A new damping training device
By designing the force application part, transmission part, and damping adjustment rod of the damping training device, the problems of bulkiness and non-adjustable resistance in existing strength training devices are solved, achieving the effect of being lightweight, easy to maintain, and adaptable to the fitness needs of different groups of people.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Applications(China)
- Current Assignee / Owner
- 永康市洲玛工贸有限公司
- Filing Date
- 2026-04-15
- Publication Date
- 2026-06-09
AI Technical Summary
Existing strength training devices have bulky, cumbersome, and expensive weight systems that cannot adjust the resistance coefficient, making them unsuitable for the fitness needs of different groups of people.
Design a damping training device including a force application part, a transmission part, and a damping adjustment rod. The force applied by the user is transmitted to the damping adjustment rod through the transmission part, and displacement resistance is applied to the transmission part through the damping adjustment rod. The deformation damping of the damping adjustment rod can be adjusted to adapt to the fitness needs of different groups of people.
The damping training device features a simple structure, low cost, and easy maintenance. It can adjust the training difficulty according to actual needs and adapt to the fitness needs of different groups of people.
Smart Images

Figure CN122164049A_ABST
Abstract
Description
Technical Field
[0001] This application relates to the field of fitness equipment technology, specifically to a novel damping training device. Background Technology
[0002] Traditional strength training equipment mainly includes two categories: free weights and fixed machines. Free weights, such as barbells and dumbbells, utilize a combination of weight plates and a barbell bar, allowing the user to work against gravity. Fixed machines typically use weight blocks as the resistance source, transmitting force through a cable and pulley system, and are equipped with adjustable components to accommodate different trainees. Both are basic and effective fitness tools, providing users with a variety of strength training methods.
[0003] Among the many shortcomings of the resistance adjustment methods in commercially available strength training devices, there are several issues. For example, the weight systems of these devices are bulky, cumbersome to assemble, and expensive, and the resistance coefficient cannot be adjusted, making them unsuitable for the fitness needs of different groups of people. Summary of the Invention
[0004] To address the aforementioned technical problems, this invention discloses a novel damping training device that improves upon the existing surface strength training devices, which suffer from bulky weight systems, cumbersome assembly, and high costs, as well as the inability to adjust the resistance coefficient, thus failing to meet the fitness needs of different groups.
[0005] To achieve the above objectives, this application provides a novel damping training device, which includes a force application part, a transmission part, and a damping adjustment rod;
[0006] The damping adjustment rod and the transmission part are mounted on the body of the damping training device;
[0007] The first end of the transmission part is connected to the force-applying part; the second end of the transmission part can be connected to the damping adjustment rod; the deformation damping of the damping adjustment rod is adjustable.
[0008] During the use of the damping training device, the force-applying part is used to drive the transmission part to displacement, and the damping adjustment rod is used to apply displacement resistance to the transmission part.
[0009] In one possible embodiment, the force-applying part includes a force-applying element;
[0010] The force-applying component is connected to the first end of the transmission unit.
[0011] In one possible embodiment, the force-applying member is provided with a gripping surface.
[0012] In one possible embodiment, the transmission part includes a transmission rope;
[0013] The first end of the transmission rope is connected to the force-applying part; the force-applying part is used to drive the transmission rope to move.
[0014] The damping training device has at least one pulley structure on its body; the middle section of the transmission rope is wound around the at least one pulley structure.
[0015] In one possible embodiment, the transmission unit includes a transmission table;
[0016] The transmission platform can be connected to the damping adjustment rod; the damping adjustment rod is used to apply displacement resistance to the transmission platform.
[0017] In one possible embodiment, the transmission table includes a transmission state and a disengagement state;
[0018] When the transmission platform is in contact with the damping adjustment rod, the transmission platform is in the transmission state; when the transmission platform is separated from the damping adjustment rod, the transmission platform is in the separation state.
[0019] During the displacement process of the transmission table in the transmission state, the damping adjustment rod can be stretched or contracted; the displacement direction of the transmission table is consistent with the extension and contraction direction of the damping adjustment rod.
[0020] In one possible embodiment, the damping adjustment rod is located above or below the transmission platform.
