A storage device for safe storage of a laser cavity lens

By designing a reset rod and clamping plate structure inside the box, the lens automatically pops out and remains fixed, solving the problem of easy friction between the lens and the inner wall when it is taken out, and realizing safe and stable lens storage and retrieval.

CN224466452UActive Publication Date: 2026-07-07NANJING DIAMOND LASERS LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
NANJING DIAMOND LASERS LTD
Filing Date
2025-09-08
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

In existing storage devices, the lens needs to be manually lifted out of the placement slot when it is taken out. After the airbag is deflated, the lens is in a non-actively fixed state. If the lens is tilted when it is manually taken out, the edge of the lens is easy to rub against the inner wall of the placement slot.

Method used

A structure including a box, a positioning frame, a reset rod, a support block, a clamping plate, and a clamping plate is designed. The support block is automatically ejected by the reverse thrust of the reset rod. The support block slides along the track to drive the lens away from the box. The clamping plate remains fixed. The silicone pad on the inner side of the clamping plate fits the outer contour of the lens to enhance fixation. The stacked sleeves isolate vibration transmission.

Benefits of technology

It enables automatic lens ejection and fixation, avoids friction between the lens and the inner wall, enhances the safety and stability of the removal process, and provides effective cushioning protection.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model discloses a storage device for the safe storage of laser cavity lenses, relating to the technical field of storage devices. It includes a box and a track. A positioning frame is fixedly installed on the inner side of the box. Two reset rods are fixedly installed on the side ends of the positioning frame. Two support blocks are slidably installed on the top of the track. A common mounting strip is provided on the side ends of the two support blocks. An insertion rod is slidably installed on the top of the mounting strip. A telescopic rod is fixedly installed on the bottom end of the insertion rod. The clamping plate gradually presses the lens to achieve initial clamping. Simultaneously, the silicone gasket on the inner side of the clamping plate deforms under pressure, better conforming to the outer contour of the lens, enhancing the fixing effect and preventing scratches. The stacked sleeves installed between the support blocks and the clamping plate form a stacked structure, acting as a barrier to effectively prevent vibration from reciprocating between the support blocks and the clamping plate, providing buffer protection for the laser cavity lens and reducing the impact of external vibrations.
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Description

Technical Field

[0001] This utility model relates to the field of storage device technology, and in particular to a storage device for the safe storage of laser cavity lenses. Background Technology

[0002] Currently, existing storage devices (such as patent publication number: CN215708220U) disclose a storage device for the safe storage of laser cavity lenses. By setting up a clamping structure and a driving structure, the lens can be effectively clamped, avoiding collisions and damage to the lens caused by the lack of clamping in the storage box. By setting up a shock-absorbing structure, the lens can be effectively dampened, preventing the tray from shaking during movement and causing the lens to fall off.

[0003] In the aforementioned patent, the lens is fixed by the base and the cover. When the lens is taken out, it needs to be picked up manually from the placement slot. After the airbag is deflated, the lens is in a "non-actively fixed" state. If the angle is tilted when manually taking it out, the edge of the lens is easy to rub against the inner wall of the placement slot. Utility Model Content

[0004] To address the shortcomings of existing technologies, this utility model provides a storage device for the safe storage of laser cavity lenses. It solves the technical problems of fixing the lens with a base and cover, requiring manual removal from the placement slot when the lens is taken out, leaving the lens in a "non-actively fixed" state after the airbag is deflated, and causing the lens edge to easily rub against the inner wall of the placement slot if the lens is tilted when manually removed.

[0005] To achieve the above objectives, this utility model provides the following technical solution:

[0006] A storage device for the safe storage of a laser cavity lens includes a box and a track. A positioning frame is fixedly installed on the inner side of the box, and two reset rods are fixedly installed on the side end of the positioning frame.

[0007] Two support blocks are slidably installed at the top of the track bar. The two support blocks have the same mounting strip at their side ends. A plug is slidably installed at the top of the mounting strip. An interface is provided at the end of the mounting strip. A telescopic rod is fixedly installed at the bottom of the plug.

