Multi-scene adaptive quick refitting stainless steel turnover box

By introducing an adjustment mechanism into the stainless steel turnover box, the problems of insufficient storage space and poor shock absorption were solved, enabling adaptability to multiple scenarios and rapid modification, while protecting the contents.

CN224376235UActive Publication Date: 2026-06-19QUANJIAO WOYU MACHINERY CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
QUANJIAO WOYU MACHINERY CO LTD
Filing Date
2025-07-07
Publication Date
2026-06-19

AI Technical Summary

Technical Problem

Existing stainless steel turnover boxes have limited storage space, are difficult to quickly modify to change storage space, have poor adaptability, and have poor shock absorption, making them prone to damage to items in rugged areas.

Method used

A multi-scenario adaptable and quick-modification stainless steel turnover box was designed. Through the combination of adjustment mechanism including connecting groove, slide, slider, screw, nut, moving box, lifting frame, support plate, connecting rod, steel cover, spring, base plate, shell, damping rubber pad, slide rail, movable plate and limit block, the storage space can be quickly adjusted and the shock absorption effect can be achieved.

Benefits of technology

It enables rapid adjustment of storage space in the turnover box and provides shock absorption protection in rugged areas, enhancing the adaptability and practicality of the turnover box and preventing damage to items.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model proposes a multi-scenario adaptable and quickly modified stainless steel turnover box, including a turnover box with an adjustment mechanism at one end. Through the arrangement of a connecting groove, slide, slider, screw, nut, first movable box, second movable box, lifting frame, support plate, connecting rod, steel cover, and spring, when the storage space of the turnover box needs to be adjusted, two nuts are loosened and the screw is moved as needed. The screw, carrying the slider, slides in the slide groove, allowing the first and second movable boxes to quickly move to the designated position, thus quickly completing the modification of the turnover box. Furthermore, when the turnover box moves in rough terrain, vibrations occur. These vibrations cause the support plate, along with the connecting rod, to press down on the steel cover, which in turn presses down on the spring. The spring, under pressure, generates an upward rebound force, effectively damping vibrations and preventing damage to the contents of the turnover box.
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Description

Technical Field

[0001] This utility model relates to the field of goods turnover technology, and in particular to a multi-scenario adaptable and quickly modified stainless steel turnover box. Background Technology

[0002] Turnover boxes, also known as logistics boxes, are widely used in industries such as machinery, automobiles, home appliances, light industry, and electronics. They are resistant to acids and alkalis, oil stains, are non-toxic and odorless, easy to clean, facilitate the turnover of parts, stack neatly, and are easy to manage. Since turnover boxes are used in various fields, their adaptability to the environment is very important. Therefore, there is a special need for multi-scenario adaptable and quick-modification stainless steel turnover boxes.

[0003] However, existing stainless steel turnover boxes have limited storage space, and it is difficult to quickly modify them to change the storage space, resulting in poor adaptability. Secondly, most existing stainless steel turnover boxes have poor shock absorption, which can easily damage the items inside when encountering uneven areas. The turnover boxes cannot adapt to different scenarios and environments. Utility Model Content

[0004] The technical problem to be solved by this utility model is to overcome the defects of the existing technology. This utility model proposes a stainless steel turnover box. The existing stainless steel turnover boxes have limited storage space, and it is difficult to quickly modify the turnover boxes to change the storage space, resulting in poor adaptability. Secondly, most existing stainless steel turnover boxes have poor shock absorption effect, and when encountering rugged areas, they are prone to damage to the items in the turnover boxes. The turnover boxes cannot adapt to different scenarios and environments.

[0005] To solve the above-mentioned technical problems, the technical solution adopted by this utility model is: a multi-scenario adaptable quick-modification stainless steel turnover box, including a turnover box, one end of which is provided with an adjustment mechanism;

[0006] The adjustment mechanism includes a connecting groove, a sliding groove, a slider, a screw, a nut, a first movable box, a second movable box, a lifting frame, a support plate, a connecting rod, a steel cover, a spring, a base plate, a shell, a damping rubber pad, a slide rail, a movable plate, a limit block, and a movable seat. A connecting groove is provided on one side surface of the turnover box, and a sliding groove is provided inside the turnover box. A slider is provided inside the sliding groove. A screw is welded to one side surface of the slider, and a nut is threaded onto the outer wall of the screw. A first movable box is fixedly connected to one side surface of the slider, and a second movable box is fixedly connected to one side surface of the slider.