[0021] In one possible embodiment, the force-applying part is located on the bottom side of the damping training device;
[0022] The transmission unit includes a transmission rope; a first end of the transmission rope is connected to the force-applying part; and a second end of the transmission rope is connected to the transmission table.
[0023] The damping adjustment rod is located above the transmission platform; the upper surface of the transmission platform can abut against the damping adjustment rod.
[0024] The damping adjustment rod includes a gear switching component for switching the damping adjustment gears of the damping adjustment rod; the gear switching component is spaced at a preset distance from the lower side of the damping training device.
[0025] In one possible embodiment, the damping adjustment rod includes a first rod segment and a second rod segment;
[0026] The first rod segment is mounted on the body of the damping training device; the second rod segment is coaxially mounted with the first rod segment; the second rod segment can be displaced relative to the first rod segment under the action of an external force, and reset relative to the first rod segment when the external force is removed;
[0027] The second rod segment can contact and drive the transmission part; the second rod segment is used to apply displacement resistance to the transmission part.
[0028] In one possible embodiment, the damping adjustment rod includes at least two damping adjustment positions; the at least two damping adjustment positions correspond to at least two types of deformation damping of the damping adjustment rod;
[0029] The damping adjustment rod includes a gear shifting component; the gear shifting component is used to switch the damping adjustment gear of the damping adjustment rod.
[0030] The gear shifting component is exposed outside the damping training device, or the gear shifting component is configured to be externally operable.
[0031] The technical solution provided in this application has the following technical effects:
[0032] In the embodiments of this application, the force applied by the user to the force-applying part can be transmitted to the damping adjustment rod through the transmission part, and the damping adjustment rod applies displacement resistance to the transmission part to resist the force applied by the user to the force-applying part, thereby realizing the user's exercise needs. The deformation damping of the damping adjustment rod in this application is adjustable, so that the user can adjust the damping adjustment rod according to actual needs to adjust the training difficulty, so that the same damping training device can adapt to the fitness needs of different groups of people. At the same time, the damping training device in this application has a simple structure, low cost, and advantages such as easy maintenance and portability. Attached Figure Description
[0033] To more clearly illustrate the technical solutions and advantages in the embodiments of this application or the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this application. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.
[0034] Figure 1 This is a schematic diagram of the structure of a damping training device provided in an embodiment of this application. Figure 1 ;
[0035] Figure 2 This is a schematic diagram of the structure behind the hidden outer body of a damping training device provided in an embodiment of this application. Figure 1 ;
[0036] Figure 3 This is a schematic diagram of the structure behind the hidden outer body of a damping training device provided in an embodiment of this application. Figure 2 ;
[0037] Figure 4 This application provides a damping training device in an embodiment of the present application. Figure 3 A magnified view of a portion of surface A in the middle;
[0038] The labels in the diagram are explained as follows:
[0039] 1-Force application part; 2-Transmission part; 21-Transmission rope; 22-Transmission table; 221-Abutment hole; 3-Damping adjustment rod; 31-First rod section; 32-Second rod section; 33-Gear switching component; 4-Main body; 41-Pulley structure. Detailed Implementation
[0040] The technical solutions of the embodiments of this application will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of this application, and not all embodiments. Based on the embodiments of this application, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the scope of protection of this application.
[0041] It should be noted that the term "an embodiment" or "embodiment" in the specification of the embodiments of this application refers to a specific feature, structure, or characteristic that can be included in at least one implementation of this application. It should be understood that in the specification, claims, and accompanying drawings of the embodiments of this application, the terms "upper," "lower," "top," "bottom," etc., indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, and are only for the convenience of describing this application and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation, and therefore should not be construed as a limitation of this application. The terms "first" and "second" are used for descriptive purposes only and should not be construed as indicating or implying relative importance or implicitly specifying the number of indicated technical features. Thus, a feature defined with "first" and "second" may explicitly or implicitly include one or more of that feature. Moreover, the terms "first," "second," etc., are used to distinguish similar objects and are not necessarily used to describe a specific order or sequence.
[0042] Please see Figures 1 to 4 This application provides a novel damping training device, which includes a force-applying part 1, a transmission part 2, and a damping adjustment rod 3. The user can exercise by applying external force to the force-applying part 1. The transmission part 2 can be used to realize the transmission between the force-applying part 1 and the damping adjustment rod 3, so that the damping adjustment rod 3 can apply motion resistance to the transmission part 2.
