A ski simulator with adjustable inclination

By using adjustable elastic connection components and limiting structure design, the limitations of existing ski simulators have been solved, and the user experience of multi-level intensity adjustment and multi-functional ski simulators has been improved.

CN224474662UActive Publication Date: 2026-07-10YONGKANG BYEBOO CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
YONGKANG BYEBOO CO LTD
Filing Date
2025-06-26
Publication Date
2026-07-10

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Abstract

The utility model discloses a gear adjustable skiing simulation body -building machine, including two sliding bases and connecting assembly, two sliding bases detachably connected on connecting assembly, two the sliding block of sliding connection has on the sliding base, and the sliding block is along the back and forth sliding of sliding base, still including gear adjustable elastic connecting assembly, and the sliding block is connected with the sliding base of corresponding through gear adjustable elastic connecting assembly, this application is through gear adjustable elastic connecting assembly and is connected in the sliding seat body on the sliding block, can realize at least three gear adjustment, to be suitable for different users, simultaneously, and the sliding seat is connected on the sliding seat body through the limiting structure, makes the sliding more smooth, and the experience is better when using.
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Description

Technical Field

[0001] This utility model belongs to the field of fitness equipment technology, and specifically relates to a ski simulator with adjustable gear levels. Background Technology

[0002] US6280366B1 discloses a multi-functional fitness machine, including two base plates with tracks on them. Two footrests slide along the tracks and are fixedly connected by several elastic cords. Users step on the footrests and perform opening and closing movements. When opening, the elastic cords apply a restoring force to the footrests. The drawback of this structure is that the elastic cords are fixedly connected to the footrests, so the elasticity between the footrests is not adjustable, making it unsuitable for different users and limiting the product's usability. Furthermore, existing similar products on the market have fixed handrails and main body structures, preventing the implementation of other functions. Utility Model Content

[0003] In view of the problems mentioned in the background art, the purpose of this utility model is to provide a ski simulator with adjustable gears to solve the problems mentioned in the background art.

[0004] The above-mentioned technical objective of this utility model is achieved through the following technical solution:

[0005] An adjustable-speed ski simulator includes two gliding bases and a connecting assembly, wherein the two gliding bases are detachably connected to the connecting assembly.

[0006] Sliding blocks are slidably connected to the two sliding bases, and the sliding blocks slide back and forth along the sliding bases;

[0007] It also includes an adjustable elastic connection component, through which the sliding block is connected to the corresponding sliding base.

[0008] Preferably, the sliding base includes a sliding base body, and the adjustable elastic connection component includes a snap-fit ​​groove formed on the front end of the sliding base body, and also includes a plurality of elastic ropes, the inner ends of the plurality of elastic ropes being fixed on the sliding block, and the outer ends of the plurality of elastic ropes passing through the sliding block and snapping into the snap-fit ​​groove.

[0009] Preferably, the bottom surface of the sliding block has a first concave groove corresponding to a plurality of elastic ropes, and also includes an inner end fixing block for the elastic ropes. The inner end fixing block for the elastic ropes has a second concave groove that corresponds one-to-one with the first concave groove. The first concave groove and the second concave groove are joined together to form a first receiving cavity for accommodating the elastic ropes. The inner end fixing block for the elastic ropes is fixed on the bottom surface of the sliding block. The inner end of the elastic rope is fixed in the first receiving cavity.

[0010] Preferably, beads are provided on both the inner and outer ends of the elastic rope, and the inner and outer ends of the elastic rope are respectively engaged in the first receiving cavity and the engaging groove by the beads.

[0011] Preferably, a through hole is formed on the front end face of the sliding block, and the through hole extends upward to form an elastic rope fixing groove. After the outer end of the elastic rope is disengaged from the locking groove, the elastic rope can be clamped in the elastic rope fixing groove for positioning to prevent obstruction during use.

[0012] Preferably, the system includes three sets of elastic ropes. When the outer end of one set of elastic ropes is engaged in the engagement groove, a first-level tensile force is formed; when the outer ends of two sets of elastic ropes are engaged in the engagement groove, a second-level tensile force is formed; and when the outer ends of three sets of elastic ropes are engaged in the engagement groove, a third-level tensile force is formed.

[0013] The number of elastic cords in this application includes, but is not limited to, three; multiple elastic cords can be designed as needed.

[0014] Preferably, sliding edges are formed on both sides of the sliding base body, and locking edges are formed on both sides of the sliding block. The locking edges are engaged with the sliding edges to achieve the sliding limit of the sliding block relative to the sliding base body.

[0015] Preferably, a support portion and a grip bar are formed on the sliding block.

[0016] Preferably, a limiting stroke post is formed at the bottom of the sliding block, and correspondingly, a sliding groove is formed on the sliding seat body, with the limiting stroke post placed in the sliding groove. This achieves further limiting.