[0007] Preferably, a lifting frame is fixedly connected to the lower surface of the turnover box, a support plate is fixedly connected to the lower surface of the lifting frame, a connecting rod is provided at one end of the support plate, a steel cover is fixedly connected to one end of the connecting rod, a spring is fixedly connected to one side surface of the steel cover, a base plate is fixedly connected to the other end of the spring, a shell is fixedly installed on one side surface of the base plate, a damping rubber pad is adhered to the inner wall of the shell, slide rails are fixedly installed at both ends of the shell, a movable plate is fixedly installed on one side surface of the support plate, limit blocks are provided at both ends of the movable plate, and a movable seat is fixedly connected to the lower surface of the base plate.

[0008] Preferably, the slider forms a sliding structure with the turnover box through a sliding groove, and one end of the screw passes through the connecting groove and is threadedly connected to the nut.

[0009] Preferably, the two ends of the spring are fixedly connected to the steel cover and the base plate respectively, the steel cover and the base plate form a telescopic structure through the spring, and the slider is provided in two sets, which are fixedly connected to the first movable box and the second movable box respectively.

[0010] Preferably, the limiting block forms a sliding structure with the outer shell via a slide rail.

[0011] Preferably, one side of the damping rubber pad is bonded to the inner wall of the housing, and the other side is connected to the outer wall of the movable plate.

[0012] Compared with the prior art, the beneficial effects of this utility model include: by setting up a connecting groove, sliding groove, slider, screw, nut, first moving box, second moving box, lifting frame, support plate, connecting rod, steel cover, spring, base plate, outer shell, damping rubber pad, slide rail, movable plate, limit block and moving seat, when it is necessary to adjust the storage space of the turnover box, the two nuts are loosened and the screw is moved as needed. At this time, the screw slides in the sliding groove with the slider, and the first and second moving boxes can be quickly moved to the designated position. In this way, the modification of the turnover box is quickly completed, and the storage space inside the turnover box can be quickly adjusted to the required size, making it more practical. Secondly, when the turnover box moves in a rugged area, it will vibrate. The vibration of the turnover box will cause the support plate to press down the steel cover with the connecting rod, and the steel cover will press down the spring. When the spring is under pressure, it will generate an upward rebound force, which will play a role in vibration reduction and prevent the turnover box from vibrating and damaging the internal items. The turnover box can adapt to different scenarios and environments. Attached Figure Description

[0013] The disclosure of this utility model is illustrated with reference to the accompanying drawings. It should be understood that the drawings are for illustrative purposes only and are not intended to limit the scope of protection of this utility model. In the drawings, the same reference numerals are used to refer to the same parts. Wherein:

[0014] Figure 1The schematic diagram shows a cooperative structure of a turnover box and a first movable box according to one embodiment of the present invention.

[0015] Figure 2 The schematic diagram shows a cooperative structure of a turnover box and a second mobile box according to one embodiment of the present invention.

[0016] Figure 3 The schematic diagram shows a cooperative structure of a support plate and a connecting rod according to one embodiment of the present invention.

[0017] Figure 4 The schematic diagram shows a steel cover and spring cooperating with each other according to one embodiment of the present invention;

[0018] Figure 5 The illustration schematically shows a method proposed according to one embodiment of the present invention. Figure 2 Enlarged structural diagram at point A in the middle.

[0019] The following are the labeling elements in the diagram: 1. Turnover box; 2. Adjustment mechanism; 201. Connecting groove; 202. Slide groove; 203. Slider; 204. Screw; 205. Nut; 206. First moving box; 207. Second moving box; 208. Lifting frame; 209. Support plate; 210. Connecting rod; 211. Steel cover; 212. Spring; 213. Base plate; 214. Outer shell; 215. Damping rubber pad; 216. Slide rail; 217. Movable plate; 218. Limiting block; 219. Moving seat. Detailed Implementation

[0020] It is readily understood that, based on the technical solution of this utility model, those skilled in the art can propose various interchangeable structural methods and implementations without altering the essential spirit of this utility model. Therefore, the following detailed embodiments and accompanying drawings are merely illustrative descriptions of the technical solution of this utility model and should not be considered as the entirety of this utility model or as limitations or restrictions on the technical solution of this utility model.