[0043] In one possible embodiment, the damping adjustment rod 3 and the transmission part 2 are disposed on the body 4 of the damping training device. One end of the damping adjustment rod 3 can be fixedly disposed on the body 4 of the damping training device, and the transmission part 2 can be movably disposed on the body 4 of the damping training device.
[0044] Optionally, the first end of the transmission part 2 is connected to the force-applying part 1, and the second end of the transmission part 2 is connected to the damping adjustment rod 3. The transmission part 2 can be located between the force-applying part 1 and the transmission part 2 to play a transmission role. The deformation damping of the damping adjustment rod 3 is adjustable. The deformation damping of the damping adjustment rod 3 is the counter-damping required whenever the damping adjustment rod 3 undergoes a quantitative deformation. The directional deformation of the damping adjustment rod 3 can refer to the elongation deformation and contraction deformation of the damping adjustment rod 3.
[0045] Among them, when the damping adjustment rod 3 is a telescopic damping rod (that is, when the damping adjustment rod 3 is subjected to force, one of the branches of the damping adjustment rod 3 will telescopic along the other branches to provide deformation resistance), the deformation damping of the damping adjustment rod 3 is the counter-damping required whenever the damping adjustment rod 3 undergoes a quantitative deformation.
[0046] In the use of the damping training device, the force-applying part 1 is used to drive the transmission part 2 to displacement, and the damping adjustment rod 3 is used to apply displacement resistance to the transmission part 2, thereby applying transmission resistance to the action of the force-applying part 1 driving the transmission part 2 to displacement. Optionally, Figures 1 to 4 The location of the force-applying part 1 is marked in the diagram. The specific structure of the force-applying part 1 can be adjusted according to actual needs to include structural components such as grips and handles.
[0047] In the embodiments of this application, the force applied by the user to the force-applying part 1 can be transmitted to the damping adjustment rod 3 through the transmission part 2. The damping adjustment rod 3 then applies displacement resistance to the transmission part 2 to resist the force applied by the user to the force-applying part 1, thus fulfilling the user's exercise needs. The deformation damping of the damping adjustment rod 3 in this application is adjustable, allowing the user to adjust the damping adjustment rod 3 according to actual needs to adjust the training difficulty. This makes the same damping training device suitable for the fitness needs of different groups of people. Furthermore, the damping training device in this application has a simple structure, low cost, and advantages such as ease of maintenance and portability.
[0048] In one possible embodiment, the force-applying part 1 includes a force-applying component, which the user can use to apply force by holding the force-applying component. The force-applying component can be a force-applying handle or the like.
[0049] Optionally, the force-applying component is connected to the first end of the transmission part 2, and the force-applying component is used to drive the transmission part 2 to move.
[0050] In one possible embodiment, the force-applying component is provided with a gripping surface, which can be a cylindrical surface on the force-applying handle. Optionally, the user can hold the gripping surface to perform the force-applying action, and the gripping surface can be provided with anti-slip textures or other structures.
[0051] In one possible embodiment, the transmission part 2 includes a transmission rope 21, which can be a rigid rope or a flexible rope depending on the actual design requirements.
[0052] Optionally, the first end of the transmission rope 21 is connected to the force-applying part 1. The force-applying part 1 is used to drive the transmission rope 21 to move, and can drive the damping adjustment rod 3 to move or deform through the transmission rope 21, thereby causing the damping adjustment rod 3 to generate displacement resistance that hinders the displacement or deformation of the damping adjustment rod 3.
[0053] Optionally, the damping training device body 4 is provided with at least one pulley structure 41, and the middle section of the transmission rope 21 is wound around the at least one pulley structure 41. The transmission rope 21 can be slidably mounted on the damping training device body 4 through at least one pulley structure 41. The number of pulley structures 41 can be one or more.
[0054] In one possible embodiment, the transmission unit 2 includes a transmission table 22.
[0055] Optionally, the transmission table 22 can be located at the second end of the transmission part 2, and the transmission table 22 can be connected to the second end of the transmission rope 21, so that the transmission rope 21 can drive the transmission table 22 to move.