[0008] Preferably, the top end of the positioning frame is connected to the end of the mounting strip, and the top end of the mounting strip is provided with a groove;

[0009] Each of the support blocks has a stacked sleeve fixedly installed at its top, and each of the stacked sleeves has a stacked structure.

[0010] Preferably, a clamping plate is fixedly installed at the top of each of the support blocks, and a gasket is fixedly installed on the inner side of each of the clamping plates;

[0011] Each of the mounting strips is rotatably mounted with a knob at one end;

[0012] Two drive screws are rotatably mounted on the side end of each mounting strip, and the thread helix angle of each mounting strip and drive screw is less than the friction angle.

[0013] Compared with the prior art, the present invention has the following beneficial effects;

[0014] In this invention, the reverse thrust generated by the previous compression of the reset rod acts on the support block, automatically ejecting the support block along with the laser cavity lens into the box. The support block slides along the track, driving the laser cavity lens away from the box. During this process, the two clamps remain fixed to the lens, making it easy to pick up or move the lens later.

[0015] In this invention, the clamping plate gradually presses the lens to achieve initial clamping. At the same time, the silicone gasket on the inner side of the clamping plate deforms under pressure, which can better fit the outer contour of the lens, enhance the fixing effect and avoid scratching the lens. The stacked sleeve installed between the support block and the clamping plate has a stacked structure and plays a role in isolation, which can effectively prevent vibration from being transmitted back and forth between the support block and the clamping plate, forming a buffer protection for the laser cavity lens and reducing the impact of external vibration. Attached Figure Description

[0016] The above description is only an overview of the technical solution of this utility model. In order to better understand the technical means of this utility model and to implement it in accordance with the contents of the specification, the preferred embodiments of this utility model are described in detail below with reference to the accompanying drawings.

[0017] Figure 1 This is a structural diagram of the box body of this utility model;

[0018] Figure 2 This is a structural diagram of the positioning frame of this utility model;

[0019] Figure 3 This is a structural diagram of the support block of this utility model;

[0020] Figure 4 This is a structural diagram of the mounting strip of this utility model.

[0021] In the diagram: 11. Box body; 12. Track bar; 13. Positioning frame; 14. Reset rod; 15. Support block; 16. Stacking sleeve; 17. Mounting strip; 18. Telescopic rod; 19. Insert rod; 21. Drive screw; 22. Knob; 23. Clamping plate; 24. Gasket. Detailed Implementation

[0022] This application provides a storage device for the safe storage of laser cavity lenses. It effectively solves the problems of fixing the lens with a base and cover, requiring manual removal from the placement slot when the lens is taken out, and leaving the lens in a "non-actively fixed" state after the airbag is deflated. If the lens is tilted during manual removal, the lens edge is prone to rubbing against the inner wall of the placement slot. The reset rod, due to the reverse thrust generated by the previous compression, acts on the support block, automatically ejecting the support block along with the laser cavity lens into the box. The support block slides along the track, driving the laser cavity lens away from the box. During this process, the two clamps still keep the lens fixed, facilitating subsequent removal or transfer of the lens.

[0023] Example

[0024] like Figures 1-4 As shown, the technical solution in this application embodiment effectively solves the technical problems of fixing the lens with the base and cover, requiring manual removal from the placement slot when the lens is taken out, the lens being in a "non-actively fixed" state after the airbag is deflated, and the lens edge easily rubbing against the inner wall of the placement slot if the angle is tilted when manually removing it. The overall idea is as follows:

[0025] To address the problems existing in the prior art, this utility model provides a storage device for the safe storage of laser cavity lenses, including a box body 11 and a track bar 12. A positioning frame 13 is fixedly installed on the inner side of the box body 11, and two reset rods 14 are fixedly installed on the side end of the positioning frame 13. A compression spring is installed inside the reset rod 14. A support block 15 and a mounting strip 17 slide into the interior of the box body 11. The end of the mounting strip 17 is connected to the positioning frame 13 for fixation. At the same time, the side end of the support block 15 presses against the two reset rods 14, causing the reset rods 14 to be continuously compressed, generating a reverse thrust on the support block 15.

