A visual inspection powered conveyor belt assisted detection device
By designing rotating support components and positioning components, the problem of unstable adjustment of the unpowered conveyor table is solved, enabling flexible adjustment and detection assistance of the conveyor slide, and improving the efficiency and accuracy of material conveying and detection.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- TIANJIN HESHIMEI BEVERAGE SCI & TECH
- Filing Date
- 2025-08-22
- Publication Date
- 2026-06-19
AI Technical Summary
Existing non-powered conveyor systems have difficulty in flexibly adjusting the tilt angle and height of the conveyor slide, resulting in poor adaptability and an unstable adjustment process, which affects the efficiency of material conveying and testing.
The design employs a rotating support assembly and a positioning assembly. The coaxial structure of the arc-shaped support cylinder and the support column enables flexible adjustment of the conveyor slide, and the positioning bolts are used for precise positioning. At the same time, a detection probe is installed on the slide for auxiliary detection.
It enables flexible and stable adjustment of the angle and height of the conveyor slide, improves the adaptability and testing efficiency of the device, reduces human error, and enhances the reliability of product quality testing.
Smart Images

Figure CN224376815U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of non-powered conveyor detection technology, and in particular to an auxiliary detection device for visual inspection of non-powered conveyor belts. Background Technology
[0002] In the production of drinking water barrels and purified water bottles, visual inspection is a crucial step in ensuring their quality. Non-powered conveyor belts, as a common type of conveying equipment for these products, play a vital role in this process. The principle of non-powered conveying is to utilize the weight of the barrels and bottles themselves, automatically transporting them via an inclined conveyor system. This design eliminates the need for an additional power source, such as a motor, thus reducing energy consumption and equipment costs, and is therefore widely used in many applications.
[0003] Currently, there are some non-powered conveyor systems in existing technologies, such as the non-powered conveyor system disclosed in CN213058754U, which includes a base, a first slide rod, and a connecting mounting plate. This conveyor system, through its designed first slide rod, push plate, second slide rod, rebound spring, electric telescopic push rod, and rotating fixing nut, achieves automatic material pushing, solving the problems of arm muscle soreness and strenuous pushing caused by manual material pushing.
[0004] However, the above-mentioned technical solutions still have many shortcomings in practical applications. On the one hand, it is not convenient to adjust the support angle of the non-powered transmission slide, and the tilt angle and height difference cannot be flexibly adjusted according to actual needs. In actual production, the characteristics of different materials and different testing scenarios have different requirements for the tilt angle and height difference of the conveyor slide. For example, some easily rolling and slipping materials require a smaller tilt angle; while some materials that need to be conveyed quickly may require a larger tilt angle. Existing non-powered conveyor tables cannot meet these diverse needs, thus limiting their application scope. On the other hand, when adjusting the angle of the conveyor slide, the lack of effective stable support and convenient positioning devices leads to instability in the adjustment process and inaccurate positioning after adjustment, affecting the normal conveying of materials and the smooth progress of testing work. Utility Model Content
[0005] The purpose of this invention is to provide a non-powered conveyor belt auxiliary inspection device for visual inspection. The angle and height difference of the conveyor slide can be flexibly adjusted by rotating the support assembly to adapt to different materials and inspection scenarios. During adjustment, the arc-shaped support column slides within the arc-shaped support cylinder and is coaxially designed, ensuring adjustment stability. After adjustment, the positioning bolts and positioning holes cooperate to achieve convenient and accurate positioning. Simultaneously, the inspection probe installed on the conveyor slide assists in inspection, improving inspection efficiency and accuracy, reducing the labor intensity of workers, reducing manual inspection errors, greatly enhancing the reliability of product quality inspection, and broadening the application range of the device.
[0006] To achieve the above objectives, the main technical solutions adopted by this utility model include:
[0007] A visual inspection device for use with a non-powered conveyor belt includes:
[0008] A support base is provided, an adjustable conveyor slide is provided above the support base, a rotating support component is installed on one side of the bottom of the conveyor slide, a positioning component is installed on the other side of the bottom of the conveyor slide, and an auxiliary detection component is installed on the conveyor slide.
[0009] In the aforementioned visual inspection non-powered conveyor belt auxiliary inspection device, the rotating support assembly includes a support frame fixedly connected to one side of the top of the support base, and a support rotating block is rotatably mounted on the top of the support frame via a support rotating shaft.
[0010] In the above-mentioned visual inspection non-powered conveyor belt auxiliary inspection device, the positioning component includes an arc-shaped support cylinder fixedly connected to the other side of the top of the support base, an arc-shaped support column slidably connected to the inner wall of the arc-shaped support cylinder, and the top of the arc-shaped support column is fixedly connected to the bottom of the conveyor slide.
