Multi-component integrated shock absorbing pearl wool packaging body
By setting up component separation mechanisms and expansion bolt connections inside the pearl cotton packaging box, the packaging problem of multi-component integrated products is solved, achieving stable separation and efficient protection, and adapting to the placement needs of different components.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- KUNSHAN SIKAICHEN PACKAGING MATERIAL CO LTD
- Filing Date
- 2025-05-28
- Publication Date
- 2026-07-07
AI Technical Summary
Existing pearl cotton packaging materials are insufficient to meet the complex packaging needs of multi-component integrated products. They cannot be adjusted in design or fixed according to the characteristics of different components, resulting in unsatisfactory packaging effects.
A multi-component integrated shockproof pearl cotton packaging body was designed. It adopts a component separation mechanism inside the pearl cotton packaging box, including compartment partitions, connecting rods, and first and second component partitions. The PVC material connecting rods are used to increase stability, the pearl cotton material absorbs vibration energy, and the box cover is connected by expansion bolts for easy assembly and disassembly.
It achieves stable separation and protection for multi-component products, can adapt to the placement of components of different sizes, improves shock resistance, and is easy to assemble and disassemble.
Smart Images

Figure CN224466424U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of pearl cotton packaging, and more specifically, to a multi-component integrated shockproof pearl cotton packaging body. Background Technology
[0002] In today's booming global trade and increasingly frequent logistics and transportation environment, various products face complex and ever-changing transportation environments and various potential shock risks during their flow from production sites to consumption sites. Traditional packaging materials, such as paper packaging and ordinary plastic foam, are gradually revealing many shortcomings in shock protection. With the rapid development of technology and the continuous changes in market demand, more and more products are showing the characteristics of multi-component integration. For example, smartphones and tablets in electronic products are usually composed of multiple components such as the main unit, battery, charger, and earphones; high-end medical devices also contain complex components such as the main unit, various probes, and connecting wires. These multi-component products face more severe challenges in packaging. As a new type of environmentally friendly packaging material, EPE foam has many unique advantages. It is a non-crosslinked closed-cell polymer foam material filled with independent air bubbles, which has good elasticity and flexibility. When subjected to external impact, EPE foam can absorb and disperse energy through the compression and deformation of air bubbles, thereby playing an effective role in cushioning and shock absorption.
[0003] Currently, EPE foam has been used to some extent in the packaging field, mainly for packaging products with high shock resistance requirements, such as electronic products, handicrafts, and ceramic products. However, most existing EPE foam packaging is a single structure or a simple combination, which is difficult to meet the complex packaging needs of multi-component integrated products. When facing multi-component products, existing EPE foam packaging cannot be adjusted and designed according to the characteristics of different components, resulting in less than ideal packaging effect. Summary of the Invention
[0004] In order to overcome the above-mentioned defects of the prior art, this utility model provides a multi-component integrated shockproof pearl cotton packaging body.
[0005] To achieve the above objectives, the present invention provides the following technical solution: a multi-component integrated shockproof pearl cotton packaging body, including a pearl cotton packaging box, the top of which is connected to a lid, a groove is provided inside the pearl cotton packaging box, a component separating mechanism is provided inside the groove, and a pad is provided on the top of the pearl cotton packaging box at the top of the component separating mechanism.
[0006] The component separation mechanism includes several vertically inserted compartment partitions inside the pearl cotton packaging box. Each compartment partition has a connecting rod extending horizontally through its bottom ends. Several second component partitions are connected between the tops of any two adjacent compartment partitions. Several first component partitions are connected between the two compartment partitions at the edge and the inner wall of the pearl cotton packaging box.
[0007] As a further improvement to the technical solution of this utility model, the length and width of the cross-section of the pad are smaller than the length and width of the cross-section of the inner groove of the pearl cotton packaging box, respectively.
[0008] As a further improvement to the technical solution of this utility model, both the pad and the box cover are made of pearl cotton.
[0009] As a further improvement to the technical solution of this utility model, the compartment partition, the first component partition, and the second component partition are all made of pearl cotton, and the connecting rod is made of PVC.
