A bow with replaceable handle

By designing a universal interface and a limiting guide structure with multiple mounting threaded holes on the bow, the push handle can be detached and securely connected, solving the problem of poor adaptability and single structure of existing bows, and improving the stability of archery and the user's choice of options.

CN224398466UActive Publication Date: 2026-06-23HUIZHOU YILONG SPORTING GOODS CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
HUIZHOU YILONG SPORTING GOODS CO LTD
Filing Date
2025-06-23
Publication Date
2026-06-23

AI Technical Summary

Technical Problem

The existing bow structure lacks modular design, resulting in poor compatibility between the push handle and the bow handle. This makes it unable to adapt to different users' body shapes, hand shapes, and usage habits, affecting archery accuracy and safety.

Method used

A bow with an interchangeable push handle structure was designed. It adopts a universal interface structure and multiple mounting threaded holes, combined with a limiting guide structure and an adjustable support mechanism, to achieve interchangeable installation and stable connection of various push handles.

Benefits of technology

It improves the adaptability and modularity of bows, meets the personalized needs of different users, enhances the stability and comfort of archery, reduces the cost of use, and expands the product's scalability.

✦ Generated by Eureka AI based on patent content.

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Abstract

The application relates to the field of archery equipment, in particular to a bow with replaceable push handle structure. The bow comprises a bow handle main body and a push handle mounting position arranged at the middle part of the bow handle main body. The push handle mounting position is jointly defined by a vertically arranged mounting base surface and a limiting guide structure arranged at the upper end of the base surface to form a recessed mounting space, and the push handle mounting position is used for detachably mounting different types of push handles. The bow has a universal interface structure to realize the interchangeable mounting of various push handles, so as to improve the practicability and flexibility of the bow in the aspects of adaptability, modularity and user personalized adjustment.
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Description

Technical Field

[0001] This application relates to the field of archery equipment, and in particular to a bow with an interchangeable push handle. Background Technology

[0002] Currently, bow products on the market are relatively mature in structural design, especially in the connection between the bow handle and the push handle, which generally adopt an integrated or fixed structure. Whether it is the original factory configuration or a push handle assembly modified by the user through third-party channels, the main purpose is to improve the user's comfort, stability, and accuracy during archery, in order to adapt to the shooting needs in different usage scenarios. Existing designs are mostly developed based on a certain fixed hand shape, user posture, or specific user parameters, and their optimization focuses mainly on materials, structural strength, and ergonomic matching, forming a complete set of fixed configuration solutions.

[0003] However, existing technologies generally suffer from limitations in structure and adaptability. Currently, almost all bow handle products on the market can only be used with a single type of pusher; that is, one bow handle can only be fitted with one specific type of pusher. This "one-size-fits-all" design ignores the wide range of differences among archers in terms of body type, gender, age, hand shape, and grip habits. In actual use, fixed pushers often fail to perfectly match the individual conditions of all users, potentially leading to discomfort, insufficient control, or unstable force application, thus affecting the accuracy and safety of archery. Even some pusher components customized by third parties are mostly localized adjustments to the original structure, still failing to solve the problem of compatibility and universality between the pusher and the bow handle at the system level.

[0004] The root cause of these problems lies in the lack of modular and interchangeable design concepts in existing bow handle structures. As a key contact component between the archer and the bow, the shape, angle, and size of the push handle directly impact the archery experience. However, once a traditional bow handle structure is finalized, its interface, installation method, and structural compatibility are fixed, making it difficult to adapt to different push handle requirements through simple replacement or adjustment. This closed structure means that if users want to try other types of push handles, they often need to replace the entire bow handle system, increasing usage costs and limiting product expandability and user choice. Utility Model Content

[0005] The purpose of this application is to overcome at least one deficiency of the prior art and provide a bow with a replaceable push handle structure. The bow has a universal interface structure to enable interchangeable installation of various push handles, aiming to improve the practicality and flexibility of the bow in terms of adaptability, modularity and user-personalized adjustment.

