A sliding disassembly and assembly mechanism for a high-voltage support of an electron accelerator.

The design of the guide rail sliding disassembly and assembly mechanism enables stable installation and convenient sliding of the high-voltage bracket, solving the problem of low efficiency of traditional fixed installation, meeting the flexible adjustment and stable operation requirements of the electron accelerator, and extending the service life of the equipment.

CN224433138UActive Publication Date: 2026-06-30TIANJIN AOCHI TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
TIANJIN AOCHI TECH CO LTD
Filing Date
2025-07-22
Publication Date
2026-06-30

AI Technical Summary

Technical Problem

The fixed installation method of traditional high-voltage brackets makes disassembly and reinstallation time-consuming and labor-intensive, cannot flexibly adjust the position, and has high friction, which affects the operating efficiency and lifespan of the equipment.

Method used

The slide-mount mechanism with guide rails is used to achieve precise positioning and stable installation using positioning plates and positioning bolts. The rollers at the bottom of the slider reduce friction, and the handle allows for easy sliding. The fixing bolts are used to fix the position, meeting the needs for flexible adjustment.

Benefits of technology

It improves the efficiency of equipment installation, commissioning and maintenance, meets the position adjustment requirements of electron accelerator under different operating conditions, and ensures the stability of equipment operation and extends its service life.

✦ Generated by Eureka AI based on patent content.

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Patent Text Reader

Abstract

This utility model discloses a sliding disassembly and assembly mechanism for a high-voltage support of an electron accelerator, comprising a fixed plate. Two opposing guide rails are fixedly connected to the top of the fixed plate. A sliding mechanism is slidably fitted onto the inner side of each guide rail, and the sliding mechanism is limited by two fixing bolts. The sliding mechanism includes a slider, rollers, and a handle. A high-voltage support is mounted on the top of the sliding mechanism. A groove matching the slider is formed in the guide rail. Rollers are fixedly installed at the four corners of the bottom of the slider, and the rollers contact the inner wall of the bottom of the groove. A handle is fixedly installed on one side of the slider. This utility model achieves precise installation and convenient disassembly through the matching of positioning holes on the fixed plate with mounting base holes and positioning bolts. Simultaneously, the design of the rollers and handle at the bottom of the slider allows for flexible adjustment of the high-voltage support position, which is then fixed with fixing bolts, effectively improving equipment maintenance efficiency and ensuring operational stability.
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Description

Technical Field

[0001] This utility model relates to the field of electron accelerator technology, and in particular to a guide rail sliding assembly and disassembly mechanism for a high-voltage support for an electron accelerator. Background Technology

[0002] In electron accelerator equipment, the installation stability and adjustability of the high-voltage support are crucial to the overall performance and operational safety of the equipment. Traditional high-voltage support installation methods mostly employ a fixed structure, directly fixing the high-voltage support to the equipment frame with bolts. While this installation method achieves basic fixation, it has several drawbacks in practical use. Firstly, fixed installations require significant time and manpower for disassembly and reinstallation during equipment commissioning, maintenance, or repositioning, resulting in low efficiency. Secondly, fixed structures make it difficult to flexibly adjust the position of the high-voltage support according to the different operating conditions of the electron accelerator, failing to meet the requirements of precise equipment operation. Furthermore, in traditional installation methods, the friction between the high-voltage support and the mounting foundation is high, making movement difficult, and frequent disassembly and reassembly can lead to wear and tear on the mounting components, affecting the equipment's service life and stability.