[0010] As a further improvement to the technical solution of this utility model, each of the two ends of the partition plate is provided with a through hole at the bottom corresponding to the insertion position of the connecting rod, and the inner diameter of the vertical cross-section of the through hole is larger than the outer diameter of the vertical cross-section of the connecting rod.
[0011] As a further improvement to the technical solution of this utility model, the bottom end of the first component partition plate is in contact with the bottom wall of the inner groove of the pearl cotton packaging box, the top of the second component partition plate is set at the same height as the top of the first component partition plate, and the vertical cross-sectional length of the second component partition plate is one-quarter of the vertical cross-sectional length of the first component partition plate.
[0012] As a further improvement to the technical solution of this utility model, a second slider is provided at the top of both ends of the second component partition plate, and a first slider is provided at the top of one end of the first component partition plate near the compartment partition plate. Slide grooves are provided on the two outer walls of the top of the compartment partition plate along the horizontal direction corresponding to the outer sides of the first slider and the second slider.
[0013] As a further improvement to the technical solution of this utility model, expansion bolts are connected between the box cover and the four corners of the pearl cotton packaging box. An internal thread groove is provided at the connection point of each expansion bolt at the top four corners of the pearl cotton packaging box, and a connection hole is provided at the four corners of the box cover at the connection point of each expansion bolt.
[0014] The beneficial effects of this utility model are:
[0015] 1. The overall frame of this utility model adopts a pearl cotton structure. The component separation mechanism is designed with PVC connecting rods as the skeleton. The structural strength of the connecting rods increases the stability when multiple compartment partitions are separated, making it less prone to tilting and improving the protection of internal items and components. The remaining parts are separated from the components by pearl cotton material. Utilizing the porous material of pearl cotton, it can absorb high-frequency vibration energy through elastic deformation during use, thereby providing a good protective effect for the internal items and components when subjected to external collisions or vibrations.
[0016] 2. The component partition mechanism is designed so that the compartment partitions can slide outside the connecting rod. Therefore, during use, different numbers of compartment partitions can be added according to the required number of partitions, and second component partitions of corresponding length can be configured for support. This allows the entire component partition mechanism to be stably placed inside the pearl cotton packaging box. The multiple first component partitions can separate some small components, while the second component partitions, due to the large space cavity between the bottom and the two compartment partitions, can accommodate the placement of larger components. The second component partitions made of pearl cotton material at the top provide separation, buffering, and protection. The box cover and the pearl cotton packaging box are connected by expansion bolts, which facilitates assembly and disassembly. The expansion bolts also have deformation capabilities and are not likely to damage the pearl cotton box body. Attached Figure Description
[0017] Figure 1 This is a schematic diagram of the structure of this utility model.
[0018] Figure 2 This is a schematic diagram of the component separation mechanism in this utility model.
[0019] Figure 3 This is a schematic diagram of the compartment partition in this utility model.
[0020] Figure 4 This is a schematic diagram of the structure of the first component, the partition plate, in this utility model.
[0021] Figure 5 This is a schematic diagram of the structure of the second component partition plate in this utility model.
[0022] The attached figures are labeled as follows: 1. Pearl cotton packaging box; 2. Component separation mechanism; 3. Pad; 4. Box cover; 5. Expansion bolt; 101. Internal threaded groove; 201. Compartment partition; 202. Connecting rod; 203. First component partition; 204. Second component partition; 401. Connecting hole; 2011. Through hole; 2012. Slide groove; 2031. First slider; 2041. Second slider. Detailed Implementation
[0023] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.
[0024] As attached Figure 1-5 The multi-component integrated shockproof pearl cotton packaging body shown includes a pearl cotton packaging box 1, a box cover 4 connected to the top of the pearl cotton packaging box 1, a groove inside the pearl cotton packaging box 1, a component separation mechanism 2 inside the groove, and a pad 3 on the top of the pearl cotton packaging box 1 located on the top of the component separation mechanism 2.
[0025] The component separation mechanism 2 includes several vertically inserted compartment partitions 201 inside the pearl cotton packaging box 1. Each compartment partition 201 has a connecting rod 202 extending horizontally through its bottom ends. Several second component partitions 204 are connected between the tops of any two adjacent compartment partitions 201. Several first component partitions 203 are connected between the two compartment partitions 201 at the edge and the inner wall of the pearl cotton packaging box 1.