[0006] To achieve the above objectives, this application discloses a bow with a replaceable push handle. The bow includes a bow handle body and a push handle mounting position disposed in the middle of the bow handle body. The push handle mounting position is defined by a vertically arranged mounting base and a limiting guide structure located at the upper end of the base, forming a recessed mounting space. The push handle mounting position is used to detachably mount different types of push handles. The push handle is inserted horizontally into the mounting position from the rear side of the bow handle body and positioned and constrained vertically by the limiting guide structure, thereby ensuring the accuracy of the push handle insertion posture and the stability of the structural installation.

[0007] To ensure a reliable connection between the push handle and the mounting position and to accommodate various push handles, the mounting base surface is provided with multiple threaded holes spaced apart along the height direction. These holes are used to select the appropriate position for screw connection based on the structural parameters of different push handles. After the push handle is inserted, it forms a fixed connection with the mounting base surface through at least one mounting screw, thereby constraining the push handle in the vertical direction and achieving a stable fit between it and the handle body.

[0008] Furthermore, to enhance the support effect of the push handle in the insertion depth direction, at least one push handle positioning threaded hole is provided on the rear side wall of the bow handle body, and a push handle positioning screw is screwed into the threaded hole. This push handle positioning screw is axially adjustable and forms a supporting contact with the rear end face of the push handle, constituting an adjustable-length support structure. By adjusting the extension length of the push handle positioning screw, the differences in insertion depth between different push handle models can be compensated, achieving structural pre-tightening and stable support, avoiding loosening or displacement caused by tolerances, and improving overall stability and shooting feel.

[0009] In summary, this application achieves compatible installation and stable connection of various push handle components by setting a push handle mounting position with a rear insertion path, a vertical limiting and guiding structure, multiple sets of mounting threaded holes arranged on the mounting base, and an adjustable support mechanism. Compared with existing technologies, this structural design not only meets the personalized needs of different users in terms of body shape, hand shape, and usage habits, but also has good modular expansion capabilities and practical promotion value, and is suitable for structural optimization of various types of archery equipment.

[0010] The beneficial effects listed above are not exhaustive of all advantages. Other potential beneficial effects and detailed technical implementation methods will be further disclosed in the embodiments or other descriptive sections of this application. Attached Figure Description

[0011] A better understanding of various aspects of this disclosure will be achieved by reading the following detailed description in conjunction with the accompanying drawings. The positions, dimensions, and extents of the structures shown in the drawings, etc., do not always represent actual positions, dimensions, and extents. In the drawings:

[0012] Figure 1 The overall structure of the bow handle pusher mounting system in one embodiment is shown, clearly illustrating the main structural components and their relative arrangement.

[0013] Figure 2 An embodiment is shown with the push handle positioning screw in a fully tightened state, in which the end of the screw is flush with the rear side of the handle, for a push handle configuration that does not require rear end support.

[0014] Figure 3 The diagram illustrates a structure in which the push handle positioning screw is in an adjustable state. The screw can be axially adjusted according to different push handle insertion depths to achieve a support fit.

[0015] Figure 4 A schematic diagram of the exploded structure in one embodiment is shown;

[0016] Figure 5 The image shows an assembly state after the first type of push handle is installed in one embodiment, illustrating the adaptability of this bow to this type of push handle.

[0017] Figure 6 The image shows the assembly state after installing the second type of push handle in one embodiment, further illustrating the compatibility and versatility of the bow when facing different push handles. Detailed Implementation

[0018] The present disclosure will now be described with reference to the accompanying drawings, which illustrate several embodiments of the present disclosure. However, it should be understood that the present disclosure can be presented in many different ways and is not limited to the embodiments described below; in fact, the embodiments described below are intended to make the disclosure more complete and to fully illustrate the scope of protection of the present disclosure to those skilled in the art. It should also be understood that the embodiments disclosed herein can be combined in various ways to provide further additional embodiments.