[0003] Therefore, we propose a guide rail sliding assembly and disassembly mechanism for a high-voltage support for an electron accelerator. Utility Model Content

[0004] The main objective of this invention is to provide a sliding disassembly and assembly mechanism for a high-voltage support of an electron accelerator. This mechanism aims to prevent the time-consuming, labor-intensive, and inefficient disassembly and reinstallation problems caused by traditional fixed installations during equipment commissioning, maintenance, or position adjustment. It also avoids situations where the fixed structure prevents flexible adjustment of the high-voltage support position, thus failing to meet the precise operational requirements of the electron accelerator. Furthermore, it eliminates the problems of high friction between the high-voltage support and the mounting base leading to difficulty in movement and frequent disassembly causing component wear and affecting equipment lifespan. This improves the efficiency of equipment installation, commissioning, and maintenance, meets the need for flexible adjustment of the high-voltage support position under different operating conditions of the electron accelerator, ensures equipment operational stability, and extends equipment lifespan. This effectively solves the problems in the background art.

[0005] To achieve the above objectives, the technical solution adopted by this utility model is as follows:

[0006] A sliding disassembly and assembly mechanism for a high-voltage support for an electron accelerator includes a fixed plate. Two opposing guide rails are fixedly connected to the top of the fixed plate. A sliding mechanism is slidably fitted on the inner side of the guide rails and is limited by two fixing bolts. The sliding mechanism includes a slider, a roller, and a handle. A high-voltage support is provided on the top of the sliding mechanism.

[0007] By adopting the above technical solution, when installing the guide rail sliding disassembly and assembly mechanism of the high-voltage support of the electron accelerator, the positioning holes on the positioning plate can be matched with the corresponding mounting holes on the mounting foundation, such as the equipment frame, so that the positioning bolts can be inserted into the positioning holes and fastened to the mounting foundation. This achieves precise positioning and stable installation of the fixing plate, ensuring that the entire guide rail sliding disassembly and assembly mechanism remains stable during the operation of the electron accelerator and will not shift, thus providing a reliable foundation for the stable operation of the high-voltage support. If it is necessary to disassemble, relocate, or reassemble the entire mechanism, the fixing plate can be released from the mounting foundation by unscrewing the positioning bolts.

[0008] Furthermore, the guide rail is provided with a groove that matches the slider, and rollers are fixedly installed at the four corners of the bottom of the slider, with the rollers in contact with the bottom inner wall of the groove.

[0009] By adopting the above technical solution, when it is necessary to adjust the position of the high-voltage support, the slider can slide smoothly in the groove of the guide rail with the help of the rollers at the four corners of the bottom. The rollers roll in contact with the inner wall of the bottom of the groove, which effectively reduces the friction during the sliding process, making it easier and more convenient for the high-voltage support to move with the slider. This allows for flexible changes in the position of the high-voltage support on the guide rail according to the working requirements of the electron accelerator.

[0010] Furthermore, a handle is fixedly installed on one side of the slider.

[0011] By adopting the above technical solution, if the operator wants to push or pull the slider to drive the high-voltage bracket to slide along the guide rail, he can hold the handle to apply force, which provides a convenient force application point for sliding operation. Whether it is adjusting the position of the high-voltage bracket during the installation and commissioning stage, or moving the high-voltage bracket for maintenance during equipment maintenance, the slider can be controlled to slide more stably and with less effort by using the handle.

[0012] Furthermore, a plurality of equally spaced through holes are provided on one side of the guide rail, and threaded holes for connecting with fixing bolts are provided at both ends of the slider near the through holes. One end of the fixing bolt passes through the through hole and is threadedly connected to the threaded hole.

[0013] By adopting the above technical solution, after the high-voltage support is slid to the appropriate position by the slider, in order to prevent it from shifting during the subsequent operation of the electron accelerator, the fixing bolt can be passed through the through hole at the corresponding position of the guide rail and screwed into the threaded hole on the slider. The slider and the guide rail are fixed relative to each other by the fixing bolt, thereby keeping the high-voltage support stably in the set position and ensuring the stability of the electron accelerator operation. If the position needs to be adjusted again in the future, simply unscrew the fixing bolt and the slider can be slid again.

[0014] Furthermore, positioning plates are fixedly connected to both sides of the fixing plate, and multiple equally spaced positioning holes are opened on both positioning plates, with positioning bolts movably installed in the positioning holes.

