive the threaded tube 305 to rotate. The rotation of the threaded tube 305 will drive the sleeve 304 to move linearly. The displacement of the sleeve 304 will push the placement plate 302 to move. The movement of the placement plate 302 will drive the top block 303 to move. The displacement of the top block 303 will push the protrusion 206 to move longitudinally.

[0035] The compaction data acquisition device used in infrastructure projects works by cooperating with the clamping roller 204 and the mounting base 7. When the clamping roller 204 moves laterally, it will be inserted into the mounting base 7. At this time, the clamping roller 204 will fix the machine body 1 and the bracket 4 by locking the mounting base 7. When the clamping roller 204 moves back and disengages from the mounting base 7, the machine body 1 will no longer be fixed to the bracket 4. At this time, the operator can easily disassemble the machine body 1, which facilitates the disassembly and assembly of the machine body 1 and the bracket 4.

[0036] In use, install the machine body 1. First, turn the handle 306 to rotate the threaded tube 305. The rotation of the threaded tube 305 will cause the sleeve 304 to move linearly. The displacement of the sleeve 304 will push the placement plate 302 to move. The movement of the placement plate 302 will cause the top block 303 to move. The displacement of the top block 303 will push the protrusion 206 to move longitudinally. When the protrusion 206 is pushed, the protrusion 206 will cause the horizontal plate 202 to move downward. The downward movement of the horizontal plate 202 will cause the rack 213 to move downward and push the half gear 211 to rotate. The rotation of the half gear 211 will cause the swing plate 209 to swing around the fixed shaft 210. At this time, one side of the swing plate 209 will push the pulley 208 by pushing the central shaft 207. The movement of the pulley 208 will push the moving plate 205 to move laterally. The movement of the moving plate 205 will... By driving the slider 203, the locking roller 204 is moved laterally. At this time, the lateral movement of the locking roller 204 will lock into the mounting base 7. Thus, the machine body 1 can be stably installed on the bracket 4 by locking the mounting base 7 with the locking roller 204. Then, when disassembling the machine body 1, the handle 306 is reversed, causing the threaded tube 305 to reverse and drive the sleeve 304 to move back. At this time, the top block 303 no longer pushes the protrusion 206. When the protrusion 206 is no longer pushed, the first spring 214 will drive the horizontal plate 202 to quickly return to the initial position by moving the balance block 212 back. At this time, the rack 213 pushes the half gear 211 to rotate. Then the pulley 208 no longer pushes the moving plate 205. Subsequently, the second spring 219 will spring the moving plate 205 back to the initial position quickly, causing the locking roller 204 to disengage from the mounting base 7. At this time, the operator can easily disassemble the machine body 1.

[0037] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.

Claims

1. A rolling data collection device for a construction project, comprising: include: Body (1); A bracket (4) is located on one side of the body (1); Multiple sets of connecting blocks (6) are provided on one side of the bracket (4) and the connecting blocks (6) are located on the outside of the body (1); Multiple sets of mounting bases (7) are provided on one side of the connecting block (6); Two sets of mounting components (2), each mounting component (2) includes a fixed plate (201), the fixed plate (201) being disposed on one side of the body (1), two sets of movable plates (205) being slidably disposed on one side of the fixed plate (201), a slider (203) being disposed on one side of the movable plate (205), a locking rod (204) being disposed on one side of the slider (203), and the locking rod (204) being parallel to the mounting base (7), two sets of swing plates (209) being rotatably disposed on one side of the fixed plate (201), a half gear (211) being disposed on one side of the swing plate (209), a horizontal plate (202) being slidably disposed on one side of the fixed plate (201), two sets of racks (213) being disposed on one side of the horizontal plate (202), and the racks (213) meshing with the half gears (211), and a protrusion (206) being disposed on the other side of the horizontal plate (202); and Drive component (3) is disposed on one side of body (1).

2. The roller data collection device for infrastructure projects of claim 1, wherein, Two sets of balance bars (216) are provided on one side of the movable plate (205), and a support plate (218) is slidably provided on the outer side of the balance bar (216). The support plate (218) is provided on one side of the fixed plate (201).

3. The compaction data acquisition device for infrastructure projects according to claim 2, characterized in that, A second spring (219) is provided on one side of the support plate (218). The end of the second spring (219) away from the support plate (218) is fixedly disposed with the moving plate (205), and the second spring (219) is located outside the balance bar (216).

4. The compaction data acquisition device for infrastructure projects according to claim 3, characterized in that, A buffer pad (217) is provided on the outside of the balance bar (216). The buffer pad (217) is a rubber buffer pad and is located on the side of the support plate (218) away from the second spring (219).

5. The compaction data acquisition device for infrastructure projects according to claim 1, characterized in that, Two sets of fixed shafts (210) are provided on one side of the fixed plate (201), and the swing plate (209) is rotatably arranged on the outside of the fixed shafts (210).

6. The compaction data acquisition device for infrastructure projects according to claim 5, characterized in that, The swing plate (209) has a central shaft (207) on the side away from the fixed shaft (210), and a pulley (208) is rotatably provided on the outer side of the central shaft (207).

7. The compaction data acquisition device for infrastructure projects according to claim 1, characterized in that, The fixed plate (201) is provided with a limit rod (215) inside, and a balance block (212) is provided on one side of the horizontal plate (202). The balance block (212) is slidably disposed on the outside of the limit rod (215), and a first spring (214) is provided on one side of the balance block (212). The end of the first spring (214) away from the balance block (212) is disposed inside the fixed plate (201).

8. The compaction data acquisition device for infrastructure projects according to claim 1, characterized in that, The drive assembly (3) includes a bearing (301), which is disposed on one side of the body (1). A threaded tube (305) is disposed in the middle of the bearing (301). A sleeve (304) is screwed onto the outer side of the threaded tube (305). A placement plate (302) is disposed on both sides of the sleeve (304). A top block (303) is disposed on the side of the placement plate (302) away from the sleeve (304), and the outer side of the top block (303) contacts one side of the protrusion (206).