A slide storage device
By designing a glass slide storage device with a rigid adhesive plate and a movable concave frame structure, the problem of insufficient protection for glass slide storage was solved, achieving stable and convenient glass slide storage and retrieval.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SICHUAN JIUZHOU OPTO-ELECTRONICS LTD
- Filing Date
- 2025-07-23
- Publication Date
- 2026-07-07
AI Technical Summary
Existing technologies for storing glass slides have problems such as poor protection and the soft texture of the blue film making it inconvenient to transfer and retrieve.
A glass slide storage device was designed, which adopts a rigid adhesive plate and a movable concave frame structure. The combination of the concave shell and the concave frame achieves stable positioning and protection of the glass slide, making it convenient to retrieve.
This improved the protective effect of the glass slides, ensured a stable storage and retrieval process, and simplified the operation procedure.
Smart Images

Figure CN224466585U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of optical connector processing technology, and in particular to a glass slide storage device. Background Technology
[0002] BOSA optical connectors contain multiple rectangular glass slides used to construct the optical signal propagation path. These slides are typically stored by attaching them to a blue film. This method offers poor protection for the slides, and the soft texture of the blue film further complicates the transfer and retrieval of the slides. Utility Model Content
[0003] This utility model provides a glass slide storage device to overcome the shortcomings of the prior art and solve the problem that the existing storage methods have poor protection effect on glass slides, and has strong practicality.
[0004] In order to achieve the purpose of this utility model, the following technology is proposed to be adopted:
[0005] A glass slide storage device includes a long base plate with multiple placement units on the base plate, and glass slides are placed in the placement units.
[0006] Furthermore, the placement unit includes a concave shell fixed to a long strip base plate, with an opening at the upper end and front side of the concave shell, and a rear plate on the rear side of the concave shell.
[0007] Furthermore, a through shaft is provided at the lower front end of the concave shell, a movable strip is fitted on the through shaft, a concave frame is formed on the movable strip, the rear end of the concave frame is open, a transverse hole is provided on the movable strip, and the through shaft passes through the transverse hole.
[0008] Furthermore, a T-shaped sleeve is fixed to the inner side of the rear plate, and the rear end of the lower transverse section of the concave frame and the rear end of the movable strip are inserted into the T-shaped sleeve.
[0009] Furthermore, the upper wall of the lower horizontal section of the concave frame is provided with a placement strip, and a lower groove is provided on the placement strip. An adhesive plate is placed in the lower groove, and multiple glass slides are attached to both sides of the adhesive plate.
[0010] Furthermore, a pair of pull rods are movably provided on the upper transverse section of the concave frame. The lower end of the pull rods is connected to a lower pressure bar by a thread. The lower wall of the lower pressure bar is formed with an upper groove. A spring is sleeved on the pull rods, and the spring is located between the upper transverse section of the concave frame and the lower pressure bar.
[0011] Furthermore, the upper end of the pull rod is connected to an upper pull plate by a thread. Each end of the upper pull plate is formed with a pair of L-shaped arms. A connecting shaft is threaded through each pair of L-shaped arms. A rotating plate is rotatably mounted on the connecting shaft. The lower end of the rotating plate has an arc-shaped structure and abuts against the upper wall of the upper transverse section of the concave frame.
[0012] Furthermore, an outer pull plate is fixed to the outer wall of the vertical section of the concave frame.
[0013] The advantages of the above technical solution are:
[0014] This invention first involves attaching a glass slide to a rigid adhesive board, which serves two purposes: firstly, it protects one side of the slide, and secondly, it facilitates the removal and use of the slide.
[0015] Secondly, this utility model uses a combination of concave frame and concave shell to protect the glass slides on the adhesive board.
[0016] This invention provides an effective and stable limit for the adhesive plate. When limiting the adhesive plate, the upper end is limited by the lower pressure strip and the upper groove, and the lower end is limited by the placement strip and the lower groove. This ensures the limiting effect on the glass slide, thereby ensuring the effectiveness and safety of the protection.
[0017] Finally, this invention facilitates the removal of the glass slide. During operation, the limiting effect on the adhesive plate can be removed by rotating the rotating plate. At the same time, the placement and removal of the adhesive plate can be facilitated by moving the concave frame outward and rotating it. Attached Figure Description
[0018] To make the objectives, technical solutions, and advantages of this utility model clearer, the following will provide a further detailed description of this utility model in conjunction with the accompanying drawings.
[0019] Figure 1 A three-dimensional structural diagram of one embodiment is shown.
[0020] Figure 2 The three-dimensional structure of the placement unit is shown. Figure 1 .
[0021] Figure 3 The three-dimensional structure of the placement unit is shown. Figure 2 . Detailed Implementation
[0022] like Figures 1-3 As shown, a glass slide storage device includes a long base plate 1, on which multiple placement units 2 are provided, and glass slides are placed in the placement units 2.
[0023] The placement unit 2 includes a concave shell 20 fixed to a long strip base plate 1. The upper end and front side of the concave shell 20 are open, and a rear plate 21 is provided on the rear side of the concave shell 20. A through shaft 22 is inserted through the lower front side of the concave shell 20. A movable strip 23 is sleeved on the through shaft 22. A concave frame 25 is formed on the movable strip 23. An outer pull plate 29 is fixed on the outer wall of the vertical section of the concave frame 25. The rear end of the concave frame 25 is open, and a transverse hole 24 is opened on the movable strip 23. The through shaft 22 passes through the transverse hole 24. A T-shaped sleeve 26 is fixed on the inner side of the rear plate 21. The rear end of the lower transverse section of the concave frame 25 and the rear end of the movable strip 23 are inserted into the T-shaped sleeve 26.