[0056] Optionally, the transmission platform 22 can be connected to the damping adjustment rod 3, and the transmission platform 22 can move toward or away from the damping adjustment rod 3.
[0057] Optionally, when the transmission platform 22 contacts the damping adjustment rod 3, the transmission platform 22 and the damping adjustment rod 3 are in a transmission connection state. The damping adjustment rod 3 is used to apply displacement resistance to the transmission platform 22, thereby resisting the force applied by the user to the force application part 1 to realize the user's exercise needs.
[0058] In one possible embodiment, the transmission table 22 includes a transmission state and a separation state. During the process of the force-applying part 1 driving the transmission table 22 to move, the transmission table 22 can switch between the transmission state and the separation state.
[0059] Optionally, when the transmission platform 22 is in contact with the damping adjustment rod 3, the transmission platform 22 is in the transmission state, and at this time the damping adjustment rod 3 can apply displacement resistance to the transmission platform 22. When the transmission platform 22 is separated from the damping adjustment rod 3, the transmission platform 22 is in the separation state.
[0060] During the displacement process of the transmission platform 22 in the transmission state, the damping adjustment rod 3 can be stretched or contracted. The displacement direction of the transmission platform 22 is consistent with the extension and contraction direction of the damping adjustment rod 3. During the extension and contraction of the damping adjustment rod 3, the damping adjustment rod 3 is always in contact with the damping adjustment rod 3.
[0061] In one possible embodiment, the damping adjustment rod 3 is located above or below the transmission platform 22. Specifically, the upper surface of the transmission platform 22 can be used to abut against the lower end of the damping adjustment rod 3.
[0062] Optionally, an abutment hole 221 may be provided on the upper surface of the transmission table 22. The upper surface of the transmission table 22 can abut against the transmission table 22 through the abutment hole 221. The position and shape of the abutment hole 221 correspond to the position and shape of the lower end of the damping adjustment rod 3.
[0063] In one possible embodiment, the force-applying part 1 is located on the bottom side of the damping training device.
[0064] Optionally, the transmission unit 2 includes a transmission rope 21, with a first end connected to the force-applying unit 1 and a second end connected to the transmission table 22. The transmission rope 21 can be mounted on the machine body 4 via a three-pulley structure.
[0065] Optionally, the damping adjustment rod 3 is located above the transmission platform 22, and the upper surface of the transmission platform 22 can abut against the damping adjustment rod 3.
[0066] Optionally, the damping adjustment rod 3 includes a gear switching component 33 for switching the damping adjustment gear of the damping adjustment rod 3, and the gear switching component 33 is spaced at a preset distance from the lower side of the damping training device.
[0067] In one possible embodiment, the damping adjustment rod 3 includes a first rod segment 31 and a second rod segment 32, which can form a telescopic rod structure.
[0068] Optionally, the first rod segment 31 is disposed on the body 4 of the damping training device, and the second rod segment 32 is coaxially disposed with the first rod segment 31. The second rod segment 32 can be displaced relative to the first rod segment 31 under the action of external force, and reset relative to the first rod segment 31 when the external force is removed. When the second rod segment 32 is displaced relative to the first rod segment 31, the second rod segment 32 applies displacement resistance to the transmission part 2.
[0069] Optionally, the second rod segment 32 can contact and drive the transmission part 2, and the second rod segment 32 is used to apply displacement resistance to the transmission part 2.
[0070] In one possible embodiment, the damping adjustment rod 3 includes at least two damping adjustment positions, which correspond to at least two types of deformation damping of the damping adjustment rod 3, and the damping adjustment rod 3 can switch between the at least two damping adjustment positions.
[0071] Optionally, the damping adjustment lever 3 includes a gear shifter 33, which is used to switch the damping adjustment gear of the damping adjustment lever 3 so that the damping training device can adapt to the exercise needs of different people. The gear shifter 33 can be a gear shift knob, which can be exposed outside the body 4 of the damping training device, and the user can directly rotate the gear shift knob to switch the exercise gear.
[0072] Optionally, the gear shifter 33 may be exposed outside the body 4 of the damping training device, or the gear shifter 33 may be configured to be externally operable. External operability of the gear shifter 33 can mean that the user can externally or remotely control the damping training device via devices including mobile phones, controllers, and remote controls.