[0017] Preferably, the connecting component includes a bottom support base, on which a support rod is detachably connected. The bottom support base includes a base body, which is recessed to form an interlocking groove. Both sliding bases have snap-fit ​​parts at their front ends. During installation, the two sliding bases are arranged opposite each other and snap-fitted into the interlocking groove through the snap-fit ​​parts.

[0018] The base body has a support rod sleeve post, and the support rod is inserted into the support rod sleeve post. A trigger is provided on a limit stroke post on one side, and the trigger is connected to a display screen via a circuit board. This is prior art and will not be described in detail here.

[0019] Preferably, it also includes two tension bands, which are detachably connected to the seat body. The bottom end of the tension band forms a bottom locking ball. The seat body has a large hole, through which a small hole is connected. When connected, the bottom locking ball moves through the large hole to the bottom end of the small hole, thereby connecting the tension band and the seat body. The top of the tension band forms a handle.

[0020] In summary, the present invention has the following main advantages:

[0021] This application uses an adjustable elastic connection component to connect the sliding block to the sliding base body, which can achieve at least three levels of adjustment to suit different users. At the same time, the sliding base is connected to the sliding base body through a limiting structure, making the sliding smoother and providing a better user experience. Attached Figure Description

[0022] Figure 1 This is a schematic diagram of the structure of this utility model;

[0023] Figure 2 yes Figure 1 An enlarged structural diagram at point A;

[0024] Figure 3 yes Figure 1 A schematic diagram of the structure in another direction;

[0025] Figure 4 This is a schematic diagram of the sliding base structure of this utility model;

[0026] Figure 5 yes Figure 4 A magnified structural diagram at point B;

[0027] Figure 6 This is a partial structural diagram of the bottom of the sliding base of this utility model;

[0028] Figure 7 This is a schematic diagram of the sliding block structure of this utility model;

[0029] Figure 8 yes Figure 7 A schematic diagram of the split structure;

[0030] Figure 9 This is a partial structural schematic diagram of the present invention;

[0031] Figure 10 This is a schematic diagram of the trigger mounting structure of this utility model;

[0032] Figure 11 This is a partial cross-sectional structural schematic diagram of the present invention;

[0033] Figure 12 This is a schematic diagram of the disassembly structure of the tension band of this utility model;

[0034] Figure 13 This is a schematic diagram of the tension belt installation structure of this utility model. Detailed Implementation

[0035] Example

[0036] refer to Figures 1 to 13This embodiment of a ski simulator with adjustable speed settings includes two sliding bases 1 and a connecting assembly 2. The two sliding bases are detachably connected to the connecting assembly. Sliding blocks 3 are slidably connected to the two sliding bases. Each sliding block 3 has a support portion 4 and a grip bar 5. The sliding blocks slide back and forth along the sliding bases. The system also includes an adjustable-speed elastic connecting assembly that connects the sliding blocks to the corresponding sliding bases. Each sliding base includes a sliding seat body 6. The adjustable-speed elastic connecting assembly includes a locking groove 7 formed on the front end of the sliding seat body and several elastic ropes 8. The inner ends of the elastic ropes are fixed to the sliding blocks, and the outer ends of the elastic ropes pass through the sliding blocks and are engaged in the locking grooves.

[0037] The sliding block has a first concave groove 9 corresponding to a plurality of elastic ropes on its bottom surface, and also includes an elastic rope inner end fixing block 10. The elastic rope inner end fixing block has a second concave groove 11 corresponding to each of the first concave grooves. The first and second concave grooves are joined vertically to form a first receiving cavity 12 for accommodating the elastic ropes. The elastic rope inner end fixing block is fixed to the bottom surface of the sliding block. The inner end of the elastic rope is fixed in the first receiving cavity. Beads 13 are provided on both the inner and outer ends of the elastic rope, and the beads hold the inner and outer ends of the elastic ropes in place. The sliding block is engaged in the first receiving cavity and the engaging groove. A through hole 14 is formed on the front end face of the sliding block. The through hole extends upward to form an elastic rope fixing groove 15. After the outer end of the elastic rope is disengaged from the engaging groove, the elastic rope can be clamped in the elastic rope fixing groove for positioning to prevent obstruction during use. The sliding block includes three sets of elastic ropes. When the outer end of one set of elastic ropes is engaged in the engaging groove, a first level of tensile force is formed. When the outer ends of two sets of elastic ropes are engaged in the engaging groove, a second level of tensile force is formed. When the outer ends of three sets of elastic ropes are engaged in the engaging groove, a third level of tensile force is formed.

[0038] The number of elastic cords in this application includes, but is not limited to, three; multiple elastic cords can be designed as needed.

[0039] The sliding base body has sliding edges 16 formed on both sides, and the sliding block has locking edges 17 formed on both sides. The locking edges are engaged with the sliding edges to limit the sliding movement of the sliding block relative to the sliding base body. A limiting stroke post 18 is formed at the bottom of the sliding block. In this embodiment, the limiting stroke post 18 is integrally formed on the inner end fixing block of the elastic rope. Correspondingly, a sliding groove 19 is provided on the sliding base body, and the limiting stroke post is placed in the sliding groove. To further limit the movement, the connecting component includes a bottom support base 20, on which a support rod 21 is detachably connected. The bottom support base includes a base body, which is recessed to form an interlocking groove 22. The front ends of both sliding bases have locking parts 23. During installation, the two sliding bases are arranged opposite each other and are engaged in the interlocking groove through the locking parts.