[0011] In the above-mentioned visual inspection non-powered conveyor belt auxiliary inspection device, the arc-shaped support cylinder and the arc-shaped support column are both designed to be coaxial with the support shaft.
[0012] In the above-mentioned visual inspection non-powered conveyor belt auxiliary inspection device, a threaded seat is fixedly connected to the top of the side of the arc-shaped support cylinder, and a positioning bolt for fixing the arc-shaped support column is threadedly connected to the threaded seat.
[0013] In the above-mentioned visual inspection non-powered conveyor belt auxiliary inspection device, the side of the arc-shaped support column is provided with a plurality of positioning holes arranged at equal intervals corresponding to the position of the positioning bolt.
[0014] The above-mentioned visual inspection non-powered conveyor belt auxiliary inspection device includes an auxiliary inspection component comprising an inspection frame fixedly connected to the top of the conveyor slide, on which an inspection probe for auxiliary inspection is installed.
[0015] This utility model has at least the following beneficial effects:
[0016] 1. This utility model realizes a non-powered conveyor belt auxiliary detection device for visual inspection, which is flexible in angle adjustment and highly adaptable: This utility model realizes the rotational support of one end of the conveyor slide through the support block on the rotating support assembly, thereby facilitating the angle adjustment of the conveyor slide. By adjusting the tilt angle and height difference of the conveyor slide, it can be flexibly adjusted according to actual needs to adapt to the requirements of different materials and detection scenarios. For example, for fragile materials, the tilt angle of the conveyor slide can be reduced to decrease the impact force on the material during transportation; for materials requiring rapid detection, the tilt angle can be increased to improve the conveying speed. This flexibility makes the device have a wider range of applications and can meet the detection needs of different industries and products.
[0017] 2. High Adjustment Stability: During adjustment, the conveyor chute slides along the inner wall of the arc-shaped support cylinder at the top of the support base via an arc-shaped support column on the other side of the bottom of the conveyor chute. This design increases the stability of the conveyor chute angle adjustment. Both the arc-shaped support cylinder and the arc-shaped support column are coaxial with the support shaft, further ensuring the smoothness of the adjustment process and preventing the conveyor chute from shaking or shifting during adjustment, thus ensuring the accuracy of material conveying.
[0018] 3. Convenient and accurate positioning: After adjustment, by tightening the positioning bolts on the side of the arc-shaped support cylinder, and under the action of the threaded seat, the positioning bolts are driven into the corresponding positioning holes on the side of the arc-shaped support column, thereby achieving convenient positioning of the conveyor slide after adjustment. This positioning method is simple to operate and can quickly and accurately fix the conveyor slide at the required angle position, improving work efficiency and ensuring the stability of the conveyor slide after positioning, avoiding material conveying failures caused by inaccurate positioning.
[0019] 4. Auxiliary Inspection Function: Inspection probes are installed on the conveyor chute to assist workers in inspection. These probes monitor the appearance, dimensions, and other quality information of the materials in real time and provide data feedback to workers, helping them to promptly identify problems and improve inspection efficiency and accuracy. Simultaneously, the installation of inspection probes reduces the workload of workers, minimizes errors in manual inspection, and further enhances the reliability of product quality inspection. Attached Figure Description
[0020] The accompanying drawings, which are included to provide a further understanding of this application and form part of this application, illustrate exemplary embodiments and are used to explain this application, but do not constitute an undue limitation of this application. In the drawings:
[0021] Figure 1 This is a schematic diagram of the structure of the non-powered conveyor belt auxiliary detection device for visual inspection according to this utility model;
[0022] Figure 2 This is a cross-sectional structural schematic diagram of the non-powered conveyor belt auxiliary detection device for visual inspection according to this utility model;
[0023] Figure 3 This is a schematic diagram of the rotating support assembly in the non-powered conveyor belt auxiliary inspection device for visual inspection of this utility model;
[0024] Figure 4 This is a schematic diagram of the positioning component in the visual inspection auxiliary detection device for non-powered conveyor belts of this utility model.
[0025] Explanation of icon numbers:
[0026] 1. Support base; 2. Conveyor slide; 3. Rotation support assembly; 4. Positioning assembly; 5. Auxiliary detection assembly;
[0027] 301. Support frame; 3011. Support pivot; 3012. Support pivot block;
[0028] 401. Arc-shaped support cylinder; 4011. Arc-shaped support column;
[0029] 402 threaded seat; 4021 locating bolt;
[0030] 403. Positioning hole;
[0031] 501, Detection frame; 5011, Detection probe. Detailed Implementation
[0032] The following will describe in detail the implementation of this application with reference to the accompanying drawings and embodiments, so that the implementation process of how this application uses technical means to solve technical problems and achieve technical effects can be fully understood and implemented accordingly.