[0021] According to one embodiment of the present invention, in conjunction with Figure 1-5 As shown. A multi-scenario adaptable quick-modification stainless steel turnover box, including a turnover box 1, with an adjustment mechanism 2 at one end of the turnover box 1;

[0022] The adjusting mechanism 2 includes a connecting groove 201, a sliding groove 202, a slider 203, a screw 204, a nut 205, a first movable box 206, a second movable box 207, a lifting frame 208, a support plate 209, a connecting rod 210, a steel cover 211, a spring 212, a base plate 213, a shell 214, a damping rubber pad 215, a slide rail 216, a movable plate 217, a limiting block 218, and a movable seat 219. A connecting groove 201 is provided on one side surface of the turnover box 1. A sliding groove 202 is provided inside the turnover box 1. A slider 203 is installed inside the sliding groove 202. A screw 204 is welded to one side surface of the slider 203. A nut 205 is threaded onto the outer wall of the screw 204. The first movable box 206 is fixedly connected to one side surface of the slider 203. A second movable box 207 is fixedly connected to one side surface of 203. Through the setting of connecting groove 201, sliding groove 202, slider 203, screw 204, nut 205, first movable box 206 and second movable box 207, when it is necessary to adjust the storage space of turnover box 1, loosen the two nuts 205 and move the screw 204 as needed. At this time, the screw 204, with the slider 203, slides horizontally in the sliding groove 202. The first movable box 206 and the second movable box 207 can be quickly moved to the designated position. In this way, the modification of turnover box 1 is quickly completed, and the storage space inside turnover box 1 can be quickly adjusted to the required size, making it more practical. After the first movable box 206 and the second movable box 207 are moved to the appropriate position, tighten the nut 205 to fix them.

[0023] Furthermore, a lifting frame 208 is fixedly connected to the lower surface of the turnover box 1, and a support plate 209 is fixedly connected to the lower surface of the lifting frame 208. A connecting rod 210 is provided at one end of the support plate 209, and a steel cover 211 is fixedly connected to one end of the connecting rod 210. A spring 212 is fixedly connected to one side surface of the steel cover 211, and a base plate 213 is fixedly connected to the other end of the spring 212. A shell 214 is fixedly installed on one side surface of the base plate 213, and a damping rubber pad 215 is adhered to the inner wall of the shell 214. Slide rails 216 are fixedly installed at both ends of the shell 214. A movable plate 217 is fixedly installed on one side surface of the support plate 209, and limit blocks 218 are provided at both ends of the movable plate 217. A movable seat 219 is fixedly connected to the lower surface of the base plate 213. The lifting frame 208, support plate 209, connecting rod 210, steel cover 211, spring 212, base plate 213, shell 214, and damping pad 215 are connected to the inner wall of the shell 214. The rubber pad 215, slide rail 216, movable plate 217, limiting block 218, and moving seat 219 are designed to prevent vibration when the turnover box 1 moves in rough terrain. The vibration of the turnover box 1 causes the support plate 209 to press down on the steel cover 211 along with the connecting rod 210. The steel cover 211 then presses down on the spring 212. When the spring 212 is under pressure, it generates an upward rebound force, which has a vibration damping effect. When the support plate 209 rises and falls, it moves the movable plate 217 up and down together. The limiting blocks 218 at both ends of the movable plate 217 slide on the slide rail 216. The sliding limiting blocks 218 can limit the rise and fall of the movable plate 217 and the extension and retraction of the spring 212. When the movable plate 217 rises and falls, its outer wall will rub against the damping rubber pad 215, which also has a certain degree of vibration damping effect, preventing the turnover box 1 from vibrating and damaging the internal items. The turnover box 1 can adapt to different scenarios and environments.

[0024] Furthermore, the slider 203 forms a sliding structure with the turnover box 1 through the slide groove 202. One end of the screw 204 passes through the connecting groove 201 and is threadedly connected to the nut 205. Two sets of sliders 203 are provided and are fixedly connected to the first moving box 206 and the second moving box 207 respectively. With the setting of the slide groove 202 and the slider 203, the slider 203 can move horizontally with the first moving box 206 or the second moving box 207 when sliding in the slide groove 202.

[0025] Furthermore, the two ends of the spring 212 are fixedly connected to the steel cover 211 and the base plate 213 respectively. The steel cover 211 and the base plate 213 form a telescopic structure through the spring 212. With the spring 212, the spring 212 will generate an upward rebound force when it is subjected to pressure, which will have the effect of vibration reduction.

[0026] Furthermore, the limiting block 218 forms a sliding structure with the outer shell 214 through the slide rail 216. With the setting of the limiting block 218, when the movable plate 217 is raised or lowered, the limiting block 218 will slide at one end of the slide rail 216, and the limiting block 218 can limit the raising and lowering movement of the movable plate 217.

[0027] Furthermore, one side of the damping rubber pad 215 is bonded to the inner wall of the outer shell 214, and the other side is connected to the outer wall of the movable plate 217. With the damping rubber pad 215, when the movable plate 217 is raised and lowered, its outer wall will rub against the inside of the damping rubber pad 215, which also plays a certain role in vibration reduction.