[0019] It should be understood that the same reference numerals denote the same elements in all the accompanying drawings. For clarity, the dimensions of certain features may be modified in the drawings.

[0020] It should be understood that the terminology used in this specification is for describing specific embodiments only and is not intended to limit this disclosure. All terms used in this specification (including technical and scientific terms) have the meanings commonly understood by those skilled in the art, unless otherwise defined. For the sake of brevity and / or clarity, techniques, methods, and apparatus known to those skilled in the art may not be discussed in detail; however, where appropriate, such techniques, methods, and apparatus should be considered part of this specification.

[0021] Unless otherwise specified, the singular forms “a,” “the,” and “the” used in this specification include the plural forms. The terms “comprising,” “including,” and “containing” used in this specification indicate the presence of the claimed feature but do not exclude the presence of one or more other features. The term “and / or” used in this specification includes any and all combinations of one or more of the relevant listed items.

[0022] To more clearly illustrate the technical structure and application of this application, combined with Figures 1 to 6 The preferred embodiments of the present invention are described in detail to enable those skilled in the art to realize the structural features and technical effects of the present invention. Structural details or general design schemes not described in detail herein are well-known and can be achieved by those skilled in the art through existing knowledge and conventional means, and therefore will not be elaborated upon here.

[0023] like Figure 1 As shown, this embodiment provides a bow structure with a replaceable push handle, including a bow handle body 1 and a push handle mounting position located in the middle of the bow handle body for mounting a push handle 2. The push handle mounting position is a recessed structure, formed by a vertically arranged mounting base 3 and a limiting guide structure 4 located at its upper end, creating a mounting space defined on two sides and open at the front and rear. The push handle 2 is inserted horizontally into the mounting position from the rear of the bow handle body 1, and is precisely guided and positioned vertically by the limiting guide structure 4, ensuring accurate installation and a smooth process.

[0024] More specifically, the bow handle body 1 is preferably made of aluminum alloy or carbon fiber composite material and is integrally formed by CNC machining or high pressure molding process to ensure the overall structural rigidity and lightweight control.

[0025] The push handle 2 can be made of different materials according to user needs, such as glass fiber reinforced plastic, TPR rubber coating or anodized metal, to adapt to differences in hand shape, force application and shooting preferences.

[0026] More specifically, the mounting base 3 in the push handle mounting position is preferably planar, providing a stable bearing surface for the back of the push handle 2. In actual operation, the surface of the mounting base 3 can be anodized or frosted to enhance the coefficient of friction and prevent micro-movements in the push handle 2 during use. As a component of the overall frame of the bow handle body 1, the mounting base 3 ensures a continuous and stable force transmission path.

[0027] See attached document Figures 1 to 4 Multiple mounting threaded holes 5 are arranged vertically on the mounting base 3. Each hole is precision tapped and the standard spacing between the holes is preset so that push handles 2 with different structural sizes or screw hole positions can be mechanically connected and fixed through one or more threaded holes.

[0028] The push handle 2 is provided with a corresponding mounting through hole. During installation, it is horizontally inserted into the push handle mounting position from the rear side of the bow handle body 1. During the insertion process, the upper edge of the push handle forms a sliding guide engagement with the limiting guide structure 4, and finally fits against the mounting base surface 3. Then, the mounting screw 6 is passed through the through hole of the push handle 2 and screwed into the mounting threaded hole 5 to achieve a fixed connection in the front and rear directions, and to form an effective constraint in the vertical direction (the direction of force on the push handle when shooting arrows).

