Ice cream cone protective sleeve with built-in foamed impact layer
The ice cream cone protective sleeve with a built-in foamed shock-absorbing layer uses polyurethane foam material to construct multi-layered cushioning protection, which solves the problem of cones being easily broken and deformed during transportation, and achieves all-round protection and product quality improvement.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHANDONG YOLEDA FOOD TECH CO LTD
- Filing Date
- 2025-08-14
- Publication Date
- 2026-07-07
Smart Images

Figure CN224466560U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the field of ice cream cone technology, specifically relating to an ice cream cone protective sleeve with a built-in foamed anti-impact layer. Background Technology
[0002] In the realm of frozen desserts, ice cream has always been a beloved treat. Ice cream cones, especially those encased in a crisp, cone-shaped shell, are particularly popular due to their unique texture and consumption method. Ice cream cones are typically made of thin, crispy batter, making them brittle and fragile. During transportation, the bumps and vibrations from vehicle movement, as well as collisions during handling, easily damage the cones. If a cone cracks, breaks, or deforms, it not only severely affects its appearance, reducing consumer desire, but may also lead to leakage during sale or consumption, significantly compromising product quality and causing economic losses for both manufacturers and retailers.
[0003] The prior art includes an ice cream cone vending machine with patent publication number CN208954228U. This patent comprises a simple body and a flexible limiting structure. The simple body has a receiving cavity for holding the cone, and the receiving cavity has a downward opening. The flexible limiting structure is located at the opening and protrudes radially inward along the opening. The ice cream cone vending machine proposed in this utility model can cleanly and conveniently place ice cream cones. However, most existing technologies use ordinary cardboard boxes or plastic films for simple packaging of ice cream cones. Cardboard boxes only provide limited protection and are difficult to effectively cushion against severe impacts. They also soften easily in humid environments, losing their protective function. Plastic films mainly isolate dust and some moisture, offering almost no impact resistance. Moreover, they cannot continuously and accurately provide all-around protection for the cone during transportation. Ice cream cones are easily subjected to external collisions and compression, leading to cone breakage and deformation, which in turn affects the product's appearance and quality, increasing the defect rate.
[0004] Therefore, there is a need for an ice cream cone protective sleeve with a built-in foamed shock-absorbing layer to solve the problem in existing technologies that cannot provide continuous and precise all-round protection for the cone during transportation, leading to cone breakage and deformation, which in turn affects the product's appearance and quality and increases the defect rate. Summary of the Invention
[0005] The purpose of this invention is to provide an ice cream cone protective sleeve with a built-in foamed anti-impact layer to solve the problems mentioned in the background art.
[0006] To achieve the above objectives, this utility model provides the following technical solution: an ice cream cone protective sleeve with a built-in foamed anti-impact layer, comprising a protective box, a cover plate, a buffer layer, a magnetic block, a protective mechanism, and a cone body. The cover plate is rotatably connected to the top of the protective box, the buffer layer is fixedly disposed on the bottom surface of the cover plate, the protective mechanism is evenly disposed inside the protective box, and the cone body is disposed inside the protective mechanism.
[0007] It should be noted in the solution that the magnetic blocks are fixedly connected to the front of the protective box and the cover plate respectively, and the protective box and the cover plate are connected by the magnetic blocks.
[0008] It is worth noting that the protective mechanism consists of a protective sleeve, an impact-resistant layer, a connecting block, a base plate, an impact-resistant seat, a fixing plate, a slider, a spring, and a positioning block. The impact-resistant layer is located inside the protective sleeve. The connecting block is symmetrically and fixedly connected to the front and rear sides of the bottom of the protective sleeve. The base plate is located below the protective sleeve. The impact-resistant seat is fixedly connected to the top of the base plate and is located inside the protective sleeve.
[0009] Furthermore, it should be noted that the bottom surface of the base plate has a groove, the fixing plate is fixedly connected to the middle of the groove, the slider is symmetrically slidably connected to the front and rear sides inside the groove, and the slider is symmetrically arranged on the front and rear sides of the fixing plate, and the spring is fixedly connected between the slider and the fixing plate.
[0010] In a preferred embodiment, the positioning block is fixedly connected to the side of the slider away from the spring, and the top surface of the positioning block has an inclined surface.
[0011] In a preferred embodiment, the top surface of the base plate is symmetrically provided with a mounting groove adapted to the connecting block, the positioning block extends into the interior of the mounting groove, and the interior of the connecting block is provided with a positioning hole adapted to the positioning block.