[0028] In this embodiment, when it is necessary to adjust the storage space of the turnover box 1, loosen the two nuts 205 and move the screw 204 as needed. At this time, the screw 204, along with the slider 203, slides horizontally in the slide groove 202. The first moving box 206 and the second moving box 207 can be quickly moved to the designated position, thus quickly completing the modification of the turnover box 1. After the first moving box 206 and the second moving box 207 are moved to the appropriate position, tighten the nuts 205 to fix them. When the turnover box 1 moves in a rugged area, it will vibrate. The vibration of the turnover box 1 will cause the support plate 209 to move along the connecting plate. When the connecting rod 210 presses down on the steel cover 211, the steel cover 211 will press down on the spring 212. When the spring 212 is under pressure, it will generate an upward rebound force, which will have a vibration reduction effect. When the support plate 209 is raised and lowered, it will move the movable plate 217 together. The limit blocks 218 at both ends of the movable plate 217 will slide on the slide rail 216. The sliding limit blocks 218 can limit the raising and lowering of the movable plate 217 and the extension and retraction of the spring 212. When the movable plate 217 is raised and lowered, its outer wall will rub against the damping rubber pad 215, which will also have a vibration reduction effect to a certain extent.

[0029] The technical scope of this utility model is not limited to the content described above. Those skilled in the art can make various modifications and variations to the above embodiments without departing from the technical concept of this utility model, and all such modifications and variations should fall within the protection scope of this utility model.

Claims

1. A multi-scenario adaptable, quickly modified stainless steel turnover box, characterized in that: Includes a turnover box (1), one end of which is provided with an adjustment mechanism (2); The adjustment mechanism (2) includes a connecting groove (201), a sliding groove (202), a slider (203), a screw (204), a nut (205), a first moving box (206), a second moving box (207), a lifting frame (208), a support plate (209), a connecting rod (210), a steel cover (211), a spring (212), a base plate (213), a shell (214), a damping rubber pad (215), a slide rail (216), a movable plate (217), a limiting block (218), and a moving seat (219). A connecting groove (201) is provided on one side surface of the turnover box (1), and a sliding groove (202) is provided inside the turnover box (1). A slider (203) is provided inside the sliding groove (202). A screw (204) is welded to one side surface of the slider (203), and a nut (205) is threaded onto the outer wall of the screw (204). A first movable box (206) is fixedly connected to one side surface of the slider (203), and a second movable box (207) is fixedly connected to one side surface of the slider (203).

2. The multi-scenario adaptable quick-modification stainless steel turnover box according to claim 1, characterized in that, A lifting frame (208) is fixedly connected to the lower surface of the turnover box (1). A support plate (209) is fixedly connected to the lower surface of the lifting frame (208). A connecting rod (210) is provided at one end of the support plate (209). A steel cover (211) is fixedly connected to one end of the connecting rod (210). A spring (212) is fixedly connected to one side surface of the steel cover (211). A base plate (213) is fixedly connected to the other end of the spring (212). A shell (214) is fixedly installed on one side surface of the base plate (213). A damping rubber pad (215) is adhered to the inner wall of the shell (214). Slide rails (216) are fixedly installed at both ends of the shell (214). A movable plate (217) is fixedly installed on one side surface of the support plate (209). Limit blocks (218) are provided at both ends of the movable plate (217). A movable seat (219) is fixedly connected to the lower surface of the base plate (213).

3. The multi-scenario adaptable quick-modification stainless steel turnover box according to claim 1, characterized in that, The slider (203) forms a sliding structure with the turnover box (1) through the sliding groove (202). One end of the screw (204) passes through the connecting groove (201) and is threadedly connected to the nut (205). There are two sets of sliders (203), which are fixedly connected to the first moving box (206) and the second moving box (207) respectively.

4. The multi-scenario adaptable quick-modification stainless steel turnover box according to claim 2, characterized in that, The two ends of the spring (212) are fixedly connected to the steel cover (211) and the base plate (213) respectively. The steel cover (211) forms a telescopic structure with the base plate (213) through the spring (212).

5. The multi-scenario adaptable quick-modification stainless steel turnover box according to claim 2, characterized in that, The limiting block (218) forms a sliding structure with the outer shell (214) via the slide rail (216).

6. The multi-scenario adaptable quick-modification stainless steel turnover box according to claim 2, characterized in that, One side of the damping rubber pad (215) is bonded to the inner wall of the outer shell (214), and the other side is connected to the outer wall of the movable plate (217).