[0015] By adopting the above technical solution, when installing the guide rail sliding disassembly and assembly mechanism of the high-voltage support of the electron accelerator, the positioning holes on the positioning plate can be matched with the corresponding mounting holes on the mounting foundation, such as the equipment frame, so that the positioning bolts can be inserted into the positioning holes and fastened to the mounting foundation. This achieves precise positioning and stable installation of the fixing plate, ensuring that the entire guide rail sliding disassembly and assembly mechanism remains stable during the operation of the electron accelerator and will not shift, thus providing a reliable foundation for the stable operation of the high-voltage support. If it is necessary to disassemble, relocate, or reassemble the entire mechanism, the fixing plate can be released from the mounting foundation by unscrewing the positioning bolts.

[0016] Compared with the prior art, the present invention has the following beneficial effects:

[0017] (1) The present invention provides a sliding disassembly and assembly mechanism for a high-voltage support for an electron accelerator. By matching the positioning holes of the positioning plate on the fixed plate with the corresponding holes of the mounting base, precise positioning and stable installation are achieved using positioning bolts, ensuring the stability of the mechanism during the operation of the electron accelerator. When disassembly, relocation and reassembly are required, the fixing can be released simply by unscrewing the positioning bolts. Compared with the traditional fixed installation method, this greatly reduces the time and labor costs of disassembly and installation, and significantly improves the work efficiency of equipment installation, commissioning and maintenance.

[0018] (2) The present invention relates to a guide rail sliding disassembly and assembly mechanism for a high-voltage support of an electron accelerator. The roller design at the bottom of the slider significantly reduces the friction when the high-voltage support slides in the guide rail groove. The operator can easily push or pull the slider with a handle to flexibly change the position of the high-voltage support on the guide rail, meeting the different working requirements of the electron accelerator. After the high-voltage support slides to the appropriate position, the fixing bolts are connected to the threaded holes of the slider through the guide rail through holes to fix the slider and the guide rail relative to each other, ensuring that the high-voltage support remains stable during the operation of the electron accelerator and avoiding the impact of position changes on equipment performance. This achieves an effective combination of flexibility and stability in position adjustment. Attached Figure Description

[0019] Figure 1 This is a schematic diagram of the guide rail sliding assembly and disassembly mechanism of a high-voltage support for an electron accelerator according to the present invention.

[0020] Figure 2 This is an exploded view of the guide rail sliding assembly and disassembly mechanism of a high-voltage support for an electron accelerator according to this utility model.

[0021] Figure 3This is a schematic diagram of the bottom structure of the slider of the guide rail sliding disassembly and assembly mechanism of the high voltage support of an electron accelerator according to the present invention.

[0022] In the diagram: 1. Fixed plate; 2. Guide rail; 3. Sliding mechanism; 4. High-pressure bracket; 5. Slider; 6. Threaded hole; 7. Through hole; 8. Fixing bolt; 9. Roller; 10. Positioning plate; 11. Positioning hole; 12. Positioning bolt; 13. Handle. Detailed Implementation

[0023] To make the technical means, creative features, objectives and effects of this utility model easier to understand, the present utility model will be further described below in conjunction with specific embodiments.

[0024] To prevent the time-consuming, labor-intensive, and inefficient disassembly and reinstallation problems caused by traditional fixed installations during equipment commissioning, maintenance, or relocation, and to avoid situations where the fixed structure cannot flexibly adjust the position of the high-voltage support, thus failing to meet the precise operational requirements of the electron accelerator, and to eliminate situations where high friction between the high-voltage support and the mounting foundation leads to difficulties in movement and frequent disassembly and assembly causing component wear and affecting equipment lifespan, this approach aims to improve the efficiency of equipment installation, commissioning, and maintenance, meet the flexible adjustment needs of the high-voltage support position under different operating conditions of the electron accelerator, ensure equipment operational stability, and extend equipment lifespan. Figure 1 , Figure 2 , Figure 3 As shown, a sliding disassembly and assembly mechanism for a high-voltage support of an electron accelerator includes a fixed plate 1. The top of the fixed plate 1 is fixedly connected to two opposing guide rails 2. The inner side of the guide rails 2 is slidably fitted with a sliding mechanism 3, and the sliding mechanism 3 is limited by two fixing bolts 8. The sliding mechanism 3 includes a slider 5, a roller 9 and a handle 13. The top of the sliding mechanism 3 is provided with a high-voltage support 4.