[0026] Two support blocks 15 are slidably mounted on the top of the track bar 12. A common mounting strip 17 is provided on the side ends of the two support blocks 15. A plug rod 19 is slidably mounted on the top of the mounting strip 17, and an interface is provided at the end of the mounting strip 17. A telescopic rod 18 is fixedly mounted on the bottom end of the plug rod 19. By connecting the bottom end of the support block 15 to the track bar 12, the track bar 12 can slide freely on the side end of the positioning frame 13. By connecting the track bar 12, the support block 15 enters the interior of the box 11 along a fixed path. Simultaneously, the end of the mounting strip 17 is inserted into the positioning frame 13, and the telescopic rod 18 is extended... The force generated by the telescopic rod 18 pulls the insertion rod 19 downward, and at the same time, the insertion rod 19 inserts into the top of the positioning frame 13, fixing the position of the positioning frame 13 and the mounting strip 17. Conversely, by pulling the insertion rod 19 upward, the insertion rod 19 slides away from the top of the positioning frame 13. Through the pushing force generated by the two reset rods 14 on the support block 15, the support block 15 and the laser cavity lens are automatically ejected from the inside of the box 11. The support block 15 slides along the track 12, driving the laser cavity lens away from the inside of the box 11. At this time, the two clamping plates 23 are still in a fixed state for the laser cavity lens.

[0027] The top of the positioning frame 13 is connected to the end of the mounting strip 17. The top of the mounting strip 17 is provided with a groove. The end of the insertion rod 19 slides downward inside the mounting strip 17 to fix the mounting strip 17 and the positioning frame 13 to each other.

[0028] Each support block 15 is fixedly installed with a stacked sleeve 16 at its top. Each stacked sleeve 16 has a stacked structure. The stacked sleeve 16 is installed between the support block 15 and the clamping plate 23. The stacked sleeve 16 serves as a partition to prevent vibration from being transmitted back and forth between the support block 15 and the clamping plate 23.

[0029] Each support block 15 has a clamping plate 23 fixedly installed at its top, and a shim 24 fixedly installed on the inner side of each clamping plate 23. By adjusting the two support blocks 15, the support blocks 15 slide on the side end of the mounting strip 17, causing the clamping plates 23 to move and press against each other, placing the laser cavity lens between the two clamping plates 23. The clamping plates 23 press and fix the laser cavity lens. At the same time, a shim 24 is installed on the inner side of the clamping plate 23. The shim 24 is made of silicone. The shim 24 deforms under pressure, better conforming to the outer contour of the laser cavity lens.

[0030] Each mounting strip 17 has a knob 22 rotatably mounted on its side end. By rotating the knob 22 in the forward direction, the end of the knob 22 is connected to the drive screw 21 through a bevel gear, driving the two drive screws 21 to rotate inside the support block 15.

[0031] Two drive screws 21 are rotatably mounted on the side end of each mounting strip 17. The thread helix angle of each mounting strip 17 and drive screw 21 is less than the friction angle. The rotating support block 15 drives the two support blocks 15 to slide, so that the support blocks 15 move synchronously on the side end of the mounting strip 17, and cooperate with the clamping plate 23 to fix the laser cavity lens.

[0032] Working principle:

[0033] The first step involves placing the laser cavity lens between two clamping plates 23 and rotating the knob 22 clockwise. The end of the knob 22 is connected to the drive screw 21 via a bevel gear, causing the two drive screws 21 to rotate inside the support block 15. Since the thread helix angle of the mounting strip 17 and the drive screw 21 is less than the friction angle, the rotating drive screw 21 can drive the two support blocks 15 to slide synchronously along the side end of the mounting strip 17, thereby causing the clamping plates 23 to move and press against each other, placing the laser cavity lens between the two clamping plates 23. As the support block 15 slides, the clamping plates 23 gradually press against the lens, achieving initial clamping. At the same time, the silicone gasket 24 on the inner side of the clamping plate 23 is deformed by the pressure, which can better fit the outer contour of the lens, enhance the fixing effect, and avoid scratching the lens.