[0073] It should be noted that the order of the embodiments described above is merely for descriptive purposes and does not represent the superiority or inferiority of the embodiments. Furthermore, specific embodiments have been described above. Other embodiments are within the scope of the appended claims. In some cases, the actions or steps described in the claims can be performed in a different order than that shown in the embodiments and still achieve the desired result. Additionally, the processes depicted in the drawings do not necessarily require a specific or sequential order to achieve the desired result. In some embodiments, multitasking and parallel processing are also possible or may be advantageous.
[0074] The various embodiments in this specification are described in a progressive manner. Similar or identical parts between embodiments can be referred to mutually. Each embodiment focuses on describing the differences from other embodiments. In particular, the device embodiments are basically similar to the method embodiments, so the description is relatively simple; relevant parts can be referred to the descriptions of the method embodiments.
Claims
1. A novel damping training device, characterized in that, Includes the force application section, transmission section, and damping adjustment rod; The damping adjustment rod and the transmission part are mounted on the body of the damping training device; The first end of the transmission part is connected to the force-applying part; the second end of the transmission part can be connected to the damping adjustment rod; the deformation damping of the damping adjustment rod is adjustable. During the use of the damping training device, the force-applying part is used to drive the transmission part to displacement, and the damping adjustment rod is used to apply displacement resistance to the transmission part.
2. The damping training device according to claim 1, characterized in that, The force-applying part includes a force-applying component; The force-applying component is connected to the first end of the transmission unit.
3. The damping training device according to claim 2, characterized in that, The force-applying component is provided with a gripping surface.
4. The damping training device according to claim 1, characterized in that, The transmission unit includes a transmission rope; The first end of the transmission rope is connected to the force-applying part; the force-applying part is used to drive the transmission rope to move. The damping training device has at least one pulley structure on its body; the middle section of the transmission rope is wound around the at least one pulley structure.
5. The damping training device according to claim 1 or 4, characterized in that, The transmission unit includes a transmission table; The transmission platform can be connected to the damping adjustment rod; the damping adjustment rod is used to apply displacement resistance to the transmission platform.
6. The damping training device according to claim 5, characterized in that, The transmission table includes a transmission state and a disengagement state; When the transmission platform is in contact with the damping adjustment rod, the transmission platform is in the transmission state; when the transmission platform is separated from the damping adjustment rod, the transmission platform is in the separation state. During the displacement process of the transmission table in the transmission state, the damping adjustment rod can be stretched or contracted; the displacement direction of the transmission table is consistent with the extension and contraction direction of the damping adjustment rod.
7. The damping training device according to claim 5, characterized in that, The damping adjustment rod is located above or below the transmission platform.
8. The damping training device according to claim 5, characterized in that, The force-applying part is located on the bottom side of the damping training device; The transmission unit includes a transmission rope; a first end of the transmission rope is connected to the force-applying part; and a second end of the transmission rope is connected to the transmission table. The damping adjustment rod is located above the transmission platform; the upper surface of the transmission platform can abut against the damping adjustment rod. The damping adjustment rod includes a gear switching component for switching the damping adjustment gears of the damping adjustment rod; the gear switching component is spaced at a preset distance from the lower side of the damping training device.
9. The damping training device according to claim 1, characterized in that, The damping adjustment rod includes a first rod segment and a second rod segment; The first rod segment is mounted on the body of the damping training device; the second rod segment is coaxially mounted with the first rod segment; the second rod segment can be displaced relative to the first rod segment under the action of an external force, and reset relative to the first rod segment when the external force is removed; The second rod segment can contact and drive the transmission part; the second rod segment is used to apply displacement resistance to the transmission part.
10. The damping training device according to claim 1, characterized in that, The damping adjustment rod includes at least two damping adjustment positions; the at least two damping adjustment positions correspond to at least two types of deformation damping of the damping adjustment rod; The damping adjustment rod includes a gear shifting component; the gear shifting component is used to switch the damping adjustment gear of the damping adjustment rod. The gear shifting component is exposed outside the damping training device, or the gear shifting component is configured to be externally operable.