Quick donning slip-resistant shoe cover
By designing a quick-wearing, anti-slip shoe cover with an oblique tensioning mechanism and an inner surface anti-slip structure, the problems of cumbersome wearing and hygiene hazards of existing shoe covers are solved, achieving a convenient and comfortable wearing experience while reducing costs.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- NANJING ZHONGLING SHIJING DIGITAL TECHNOLOGY CO LTD
- Filing Date
- 2025-08-04
- Publication Date
- 2026-07-07
AI Technical Summary
Existing shoe covers are cumbersome to put on, using special shoes is costly and poses hygiene risks, and different foot sizes require different sizes of shoes.
A quick-wearing, anti-slip shoe cover was designed, featuring an oblique tensioning mechanism and an inner surface anti-slip structure. The rear half of the shoe cover is open, and the inner surface is equipped with anti-slip protrusions or anti-slip sponge. It is suitable for both left and right feet and reduces production costs.
It enables quick wearing, prevents shoes from accidentally falling off, improves user convenience and comfort, reduces production costs, and reduces hygiene risks.
Smart Images

Figure CN224461176U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of VR treadmill accessories, specifically to a quick-wearing anti-slip shoe cover. Background Technology
[0002] Virtual reality (VR) technology uses computers to simulate various human sensory signals, such as vision, hearing, touch, and movement, providing a highly realistic virtual experience. An omnidirectional motion platform based on VR technology is a device that can meet the user's need for omnidirectional movement, allowing the user to perform actions such as running, rotating, jumping, squatting, and dodging left and right within a limited space. An omnidirectional treadmill provides feedback based on the user's position, posture, and movements, thus returning the user to the starting point.
[0003] When users walk on a VR treadmill, there are certain requirements for the shoes they wear. For example, Chinese patent ZL202210149746.3 discloses an active omnidirectional treadmill based on a spiral roller. Since the part in contact with the user's shoe sole is a spiral roller with several small rollers, the sole in contact with the spiral roller needs to be flat, of moderate hardness, and wear-resistant. However, the soles of regular shoes often have large undulating patterns, so users cannot wear their own shoes for interaction. Users need to change into or wear a pair of special shoes or shoe covers that meet the above conditions. Another example is the gliding VR treadmills from Omni and Kat, which require the user's shoe sole to minimize friction. Therefore, Omni and Kat provide users with special low-friction shoes.
[0004] However, existing shoe covers have the problem of cumbersome wearing steps, and using special shoes means that different sizes of feet need to be matched with different sizes of shoes, which is too costly; a pair of shoes worn by multiple people also poses hygiene risks such as cross-infection of fungi. Utility Model Content
[0005] Purpose of the utility model: This utility model proposes a quick-wearing anti-slip shoe cover to solve the problems of cumbersome wearing steps, the need for different shoe sizes to match different foot sizes, the hygiene concerns of multiple people wearing the same pair of shoes, and the high cost.
[0006] Technical solution: The present invention proposes a quick-wearing anti-slip shoe cover, comprising a shoe cover body, an oblique tensioning mechanism, and an inner surface anti-slip structure; the rear half of the shoe cover body is an open structure; the shoe cover body includes a sole and shoe uppers disposed on both sides of the sole; the oblique tensioning mechanism is used to pull the shoe uppers on both sides closer together, and the shoe cover body is provided with an inner surface anti-slip structure.
[0007] Preferably, the position where the oblique tensioning mechanism connects to the sole is set at a point no more than 1 / 2 of the overall length of the sole, starting from the heel of the sole.
[0008] Preferably, the oblique tensioning mechanism includes Velcro and a buckle, with the Velcro provided on one side of the shoe upper and a buckle provided on the upper end of the other side of the shoe upper; the Velcro is locked after passing through the buckle.
[0009] Preferably, the sole has a symmetrical design.
[0010] Preferably, the inner surface anti-slip structure includes anti-slip protrusions disposed on the upper surface of the sole and the inner side of the upper.
[0011] Preferably, the inner surface anti-slip structure includes anti-slip sponge disposed on the upper surface of the sole and the inner side of the upper.
[0012] Preferably, the inner surface anti-slip structure includes anti-slip protrusions disposed on the upper surface of the sole and anti-slip sponge disposed on the inner side of the upper.
[0013] Preferably, the inner surface anti-slip structure is an anti-slip protrusion or anti-slip sponge that is only provided on the upper surface of the sole.