[0026] As attached Figure 1 As shown, the length and width of the cross-section of the pad 3 are smaller than the length and width of the cross-section of the inner groove of the pearl cotton packaging box 1, which makes it convenient to place the pad 3 above the component separation mechanism 2 inside the pearl cotton packaging box 1 during use to protect the multiple components placed inside.
[0027] Among them, the pad 3 and the box cover 4 are both made of pearl cotton, the compartment partition 201, the first component partition 203 and the second component partition 204 are all made of pearl cotton, and the connecting rod 202 is made of PVC. By utilizing the porous material of pearl cotton, it can absorb high-frequency vibration energy through elastic deformation during use, thereby providing good protection for the internal items and components when subjected to external collisions or vibrations.
[0028] As attached Figure 2-3 As shown, each compartment partition 201 has a through hole 2011 at both ends of its bottom corresponding to the insertion position of the connecting rod 202. The inner diameter of the vertical cross-section of the through hole 2011 is larger than the outer diameter of the vertical cross-section of the connecting rod 202, which makes it easier for the connecting rod 202 to pass through the interior of the compartment partition 201 stably. The structural strength of the connecting rod 202 increases the stability of the multiple compartment partitions 201 when they are separated, making it less likely to tilt, and also improves the protection strength for the internal items and components.
[0029] As attached Figure 1-2As shown, the bottom end of the first component partition 203 contacts the bottom wall of the inner groove of the pearl cotton packaging box 1, and the top of the second component partition 204 is set at the same height as the top of the first component partition 203. The vertical cross-sectional length of the second component partition 204 is one-quarter of the vertical cross-sectional length of the first component partition 203. The multiple first component partitions 203 can separate some small components, while the second component partition 204, due to the large space cavity between its bottom and the two compartment partitions 201, can accommodate the placement of larger components, and the second component partition 204 made of pearl cotton material at the top provides separation, buffering and protection.
[0030] As attached Figure 2-5 As shown, the top of both ends of the second component partition plate 204 is provided with a second slider 2041, and the top of one end of the first component partition plate 203 is provided with a first slider 2031 on the side near the compartment partition plate 201. The top two outer walls of the compartment partition plate 201 are provided with sliding grooves 2012 in the horizontal direction corresponding to the outer sides of the first slider 2031 and the second slider 2041, which facilitates the sliding connection between the second component partition plate 204 and the first component partition plate 203 and the compartment partition plate 201, so as to adjust the size of the space in the compartment according to actual needs to accommodate the placement of components of different sizes.
[0031] As attached Figure 1 As shown, expansion bolts 5 are connected between the lid 4 and the four corners of the pearl cotton packaging box 1. An internal thread groove 101 is provided at the connection point of each expansion bolt 5 at the top four corners of the pearl cotton packaging box 1. A connection hole 401 is provided at the four corners of the lid 4 at the connection point of each expansion bolt 5, so as to facilitate the assembly and disassembly of the lid 4 and the pearl cotton packaging box 1.
[0032] The number of the first component partition plate 203 and the second component partition plate 204 can be easily replenished after the component partitioning mechanism 2 is placed inside the pearl cotton packaging box 1. During operation, it is only necessary to tilt it first and place it inside the partitioning compartment, and then rotate it to place the slider inside the slide groove 2012. It can also be easily and quickly removed.
[0033] Working principle: This utility model designs a multi-component integrated shockproof pearl cotton packaging body, the specific structure of which is shown in the attached instruction manual. Figure 1-5As shown, in this technical solution, the overall frame adopts a pearl cotton structure. The component partition mechanism 2 is designed with PVC connecting rods as the skeleton. The structural strength of the connecting rods 202 increases the stability of the multiple compartment partitions 201 during partitioning, preventing tilting and improving the protection of internal components. The remaining parts are separated by pearl cotton material in contact with the components. Utilizing the porous nature of pearl cotton, it can absorb high-frequency vibration energy through elastic deformation during use, thus providing good protection for the internal components when subjected to external impacts or vibrations. The compartment partitions 201 can slide outside the connecting rods 202, allowing for the addition of different numbers of compartment partitions according to the required number of partitions during use. The board 201 is supported by a second component partition 204 of corresponding length, so that the entire component partition mechanism 2 can be stably placed inside the pearl cotton packaging box 1. The multiple first component partitions 203 can separate some small components, while the second component partition 204 has a large space cavity between the bottom and the two compartment partitions 201, which can accommodate the placement of larger components. The second component partition 204 made of pearl cotton at the top is used for separation, buffering and protection. The box cover 4 is connected to the pearl cotton packaging box 1 by expansion bolts 5, which facilitates assembly and disassembly. After the components are packaged, the entire pearl cotton packaging body can be placed in a wooden box or cardboard box for internal transportation or storage as needed.