[0025] When installing the sliding disassembly mechanism of the high-voltage bracket of the electron accelerator, the positioning holes 11 on the positioning plate 10 can be matched with the corresponding mounting holes on the mounting base, such as the equipment frame. The positioning bolts 12 are then inserted into the positioning holes 11 and fastened to the mounting base to achieve precise positioning and stable installation of the fixing plate 1. This ensures that the entire sliding disassembly mechanism remains stable during the operation of the electron accelerator and will not shift, providing a reliable foundation for the stable operation of the high-voltage bracket 4. If it is necessary to disassemble, relocate, or reassemble the entire mechanism, the fixing plate 1 can be released from the mounting base by unscrewing the positioning bolts 12.

[0026] For example, such as Figure 1 , Figure 2 , Figure 3As shown, the present invention also includes a groove in the guide rail 2 that matches the slider 5, and rollers 9 are fixedly installed at the four corners of the bottom of the slider 5, with the rollers 9 in contact with the bottom inner wall of the groove.

[0027] When the high-voltage bracket 4 needs to be slidably adjusted during use, the slider 5 can slide smoothly in the groove of the guide rail 2 with the help of the rollers 9 at the four corners of the bottom. The rollers roll in contact with the inner wall of the bottom of the groove, which effectively reduces the friction during the sliding process, making it easier and more convenient for the high-voltage bracket 4 to move with the slider 5. This allows for flexible changes in the position of the high-voltage bracket 4 on the guide rail 2 according to the working requirements of the electron accelerator.

[0028] For example, such as Figure 2 As shown, the present invention also includes a handle 13 fixedly installed on one side of the slider 5.

[0029] When in use, if you want to push or pull the slider 5 to drive the high-voltage bracket 4 to slide along the guide rail 2, the operator can hold the handle 13 to apply force, which provides a convenient force application point for sliding operation. Whether it is adjusting the position of the high-voltage bracket 4 during the installation and commissioning stage, or moving the high-voltage bracket 4 for maintenance during equipment maintenance, the slider 5 can be controlled more easily and stably by using the handle 13.

[0030] For example, such as Figure 1 , Figure 2 As shown, the present invention also includes a plurality of equally spaced through holes 7 on one side of the guide rail 2, and threaded holes 6 for connecting with fixing bolts 8 at both ends of the slider 5 near the through holes 7. One end of the fixing bolt 8 passes through the through holes 7 and is threadedly connected to the threaded holes 6.

[0031] When in use, after the high-voltage support 4 is slid to the appropriate position by the slider 5, in order to prevent it from shifting during the subsequent operation of the electron accelerator, the fixing bolt 8 can be passed through the through hole 7 at the corresponding position of the guide rail 2 and screwed into the threaded hole 6 on the slider 5. The slider 5 and the guide rail 2 are fixed relative to each other by the fixing bolt 8, so that the high-voltage support 4 is stably kept in the set position, ensuring the stability of the electron accelerator operation. If the position needs to be adjusted again later, simply unscrew the fixing bolt 8 and the slider 5 can be slid again.

[0032] For example, such as Figure 1 , Figure 2 As shown, the present invention also includes positioning plates 10 fixedly connected to both sides of the fixing plate 1, and multiple positioning holes 11 at equal intervals are opened on both positioning plates 10, and positioning bolts 12 are movably installed in the positioning holes 11.