[0034] The stacked sleeve 16 installed between the support block 15 and the clamping plate 23 has a stacked structure and serves as a partition. It can effectively prevent vibration from being transmitted back and forth between the support block 15 and the clamping plate 23, forming a buffer protection for the laser cavity lens and reducing the impact of external vibration.

[0035] The second step involves aligning the bottom of the support block 15 with the track bar 12. The track bar 12 can slide freely on the side end of the positioning frame 13. Guided by the track bar 12, the support block 15, along with the laser cavity lens, slides into the box 11 along a fixed path. During this process, the side end of the support block 15 presses against the two reset rods 14, compressing the compression spring inside the reset rods 14 and generating a reverse thrust on the support block 15. Simultaneously, the end of the mounting strip 17 aligns with the positioning frame 13, and the insertion rod 19 at the top groove of the mounting strip 17 is inserted into the top of the positioning frame 13 under the force of the telescopic rod 18, thereby fixing the positions of the positioning frame 13 and the mounting strip 17, completing the operation of storing the laser cavity lens inside the box 11.

[0036] Pull the insertion rod 19 upward to slide it away from the top of the positioning frame 13, releasing the fixing of the mounting strip 17 to the positioning frame 13. At this time, the reset rod 14, due to the reverse thrust generated by the previous compression, acts on the support block 15, automatically ejecting the support block 15 along with the laser cavity lens into the box 11. The support block 15 slides along the track 12, driving the laser cavity lens away from the box 11. During this process, the two clamps 23 still keep the lens fixed, making it easy to pick up or transfer the lens later.

[0037] Finally, it should be noted that the above embodiments are merely examples for clearly illustrating the present invention and are not intended to limit the implementation. Those skilled in the art can make other variations or modifications based on the above description. It is neither necessary nor possible to exhaustively list all possible implementations. However, obvious variations or modifications derived therefrom are still within the protection scope of this invention.

Claims

1. A storage device for the safe storage of a laser cavity lens, comprising a box (11) and a track (12), characterized in that, A positioning frame (13) is fixedly installed on the inner side of the box (11), and two reset rods (14) are fixedly installed on the side end of the positioning frame (13). Two support blocks (15) are slidably installed at the top of the track bar (12). The two support blocks (15) are provided with the same mounting strip (17) at their side ends. A plug rod (19) is slidably installed at the top of the mounting strip (17). An interface is provided at the end of the mounting strip (17). A telescopic rod (18) is fixedly installed at the bottom of the plug rod (19).

2. The storage device for the safe storage of a laser cavity lens as described in claim 1, characterized in that, The top of the positioning frame (13) is connected to the end of the mounting strip (17), and the top of the mounting strip (17) is provided with a groove.

3. The storage device for the safe storage of a laser cavity lens as described in claim 1, characterized in that, Each of the support blocks (15) has a stacked sleeve (16) fixedly installed at its top end, and each of the stacked sleeves (16) has a stacked structure.

4. The storage device for the safe storage of a laser cavity lens as described in claim 1, characterized in that, Each of the support blocks (15) has a clamp plate (23) fixedly installed at its top end, and a gasket (24) is fixedly installed on the inner side of each clamp plate (23).

5. The storage device for the safe storage of a laser cavity lens as described in claim 1, characterized in that, Each of the mounting strips (17) is rotatably mounted with a knob (22) at one side end.

6. A storage device for the safe storage of a laser cavity lens as described in any one of claims 1-5, characterized in that, Two drive screws (21) are rotatably mounted on the side end of each of the mounting strips (17), and the thread helix angle of each mounting strip (17) and drive screw (21) is smaller than the friction angle.