[0033] Please refer to Figures 1 to 4 As shown, an embodiment of the present invention provides a visual inspection auxiliary detection device for a non-powered conveyor belt, comprising: a support base 1, an adjustable conveyor slide 2 above the support base 1, a rotating support component 3 installed on one side of the bottom of the conveyor slide 2, a positioning component 4 installed on the other side of the bottom of the conveyor slide 2, and an auxiliary detection component 5 installed on the conveyor slide 2.
[0034] By adopting the above technical solution, the overall structural design is compact and reasonable, and the components cooperate with each other, providing a solid foundation for the unpowered transmission and auxiliary detection functions, ensuring that the device can operate stably in different working scenarios, and effectively improving the efficiency and reliability of the detection work.
[0035] To achieve flexible and stable rotational support at one end of the conveyor slide 2, in this embodiment: the rotational support assembly 3 includes a support frame 301 that is securely fixed to one side of the top of the support base 1. The top of the support frame 301 is rotatably mounted with a support rotating block 3012 via a precision support rotating shaft 3011. Through the clever cooperation between the support rotating shaft 3011 and the support rotating block 3012, the conveyor slide 2 can rotate smoothly around this point, thereby easily achieving angle adjustment and meeting the diverse needs of different materials and testing scenarios for conveying angle, greatly enhancing the applicability and flexibility of the device.
[0036] To ensure the stability of the conveyor slide 2 during angle adjustment and its precise positioning after adjustment, in this embodiment, the positioning component 4 includes an arc-shaped support cylinder 401 that is firmly fixedly connected to the other side of the top of the support base 1. An arc-shaped support column 4011 is slidably connected to the inner wall of the arc-shaped support cylinder 401, and the top of the arc-shaped support column 4011 is tightly fixedly connected to the bottom of the conveyor slide 2. The sliding connection design between the arc-shaped support cylinder 401 and the arc-shaped support column 4011 provides a stable support structure for the angle adjustment of the conveyor slide 2, effectively avoiding shaking and offset during the adjustment process, ensuring the smoothness and accuracy of the adjustment process, and laying a good foundation for subsequent precise positioning.
[0037] To further improve the stability and smoothness of the angle adjustment of the conveyor slide 2, in this embodiment, the arc-shaped support cylinder 401 and the arc-shaped support column 4011 are both designed to be coaxial with the support shaft 3011. This coaxial design ensures that the movement of each component is coordinated during the rotation of the conveyor slide 2, reducing unnecessary friction and resistance. This not only makes angle adjustment easier and less strenuous, but also further enhances the stability of the adjustment process, ensuring that the conveyor slide 2 can be accurately adjusted according to the preset angle.
[0038] To achieve convenient and secure positioning of the conveyor slide 2 after adjustment, in this embodiment: a threaded seat 402 is fixedly connected to the top of the side of the arc-shaped support cylinder 401, and a positioning bolt 4021 for fixing the arc-shaped support column 4011 is threadedly connected to the threaded seat 402. The threaded connection between the threaded seat 402 and the positioning bolt 4021 is simple and convenient to operate. Simply rotating the positioning bolt 4021 can fix or loosen the arc-shaped support column 4011, thereby quickly completing the positioning or angle adjustment of the conveyor slide 2, greatly improving work efficiency, while ensuring the firmness of the positioning and preventing the conveyor slide 2 from moving unexpectedly during operation.
[0039] To ensure more precise positioning of the conveyor slide 2, in this embodiment, several positioning holes 403 are evenly spaced on the side of the arc-shaped support column 4011, corresponding to the positions of the positioning bolts 4021. These multiple evenly spaced positioning holes 403 provide users with a variety of positioning options, meeting the precise positioning requirements of different tilt angles. Users can insert the positioning bolts 4021 into the corresponding positioning holes 403 according to actual working requirements to achieve precise fixing of the conveyor slide 2, ensuring the accuracy and stability of the testing work.
[0040] To assist workers in performing visual inspections more efficiently and accurately, in this embodiment, the auxiliary inspection component 5 includes an inspection frame 501 securely connected to the top of the conveyor chute 2. An inspection probe 5011 for auxiliary inspection is mounted on the inspection frame 501. The inspection frame 501 provides a stable mounting platform for the inspection probe 5011, ensuring that the inspection probe 5011 can comprehensively and accurately inspect the materials during the conveying process from a suitable position. The introduction of the inspection probe 5011 greatly reduces the workload of workers, improves inspection efficiency and accuracy, and enables timely detection of defects and problems in materials, providing strong support for product quality control.