[0034] In the accompanying drawings of the embodiments disclosed in this utility model, only the structures involved in the embodiments of this utility model are shown. Other structures can be referred to with ordinary design. In the absence of conflict, the same embodiment and different embodiments of this utility model can be combined with each other.
[0035] Finally: The above description is only a preferred embodiment of the present utility model and is not intended to limit the present utility model. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of the present utility model should be included within the protection scope of the present utility model.
Claims
1. A multi-component integrated shockproof pearl cotton packaging body, including a pearl cotton packaging box (1), wherein a box lid (4) is connected to the top of the pearl cotton packaging box (1), characterized in that: The pearl cotton packaging box (1) has a groove inside, and a component separation mechanism (2) is provided inside the groove. A pad (3) is provided on the top of the pearl cotton packaging box (1) at the top of the component separation mechanism (2). The component separation mechanism (2) includes several vertically inserted compartment partitions (201) inside the pearl cotton packaging box (1). Each compartment partition (201) has a connecting rod (202) passing through its bottom ends in the horizontal direction. Several second component partitions (204) are connected between the tops of any two adjacent compartment partitions (201). Several first component partitions (203) are connected between the two compartment partitions (201) at the edge and the inner wall of the pearl cotton packaging box (1).
2. The multi-component integrated shockproof pearl cotton packaging body according to claim 1, characterized in that: The length and width of the cross-section of the pad (3) are smaller than the length and width of the cross-section of the inner groove of the pearl cotton packaging box (1).
3. The multi-component integrated shockproof pearl cotton packaging body according to claim 1, characterized in that: The pad (3) and the box cover (4) are both made of pearl cotton.
4. The multi-component integrated shockproof pearl cotton packaging body according to claim 1, characterized in that: The compartment partition (201), the first component partition (203), and the second component partition (204) are all made of pearl cotton, and the connecting rod (202) is made of PVC.
5. The multi-component integrated shockproof pearl cotton packaging body according to claim 1, characterized in that: Each of the two ends of the partition plate (201) is provided with a through hole (2011) at the bottom corresponding to the insertion position of the connecting rod (202). The inner diameter of the vertical section of the through hole (2011) is larger than the outer diameter of the vertical section of the connecting rod (202).
6. The multi-component integrated shockproof pearl cotton packaging body according to claim 1, characterized in that: The bottom end of the first component partition plate (203) is in contact with the bottom wall of the inner groove of the pearl cotton packaging box (1), the top of the second component partition plate (204) is set at the same height as the top of the first component partition plate (203), and the vertical section length of the second component partition plate (204) is one-quarter of the vertical section length of the first component partition plate (203).
7. The multi-component integrated shockproof pearl cotton packaging body according to claim 1, characterized in that: The top of both ends of the second component partition plate (204) is provided with a second slider (2041), and the top of one end of the first component partition plate (203) is provided with a first slider (2031) on the side close to the compartment partition plate (201). The top two outer walls of the compartment partition plate (201) are provided with grooves (2012) in the horizontal direction corresponding to the outer sides of the first slider (2031) and the second slider (2041).
8. The multi-component integrated shockproof pearl cotton packaging body according to claim 1, characterized in that: Expansion bolts (5) are connected between the box cover (4) and the four corners of the pearl cotton packaging box (1). An internal thread groove (101) is provided at the top four corners of the pearl cotton packaging box (1) corresponding to the connection of each expansion bolt (5). A connection hole (401) is provided at the four corners of the box cover (4) corresponding to the connection of each expansion bolt (5).