[0040] It also includes two tension bands, which are detachably connected to the seat body. The bottom end of the tension band forms a bottom locking ball 30. The seat body has a large hole 31, through which a small hole 32 is connected. When connected, the bottom locking ball moves through the large hole to the bottom end of the small hole, thus connecting the tension band to the seat body. When in use, the front locking part 23 of the sliding base covers the large hole to prevent the tension band from coming off when pulled. The top of the tension band forms a grip.

[0041] The base body has a support rod sleeve post 24, and the support rod is inserted into the support rod sleeve post. A trigger 25 is provided on a limit stroke post on one side, and the trigger is connected to a display screen 26 via a circuit board. This is prior art and will not be described in detail here.

[0042] When in use, the two sliding bases are connected to the connecting components to perform ski machine simulation movements, frog pose movements, and chest expansion support movements. When the two sliding bases are separated from the connecting components and arranged side by side, movements such as backward stretching, walking training, and plank support movements can be performed.

Claims

1. A ski simulator with adjustable speed settings, characterized in that: It includes two sliding bases and a connecting assembly, the two sliding bases being detachably connected to the connecting assembly; sliding blocks are slidably connected to the two sliding bases, and the sliding blocks slide back and forth along the sliding bases; it also includes an adjustable elastic connecting assembly, which connects the sliding blocks to the corresponding sliding bases.

2. The adjustable-gear ski simulator according to claim 1, characterized in that: The sliding base includes a sliding base body, and the adjustable elastic connection assembly includes a snap-fit ​​groove formed on the front end of the sliding base body, and also includes a plurality of elastic ropes. The inner ends of the plurality of elastic ropes are fixed to the sliding block, and the outer ends of the plurality of elastic ropes pass through the sliding block and snap into the snap-fit ​​groove.

3. The adjustable-gear skiing simulator according to claim 2, characterized in that: The bottom surface of the sliding block has a first concave groove corresponding to a plurality of elastic ropes, and also includes an inner end fixing block for the elastic ropes. The inner end fixing block for the elastic ropes has a second concave groove that corresponds one-to-one with the first concave groove. The first concave groove and the second concave groove are joined together to form a first receiving cavity for accommodating the elastic ropes. The inner end fixing block for the elastic ropes is fixed on the bottom surface of the sliding block. The inner end of the elastic rope is fixed in the first receiving cavity.

4. The adjustable-gear ski simulator according to claim 1, characterized in that: Both the inner and outer ends of the elastic rope are provided with beads, which are used to engage the inner and outer ends of the elastic rope into the first receiving cavity and the engaging groove, respectively.

5. The adjustable-gear ski simulator according to claim 1, characterized in that: A through hole is formed on the front end face of the sliding block. The through hole extends upward to form an elastic rope fixing groove. After the outer end of the elastic rope is disengaged from the locking groove, the elastic rope can be clamped in the elastic rope fixing groove for positioning to prevent obstruction during use.

6. The ski simulator with adjustable speed settings according to claim 2, characterized in that: It includes three sets of elastic ropes. When the outer end of one set of elastic ropes is engaged in the engagement groove, a first level of tensile force is formed; when the outer ends of two sets of elastic ropes are engaged in the engagement groove, a second level of tensile force is formed; and when the outer ends of three sets of elastic ropes are engaged in the engagement groove, a third level of tensile force is formed.

7. The adjustable-gear ski simulator according to claim 1, characterized in that: The two sides of the sliding base body have sliding edges, and the two sides of the sliding block have locking edges. The locking edges are engaged with the sliding edges to achieve the sliding limit of the sliding block relative to the sliding base body.

8. The adjustable-gear ski simulator according to claim 1, characterized in that: A limit stroke post is formed at the bottom of the sliding block, and correspondingly, a sliding groove is provided on the sliding seat body, with the limit stroke post placed in the sliding groove.

9. The adjustable-level ski simulator according to claim 1, characterized in that: The connecting assembly includes a bottom support base, on which a support rod is detachably connected. The bottom support base includes a base body, which is recessed to form an interlocking groove. Both sliding bases have snap-fit ​​parts at their front ends. During installation, the two sliding bases are positioned opposite each other and snap-fitted into the interlocking groove through the snap-fit ​​parts.

10. A ski simulator with adjustable speed settings according to claim 1, characterized in that: It also includes two tension bands, which are detachably connected to the seat body. The bottom end of the tension band forms a bottom locking ball. The seat body has a large hole, through which a small hole is connected. When connected, the bottom locking ball moves through the large hole to the bottom end of the small hole, thereby connecting the tension band to the seat body. The top of the tension band forms a handle.