[0041] The working principle of this utility model is as follows:
[0042] The conveyor slide 2 is rotated and supported at one end by the support block 3012 in the rotating support assembly 3. With this ingenious design, the angle of the conveyor slide 2 can be easily adjusted. According to the actual needs of different material characteristics and detection scenarios, the tilt angle and height difference of the conveyor slide 2 can be flexibly adjusted, enabling the device to adapt to diverse working conditions and greatly expanding its application range.
[0043] During the angle adjustment process of the conveyor slide 2, the arc-shaped support column 4011 on the other side of its bottom will slide smoothly on the inner wall of the arc-shaped support cylinder 401 at the top of the support base 1. This sliding design provides stable support for angle adjustment, effectively avoiding shaking and instability during the adjustment process, and ensuring a smooth and unobstructed adjustment process.
[0044] Once the conveyor slide 2 is adjusted to the appropriate angle, by turning the positioning bolt 4021 on the side of the arc-shaped support cylinder 401, the positioning bolt 4021 will be precisely engaged in the corresponding positioning hole 403 on the side of the arc-shaped support column 4011 under the action of the thread of the threaded seat 402. This achieves convenient and secure positioning of the conveyor slide 2 after adjustment, preventing it from changing angle due to external forces during operation.
[0045] In addition, the detection probe 5011 installed on the conveyor chute 2 will detect the materials in real time during the conveying process. It can quickly and accurately capture various characteristic information of the materials and feed the data back to the staff, providing strong support for visual inspection work, helping the staff to find problems with the materials in time, and ensuring that the product quality meets the standard requirements.
[0046] The foregoing description illustrates and describes several preferred embodiments of the present invention. However, as previously stated, it should be understood that the present invention is not limited to the forms disclosed herein and should not be construed as excluding other embodiments. It can be used in various other combinations, modifications, and environments, and can be altered within the scope of the inventive concept described herein through the foregoing teachings or techniques or knowledge in related fields. Any modifications and variations made by those skilled in the art that do not depart from the spirit and scope of the present invention should be within the protection scope of the appended claims.
Claims
1. A non-powered conveyor belt assisted inspection device for visual inspection, comprising a support base (1), characterized in that, An adjustable conveyor slide (2) is provided above the support base (1). A rotating support assembly (3) is installed on one side of the bottom of the conveyor slide (2), and a positioning assembly (4) is installed on the other side of the bottom of the conveyor slide (2). An auxiliary detection assembly (5) is installed on the conveyor slide (2).
2. A non-powered belt assist inspection device for visual inspection of a belt as claimed in claim 1, wherein: The rotating support assembly (3) includes a support frame (301) fixedly connected to one side of the top of the support base (1), and a support rotating block (3012) is rotatably mounted on the top of the support frame (301) via a support rotating shaft (3011).
3. A non-powered belt assist inspection device for visual inspection of a belt as defined in claim 2, wherein: The positioning component (4) includes an arc-shaped support cylinder (401) fixedly connected to the other side of the top of the support base (1). An arc-shaped support column (4011) is slidably connected to the inner wall of the arc-shaped support cylinder (401), and the top of the arc-shaped support column (4011) is fixedly connected to the bottom of the conveying slide (2).
4. A non-powered belt assist inspection device for visual inspection of a belt as defined in claim 3, wherein: Both the arc-shaped support cylinder (401) and the arc-shaped support column (4011) are designed to be coaxial with the support shaft (3011).
5. A non-powered belt assist inspection device for visual inspection of a belt as defined in claim 4, wherein: A threaded seat (402) is fixedly connected to the top of the side of the arc-shaped support cylinder (401), and a positioning bolt (4021) for fixing the arc-shaped support column (4011) is threaded onto the threaded seat (402).
6. A non-powered belt assist inspection device for visual inspection of a belt as defined in claim 5, wherein: The side of the arc-shaped support column (4011) and the position corresponding to the positioning bolt (4021) are provided with a plurality of positioning holes (403) arranged at equal intervals.
7. A non-powered belt assist inspection device for visual inspection of a belt as defined in claim 6, wherein: The auxiliary detection component (5) includes a detection frame (501) fixedly connected to the top of the conveyor slide (2), and a detection probe (5011) for auxiliary detection is installed on the detection frame (501).