[0014] Beneficial Effects: This utility model proposes a quick-wearing, anti-slip shoe cover that allows users to put on the shoe in just two steps without changing shoes. Based on the quick-wearing structure, the anti-slip design effectively prevents accidental slippage during use. This quick-wearing wearable shoe cover provides users with convenience and comfort. The symmetrical design adapts to both left and right feet, reducing production costs. Attached Figure Description
[0015] Figure 1 This is a schematic diagram of the overall structure of Embodiment 1 of this utility model from a perspective 1;
[0016] Figure 2 This is a schematic diagram of the overall structure of Embodiment 1 of this utility model from perspective 2;
[0017] Figure 3 This is a schematic diagram of the starting position of the oblique tensioning mechanism of this utility model;
[0018] Figure 4 This is a schematic diagram of the fixed position when the present invention is worn;
[0019] Figure 5 This is a schematic diagram of the inner surface anti-slip structure being an anti-slip sponge in Embodiment 2 of this utility model;
[0020] Figure 6 This is a schematic diagram of the anti-slip protrusions and anti-slip sponge in embodiment 3 of this utility model;
[0021] Figure 7 This is a schematic diagram of the overall structure in Embodiment 4 of this utility model;
[0022] Figure 8 This is a top view of the structure of this utility model. Detailed Implementation
[0023] Example 1:
[0024] This embodiment provides a quick-wearing, anti-slip shoe cover. Figure 1 and Figure 2 The overall structure of the shoe cover is shown, including a diagonal tightening mechanism 10 and an inner surface anti-slip structure 20. In this embodiment, the diagonal tightening mechanism 10 is composed of Velcro 1001, which can be tightened after passing through the buckle 1002. It should be noted that other structures such as buckles and shoelaces can also achieve the diagonal tightening effect, but Velcro 1001 is the preferred embodiment. In this embodiment, the inner surface anti-slip structure 20 is provided on the sole position 3002 and both sides of the upper 3003 of the shoe cover. To facilitate user on and off, the rear half of the shoe cover 3001 is an open structure without a heel strap, allowing the user to step directly into the shoe cover through the open rear half without removing their own shoes, and the diagonal tightening mechanism 10 secures the user's shoes inside the shoe cover. The inner surface of the sole 3002 is provided with anti-slip protrusions 2001, and the inner side of the upper is also provided with anti-slip protrusions 2002.
[0025] Figure 3 The diagonal tensioning mechanism 10 in this embodiment starts from the sole 3002 and begins at a position 1003 no more than 1 / 2 of the way from the heel. That is, the position where the edge line 1004 of the diagonal tensioning mechanism 10 intersects the sole 3002 is located on the side of the sole centerline 1005 near the heel.
[0026] Figure 4 The diagram shows that when the inclined tensioning mechanism 10 is tightened, in this embodiment the Velcro 1001 is tightened, and pressure is applied between the shoe cover and the shoe by obliquely squeezing the instep 4001 of the user's shoe. Combined with the inner surface anti-slip structure 20, the shoe cover is prevented from falling off.
[0027] Figure 8 The top view of the main body of the shoe cover in this embodiment shows a symmetrical design. This ensures that the shoe cover can be used on both feet simultaneously, enhancing its versatility.
[0028] Example 2:
[0029] Figure 5The diagram shows the inner surface anti-slip structure 20 using anti-slip sponge. Anti-slip sponge 2003 is provided at the sole position 3002, and anti-slip sponge 2004 is also provided on both sides of the shoe upper 3003. The anti-slip sponge, compared to the anti-slip protrusions, serves to protect the user's shoes.
[0030] Example 3:
[0031] Figure 6 Examples of different materials used in different parts of the inner surface anti-slip structure 20 are shown. Considering that the sides 3003 of the shoe upper are in direct contact with the user's shoe surface, anti-slip sponge 2004 is used on the sides 3003 of the shoe upper in this embodiment, while anti-slip protrusions 2001 are used on the sole 3002 to ensure user ease of wear.
[0032] Example 4:
[0033] Figure 7 An embodiment using only a portion of the inner surface anti-slip structure 20 is shown. In this embodiment, the sides 3003 of the shoe upper may not have an anti-slip structure; instead, anti-slip protrusions 2001 are provided only at the sole 3002. It should be noted that the sole 3002 can also be provided with anti-slip sponge 2003 as an anti-slip structure.
Claims
1. A quick-wearing anti-slip shoe cover, characterized in that, The shoe cover includes a shoe cover body (30), an oblique tensioning mechanism (10), and an inner surface anti-slip structure (20); the rear half of the shoe cover body is an open structure; the shoe cover body (30) includes a sole (3002) and shoe uppers (3003) arranged on both sides of the sole; the oblique tensioning mechanism (10) is used to pull the shoe uppers (3003) on both sides closer to each other, and the shoe cover body (30) is provided with an inner surface anti-slip structure (20).
2. The quick-wearing anti-slip shoe cover according to claim 1, characterized in that, The position where the diagonal tensioning mechanism connects to the sole is set at a point no more than 1 / 2 of the overall length of the sole, starting from the heel of the sole.
3. The quick-wearing anti-slip shoe cover according to claim 1, characterized in that, The oblique tensioning mechanism (10) includes a Velcro (1001) and a buckle (1002). The Velcro (1001) is provided on one side of the shoe upper (3003), and the buckle (1002) is provided on the upper end of the other side of the shoe upper (3003). The Velcro (1001) is locked after passing through the buckle (1002).
4. The quick-wearing anti-slip shoe cover according to claim 1, characterized in that, The sole (3002) has a symmetrical design.
5. The quick-wearing anti-slip shoe cover according to claim 1, characterized in that, The inner surface anti-slip structure (20) includes anti-slip protrusions disposed on the upper surface of the sole (3002) and the inner side of the upper.
6. The quick-wearing anti-slip shoe cover according to claim 1, characterized in that, The inner surface anti-slip structure (20) includes anti-slip sponge disposed on the upper surface of the sole (3002) and the inner side of the upper.
7. The quick-wearing anti-slip shoe cover according to claim 1, characterized in that, The inner surface anti-slip structure (20) includes an anti-slip protrusion (2001) disposed on the upper surface of the sole (3002) and an anti-slip sponge disposed on the inner side of the upper.
8. The quick-wearing anti-slip shoe cover according to claim 1, characterized in that, The inner surface anti-slip structure (20) is an anti-slip protrusion or anti-slip sponge that is only set on the upper surface of the sole (3002).