[0033] When installing the sliding disassembly mechanism of the high-voltage bracket of the electron accelerator, the positioning holes 11 on the positioning plate 10 can be matched with the corresponding mounting holes on the mounting base, such as the equipment frame. The positioning bolts 12 are then inserted into the positioning holes 11 and fastened to the mounting base to achieve precise positioning and stable installation of the fixing plate 1. This ensures that the entire sliding disassembly mechanism remains stable during the operation of the electron accelerator and will not shift, providing a reliable foundation for the stable operation of the high-voltage bracket 4. If it is necessary to disassemble, relocate, or reassemble the entire mechanism, the fixing plate 1 can be released from the mounting base by unscrewing the positioning bolts 12.

[0034] It should be noted that this utility model is a guide rail sliding assembly and disassembly mechanism for a high-voltage support of an electron accelerator. First, the positioning holes 11 on the positioning plates 10 on both sides of the fixed plate 1 are used in conjunction with the corresponding holes on the installation base, such as the equipment frame. The positioning bolts 12 are then inserted and tightened to complete the precise and stable installation of the fixed plate 1, providing basic support for the mechanism. In use, the four corner rollers 9 at the bottom of the slider 5 roll in the groove of the guide rail 2 to reduce friction. The operator holds the handle 13 on one side of the slider 5 and applies force to drive the high-voltage support 4 to slide smoothly along the guide rail 2 to flexibly adjust its position. After sliding to the appropriate position, the fixing bolts 8 are passed through the corresponding through holes 7 of the guide rail 2 and screwed into the threaded holes 6 of the slider 5 to fix the slider 5 relative to the guide rail 2, so that the high-voltage support 4 is stably held in the set position, ensuring the working stability of the electron accelerator. If further adjustment is required, the fixing bolts 8 can be unscrewed to slide again. If the entire mechanism needs to be disassembled, moved, and reassembled, the positioning bolts 12 are unscrewed to release the fixing plate 1 from the installation base to complete the disassembly. The steps of installing the fixed plate are repeated during reassembly.

[0035] The foregoing has shown and described the basic principles, main features, and advantages of this utility model. Those skilled in the art should understand that this utility model is not limited to the above embodiments. The embodiments and descriptions in the specification are merely illustrative of the principles of this utility model. Various changes and modifications can be made to this utility model without departing from its spirit and scope, and all such changes and modifications fall within the scope of the claims. The scope of protection of this utility model is defined by the appended claims and their equivalents.

Claims

1. A guide rail sliding dismounting mechanism of an electron accelerator high voltage support, comprising a fixed plate (1), characterized in that, The top of the fixed plate (1) is fixedly connected to two oppositely arranged guide rails (2). The inner side of the guide rails (2) is slidably fitted with a sliding mechanism (3), and the sliding mechanism (3) is limited by two fixing bolts (8). The sliding mechanism (3) includes a slider (5), a roller (9) and a handle (13). The top of the sliding mechanism (3) is provided with a high-pressure bracket (4).

2. The rail sliding dismounting mechanism of an electron accelerator high-voltage support according to claim 1, characterized in that: The guide rail (2) has a groove that matches the slider (5). Rollers (9) are fixedly installed at the four corners of the bottom of the slider (5). The rollers (9) are in contact with the bottom inner wall of the groove.

3. The rail sliding dismounting mechanism of an electron accelerator high-voltage support according to claim 1, characterized in that: A handle (13) is fixedly installed on one side of the slider (5).

4. The rail sliding dismounting mechanism of an electron accelerator high-voltage support according to claim 1, characterized in that: The guide rail (2) has multiple equally spaced through holes (7) on one side. The slider (5) has threaded holes (6) at both ends near the through holes (7) that are connected to the fixing bolts (8). One end of the fixing bolts (8) passes through the through holes (7) and is threadedly connected to the threaded holes (6).

5. The rail sliding dismounting mechanism of an electron accelerator high-voltage support according to claim 1, characterized in that: Both sides of the fixed plate (1) are fixedly connected to positioning plates (10), and both positioning plates (10) have multiple equally spaced positioning holes (11), and positioning bolts (12) are movably installed in the positioning holes (11).