[0029] To further improve structural stability and installation flexibility, at least one push handle positioning threaded hole 7 is provided on the rear side of the bow handle body 1, and a push handle positioning screw 8 is screwed in. This screw is preferably made of stainless steel, titanium alloy, or surface-hardened steel, and can be of common structural types such as hexagonal head or Torx head. During installation, the user can adjust the length of the screw 8 by rotating it so that its end abuts against the positioning surface of the push handle 2, achieving fine-tuning control of the insertion depth. This compensates for depth differences caused by manufacturing tolerances and also creates structural pre-tightening, preventing structural loosening or dynamic resonance caused by gaps, significantly improving overall firing stability.

[0030] like Figure 2 As shown, in a configuration without rear-end positioning support, the push handle positioning screw 8 can be tightened to the bottom, making its end flush with the rear surface of the handle body 1. At this time, the push handle 2 is stably fixed through its contact engagement with the mounting base 3 and the mechanical connection between the mounting screw 6 and the mounting threaded hole 5.

[0031] like Figure 3 As shown, for the push handle 2 that requires rear-end support, the axial position of the positioning screw 8 can be adjusted by rotating it so that its end can form an adjustable support contact with the rear end face of the push handle 2, effectively compensating for assembly gaps and enhancing installation stability.

[0032] like Figure 4 As shown, the composition and specific structure of the bow can be clearly displayed through the exploded diagram.

[0033] In typical use, users can choose different specifications and materials for the push handle 2 based on hand shape, force application method, or competition requirements, such as a low-angle beveled grip, a textured non-slip grip, or a soft memory material grip. The push handle 2 can be injection molded from ABS engineering plastic, PA66+GF glass fiber reinforced material, rubber-coated composite materials, etc. The replacement process requires no professional tools; a general-purpose Allen wrench is sufficient for disassembly and assembly. Ordinary users can complete the operation in minutes, greatly improving ease of use and adaptability to various scenarios. For example, athletes can quickly switch to an insulated grip during winter training; in professional competitions, they can quickly switch to a high-hardness beveled grip to enhance consistency.

[0034] Figure 5 and Figure 6 This demonstrates the assembly effect of the installation system when adapted to different types of push handles. Figure 5The first type of push handle is shown in its installed state. It has a relatively rounded front grip surface, which is suitable for users with smaller hands or those who prefer to exert force horizontally. Figure 6 This demonstrates another push handle installation configuration, featuring a tilted grip design suitable for users who grip vertically or concentrate their power in the wrist area.

[0035] This embodiment boasts significant technical advantages such as strong versatility, high modularity, and convenient maintenance. It is suitable for professional competitions, daily training, and personalized customization, effectively reducing equipment costs and improving the bow's ergonomics. For teenagers, women, or those with special needs, the bow can be customized to suit hand size, grip angle, or force direction by replacing the push handle, significantly improving comfort and accuracy in archery.

[0036] In summary, this embodiment has a reasonable structural design, strong process feasibility, and good prospects for widespread application. Any improvements or equivalent substitutions made by those skilled in the art to the limiting structure, connection method, material selection, etc., without departing from the essence of this invention, should fall within the protection scope of this application.

Claims

1. A bow with a replaceable push handle structure, characterized in that, The bow handle includes a main body and a push handle mounting position disposed in the middle of the main body. The push handle mounting position is defined by a vertically arranged mounting base and a limiting guide structure located at the upper end of the base to form a recessed mounting space. The push handle mounting position is used to detachably install different types of push handles. The mounting base surface is provided with multiple mounting threaded holes. After the push handle is inserted, it is fixedly connected to the mounting base surface by at least one mounting screw.

2. The bow with a replaceable push handle structure as described in claim 1, characterized in that, Multiple mounting threaded holes are spaced apart along the height direction to allow for screw connection at the appropriate positions based on the structural parameters of different push handles.

3. The bow with a replaceable push handle structure as described in claim 1, characterized in that, At least one push handle positioning threaded hole is provided on the rear side wall of the bow handle body. A push handle positioning screw is screwed into the push handle positioning threaded hole. The push handle positioning screw is axially adjustable and is used to form a support contact with the rear end face of the push handle, thus forming a support structure with adjustable length.