[0012] In a preferred embodiment, a push plate is fixedly connected to the bottom surface of the slider, the bottom surface of the push plate is flush with the bottom surface of the base plate, and a conical groove adapted to the cone body is provided on the top surface of the anti-impact seat.
[0013] In a preferred embodiment, the buffer layer, the impact-resistant layer, and the impact-resistant seat are all made of polyurethane foam, and the inner layer of the polyurethane foam is respectively provided with food-grade plastic.
[0014] Compared with the prior art, the ice cream cone protective sleeve with a built-in foamed shock-resistant layer provided by this utility model has at least the following beneficial effects:
[0015] (1) A multi-layered buffer protection system is constructed by setting up protective boxes, covers, buffer layers and protective mechanisms. The buffer layer, anti-impact layer and anti-impact seat are all made of polyurethane foam material. This material has good elasticity and buffer performance, and can absorb and disperse impact force in different directions and to varying degrees, providing all-round protection for ice cream cones and effectively reducing the risk of the cones being damaged during transportation and sales.
[0016] (2) When selling, there is no need to remove the cone body from the protective sleeve. Only the bottom plate and the shockproof seat need to be removed. This avoids collisions and damage to the cone that may be caused during the removal process, ensures the integrity of the cone, improves the quality and appearance of the product, and helps to improve sales performance. Attached Figure Description
[0017] Figure 1 This is a three-dimensional structural schematic diagram of the present invention;
[0018] Figure 2 This is a cross-sectional structural diagram of the present invention;
[0019] Figure 3 This is a cross-sectional structural diagram of the protection mechanism of this utility model;
[0020] Figure 4 This is a schematic diagram of the disassembled structure of the protective sleeve and base plate of this utility model.
[0021] In the diagram: 1. Protective box; 2. Cover plate; 3. Buffer layer; 4. Magnetic block; 5. Protective mechanism; 6. Cone body; 501. Protective sleeve; 502. Impact-resistant layer; 503. Connecting block; 504. Positioning hole; 505. Base plate; 506. Impact-resistant seat; 507. Conical groove; 508. Groove; 509. Fixing plate; 510. Slider; 511. Spring; 512. Positioning block; 513. Mounting groove. Detailed Implementation
[0022] The present invention will be further described below with reference to the embodiments.
[0023] Please see Figure 1-4 This utility model provides an ice cream cone protective sleeve with a built-in foamed anti-impact layer, including a protective box 1, a cover plate 2, a buffer layer 3, a magnetic block 4, a protective mechanism 5, and a cone body 6. The cover plate 2 is rotatably connected to the top of the protective box 1, the buffer layer 3 is fixedly set on the bottom surface of the cover plate 2, the protective mechanism 5 is evenly arranged inside the protective box 1, and the cone body 6 is set inside the protective mechanism 5.
[0024] Further as Figure 2 , Figure 3 and Figure 4As shown, it is worth noting that the magnetic block 4 is fixedly connected to the front of the protective box 1 and the cover plate 2 respectively, and the protective box 1 and the cover plate 2 are connected by the magnetic block 4.
[0025] The cover plate 2 is tightly connected to the protective box 1 by magnetic blocks 4, which further enhances the overall sealing and stability and reduces the impact of external factors on the cone.
[0026] Further as Figure 2 , Figure 3 and Figure 4 As shown, it is worth noting that the protective mechanism 5 consists of a protective sleeve 501, an impact-resistant layer 502, a connecting block 503, a base plate 505, an impact-resistant seat 506, a fixing plate 509, a slider 510, a spring 511, and a positioning block 512. The impact-resistant layer 502 is located inside the protective sleeve 501. The connecting block 503 is symmetrically and fixedly connected to the front and rear sides of the bottom of the protective sleeve 501. The base plate 505 is located below the protective sleeve 501. The impact-resistant seat 506 is fixedly connected to the top of the base plate 505 and is located inside the protective sleeve 501.
[0027] Further as Figure 2 , Figure 3 and Figure 4 As shown, it is worth noting that the bottom surface of the base plate 505 has a groove 508, the fixing plate 509 is fixedly connected to the middle of the groove 508, the slider 510 is symmetrically slidably connected to the front and rear sides inside the groove 508, and the slider 510 is symmetrically arranged on the front and rear sides of the fixing plate 509. The spring 511 is fixedly connected between the slider 510 and the fixing plate 509, and the positioning block 512 is fixedly connected to the side of the slider 510 away from the spring 511. The top surface of the positioning block 512 has an inclined surface.