[0024] The upper wall of the lower transverse section of the concave frame 25 is provided with a placement strip 27, and a lower groove 28 is formed on the placement strip 27. An adhesive plate 6 is placed in the lower groove 28, and multiple glass slides are attached to both sides of the adhesive plate 6. A pair of pull rods 30 are movably mounted on the upper transverse section of the concave frame 25. The lower end of the pull rods 30 is connected to a lower pressure strip 31 by a thread. The lower wall of the lower pressure strip 31 has an upper groove 33 formed by an opening. A spring 32 is sleeved on the pull rods 30, and the spring 32 is located between the upper transverse section of the concave frame 25 and the lower pressure strip 31. The upper end of the pull rod 30 is connected to the upper pull plate 34 by a thread. The two ends of the upper pull plate 34 are respectively formed with a pair of L-shaped arms 35. A connecting shaft 36 is passed through each pair of L-shaped arms 35. A rotating plate 37 is rotatably mounted on the connecting shaft 36. The lower end of the rotating plate 37 has an arc-shaped structure and abuts against the upper wall of the upper transverse section of the concave frame 25.
[0025] In this embodiment, when placing the glass slides, the glass slides are pasted one by one onto both sides of the adhesive plate 6. The adhesive plate 6 has a blue film with double-sided adhesive capability pasted on both sides.
[0026] The operator pulls the concave frame 25 outward and rotates it so that the opening of the concave frame 25 faces upward. Then the operator inserts the adhesive plate 6 into the lower groove 28 and the upper groove 33. During the insertion process, the rotating plate 37 can be rotated so that the arc-shaped end of the rotating plate 37 abuts against the upper wall of the upper transverse section of the concave frame 25. After placement, the rotating plate 37 returns to its initial state. After that, the lower pressure bar 31 will limit the upper end of the adhesive plate 6 under the action of the spring 32.
[0027] The operator then rotates the concave frame 25 upwards so that its opening faces inwards, and moves the concave frame 25 inwards so that the rear end of the lower transverse section of the concave frame 25 and the rear end of the movable strip 23 are inserted into the T-shaped sleeve 26. At this time, the glass slide will be protected by the concave frame 25 and the concave shell 20.
[0028] In this embodiment, when removing the adhesive plate 6, the operator pulls out the concave frame 25 and then removes the adhesive plate 6. After that, the slides can be picked up one by one.
[0029] The above description is merely a preferred embodiment of this utility model and is not intended to limit the scope of this utility model. Obviously, those skilled in the art can make various modifications and variations to this utility model without departing from its spirit and scope. Therefore, if these modifications and variations of this utility model fall within the scope of the claims of this utility model and their equivalents, this utility model also intends to include these modifications and variations.
Claims
1. A glass slide storage device, characterized in that, It includes a long base plate (1), on which multiple placement units (2) are provided, and glass slides are placed in the placement units (2).
2. The glass slide storage device according to claim 1, characterized in that, The placement unit (2) includes a concave shell (20) fixed on a long strip base plate (1), with an opening at the upper end and front side of the concave shell (20), and a rear plate (21) on the rear side of the concave shell (20).
3. The glass slide storage device according to claim 2, characterized in that, A through shaft (22) is provided at the lower front end of the concave shell (20). A movable strip (23) is fitted on the through shaft (22). A concave frame (25) is formed on the movable strip (23). The rear end of the concave frame (25) is open. A transverse hole (24) is provided on the movable strip (23). The through shaft (22) is inserted into the transverse hole (24).
4. The glass slide storage device according to claim 3, characterized in that, A T-shaped sleeve (26) is fixed to the inner side of the back plate (21), and the rear end of the lower horizontal section of the concave frame (25) and the rear end of the movable strip (23) are inserted into the T-shaped sleeve (26).
5. The glass slide storage device according to claim 3, characterized in that, The upper wall of the lower horizontal section of the concave frame (25) is provided with a placement strip (27), and a lower groove (28) is provided on the placement strip (27). A pasting plate (6) is placed in the lower groove (28), and multiple glass slides are pasted on both sides of the pasting plate (6).
6. The glass slide storage device according to claim 5, characterized in that, A pair of pull rods (30) are movably provided on the upper transverse section of the concave frame (25). The lower end of the pull rod (30) is connected to a lower pressure bar (31) by a thread. The lower wall of the lower pressure bar (31) is formed with an upper groove (33). A spring (32) is sleeved on the pull rod (30). The spring (32) is located between the upper transverse section of the concave frame (25) and the lower pressure bar (31).
7. The glass slide storage device according to claim 5, characterized in that, The upper end of the pull rod (30) is connected to the upper pull plate (34) by a thread. The two ends of the upper pull plate (34) are respectively formed with a pair of L-shaped arms (35). A connecting shaft (36) is passed through each pair of L-shaped arms (35). A rotating plate (37) is rotatably provided on the connecting shaft (36). The lower end of the rotating plate (37) has an arc structure. The lower end of the rotating plate (37) abuts against the upper wall of the upper transverse section of the concave frame (25).
8. The glass slide storage device according to claim 3, characterized in that, An outer pull plate (29) is fixed on the outer wall of the vertical section of the concave frame (25).