[0028] As can be seen from the above working process, a multi-layered buffer protection system is constructed by setting up a protective box 1, a cover plate 2, a buffer layer 3, and a protective mechanism 5. The buffer layer 3, the impact-resistant layer 502, and the impact-resistant seat 506 are all made of polyurethane foam material. This material has good elasticity and buffering performance, and can absorb and disperse impact force in different directions and to different degrees, providing all-round protection for the ice cream cone and effectively reducing the risk of the cone being damaged during transportation and sales.
[0029] Further as Figure 2 , Figure 3 and Figure 4 As shown, it is worth noting that the top surface of the base plate 505 is symmetrically provided with an installation groove 513 that is adapted to the connecting block 503, the positioning block 512 extends into the interior of the installation groove 513, and the interior of the connecting block 503 is provided with a positioning hole 504 that is adapted to the positioning block 512.
[0030] Further as Figure 2 , Figure 3 and Figure 4 As shown, it is worth noting that the bottom surface of the slider 510 is fixedly connected to a push plate, the bottom surface of the push plate is flush with the bottom surface of the base plate 505, and the top surface of the anti-impact seat 506 is provided with a conical groove 507 that is compatible with the cone body 6.
[0031] The conical groove 507 is designed to precisely fix the position of the cone body 6, preventing it from shaking inside the protective sleeve and completing the initial installation of the cone.
[0032] Further as Figure 2 , Figure 3 and Figure 4 As shown, it is worth noting that the materials of the buffer layer 3, the impact-resistant layer 502, and the impact-resistant seat 506 are respectively set as polyurethane foam, and the inner layer of the polyurethane foam is respectively set with food-grade plastic.
[0033] The closed-cell structure of the polyurethane foam material provides waterproofing and high elasticity, effectively buffering external impacts. The impact-resistant layer 502 further enhances the buffering performance of the protective sleeve 501. When impacted, the impact-resistant layer 502 can absorb energy through deformation, reducing the impact force transmitted to the cone body 6. The buffer layer 3, if it encounters bumps or collisions during transportation, can absorb and disperse some of the impact force through its own elastic deformation, reducing the impact on the top of the cone and protecting the ice cream and cone structure from damage. Moreover, the food-grade plastic inner layer improves the food safety of the cone body 6.
[0034] This solution has the following working process: During use, overcome the magnetic force of the magnetic block 4 and flip the cover plate 2 upwards around the rotating connection to open the protective box 1; place the ice cream cone body 6 into the conical groove 507 on the top surface of the impact-resistant seat 506 that matches the cone body 6 to complete the cone installation; flip the cover plate 2 downwards around the rotating connection so that it covers the protective box 1, and the protective box 1 and cover plate 2 are reconnected by the magnetic block 4, sealing the cone inside the protective box 1; during transportation, the protective box 1, cover plate 2, buffer layer 3, and protective mechanism 5... The system effectively protects the cone. During transportation, the protective box 1, as the basic structure of the entire protective sleeve, provides external physical support and protection for the cone, preventing direct collisions with external objects. The buffer layer 3, fixedly installed on the bottom surface of the cover plate 2, can absorb and disperse some of the impact force through its elastic deformation during transportation if bumps or collisions occur, reducing the impact on the top of the cone and protecting the ice cream and cone structure from damage. The protective mechanism 5 is evenly distributed inside the protective box 1, playing a crucial protective role for the cone body 6. The protective sleeve 501 wraps around the outside of the cone body 6, providing direct physical protection for the cone and preventing it from being squeezed or collided from the sides. The impact-resistant layer 502 further enhances the buffering performance of the protective sleeve 501. When impacted, the impact-resistant layer 502 can absorb energy through deformation, reducing the impact force transmitted to the cone body 6. The shock-absorbing seat 506 is fixedly connected to the top of the base plate 505 and is set inside the protective sleeve 501. The conical groove 507 opened on its top surface not only fixes the position of the egg carton body 6, but also disperses and absorbs the impact force when the bottom of the egg carton is impacted, protecting the bottom of the egg carton from damage through its own structural characteristics and material properties.
[0035] Upon arrival at the sales location, open the cover 2 again, remove the protective mechanism 5 and the cone body 6, and push the push plate fixed on the slider 510 on the bottom surface of the base plate 505, causing the slider 510 to slide in the groove 508. Since the slider 510 is fixedly connected to the fixed plate 509 by a spring 511, the spring 511 is compressed when the push plate is pushed. At the same time, the slider 510 drives the positioning block 512 to move, causing the positioning block 512 to disengage from the inside of the positioning hole 504, thus releasing the connection between the connecting block 503 and the base plate 505. This allows the base plate 505 and the shockproof seat 506 to be removed downwards. Then, place the protective sleeve 501 and the cone body 6 on the sales rack. There is no need to remove the cone body 6 from inside the protective sleeve 501, and it can be sold immediately, improving the practicality of the protective box 1 and the integrity of the cone body 6.
[0036] In summary, a multi-layered buffer protection system is constructed through the protective box 1, cover plate 2, buffer layer 3, and protective mechanism 5. The buffer layer 3, impact-resistant layer 502, and impact-resistant seat 506 are all made of polyurethane foam, which has good elasticity and cushioning performance. It can absorb and disperse impact force in different directions and to varying degrees, providing all-round protection for the ice cream cone and effectively reducing the risk of damage to the cone during transportation and sales. When selling, there is no need to remove the cone body 6 from inside the protective sleeve 501; only the bottom plate 505 and impact-resistant seat 506 need to be removed. This avoids collisions and damage to the cone that may be caused during the removal process, ensuring the integrity of the cone, improving product quality and appearance appeal, and thus enhancing sales performance.
Claims
1. An ice cream cone protective sleeve with a built-in foamed shock-resistant layer, comprising a protective box (1), a cover plate (2), a buffer layer (3), a magnetic block (4), a protective mechanism (5), and a cone body (6), characterized in that: The cover plate (2) is rotatably connected to the top of the protective box (1), the buffer layer (3) is fixedly set on the bottom surface of the cover plate (2), the protective mechanism (5) is evenly arranged inside the protective box (1), and the egg carton body (6) is set inside the protective mechanism (5).
2. The ice cream cone protective sleeve with a built-in foamed impact-resistant layer according to claim 1, characterized in that: The magnetic blocks (4) are fixedly connected to the front of the protective box (1) and the cover plate (2), and the protective box (1) and the cover plate (2) are connected by the magnetic blocks (4).
3. The ice cream cone protective sleeve with a built-in foamed impact-resistant layer according to claim 2, characterized in that: The protective mechanism (5) consists of a protective sleeve (501), an impact-resistant layer (502), a connecting block (503), a base plate (505), an impact-resistant seat (506), a fixing plate (509), a slider (510), a spring (511), and a positioning block (512). The impact-resistant layer (502) is located inside the protective sleeve (501). The connecting block (503) is symmetrically fixedly connected to the front and rear sides of the bottom of the protective sleeve (501). The base plate (505) is located below the protective sleeve (501). The impact-resistant seat (506) is fixedly connected to the top of the base plate (505) and is located inside the protective sleeve (501).
4. The ice cream cone protective sleeve with a built-in foamed impact-resistant layer according to claim 3, characterized in that: The bottom surface of the base plate (505) is provided with a groove (508), the fixing plate (509) is fixedly connected to the middle of the groove (508), the slider (510) is symmetrically slidably connected to the front and rear sides inside the groove (508), and the slider (510) is symmetrically arranged on the front and rear sides of the fixing plate (509). The spring (511) is fixedly connected between the slider (510) and the fixing plate (509).
5. An ice cream cone protective sleeve with a built-in foamed impact-resistant layer according to claim 4, characterized in that: The positioning block (512) is fixedly connected to the side of the slider (510) away from the spring (511), and the top surface of the positioning block (512) is provided with an inclined surface.
6. The ice cream cone protective sleeve with a built-in foamed impact-resistant layer according to claim 5, characterized in that: The top surface of the base plate (505) is symmetrically provided with an installation groove (513) that is adapted to the connecting block (503). The positioning block (512) extends into the interior of the installation groove (513). The interior of the connecting block (503) is provided with a positioning hole (504) that is adapted to the positioning block (512).
7. An ice cream cone protective sleeve with a built-in foamed impact-resistant layer according to claim 6, characterized in that: The bottom surface of the slider (510) is fixedly connected to a push plate, the bottom surface of the push plate is aligned with the bottom surface of the base plate (505), and the top surface of the anti-impact seat (506) is provided with a conical groove (507) that is compatible with the cone body (6).
8. The ice cream cone protective sleeve with a built-in foamed impact-resistant layer according to claim 7, characterized in that: The buffer layer (3), the impact-resistant layer (502), and the impact-resistant seat (506) are respectively made of polyurethane foam, and the inner layer of the polyurethane foam is respectively provided with food-grade plastic.