Comprehensive control ball type palla

By setting separation openings on the honeycomb core material of Peak rackets and filling them with high-temperature resistant foam strips, combined with carbon fiber wrapping strips, the problems of excessive elasticity affecting ball control and easy damage to the honeycomb core material in existing technologies have been solved, resulting in better ball control and durability.

CN224462207UActive Publication Date: 2026-07-07GUANGDONG JUNCHI SPORTS GOODS CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
GUANGDONG JUNCHI SPORTS GOODS CO LTD
Filing Date
2025-07-19
Publication Date
2026-07-07

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Abstract

The utility model relates to the comprehensive ball control type pick racket in the field of pick racket, including honeycomb core material, carbon fiber panel and carbon fiber bottom plate, the rim of racket face department of honeycomb core material has first separate opening, second separate opening and third separate opening, and is filled with first high temperature resistant foamed adhesive tape, second high temperature resistant foamed adhesive tape and third high temperature resistant foamed adhesive tape respectively in first separate opening, second separate opening and third separate opening and with the shape size of being matched with it, because setting first separate opening, second separate opening and third separate opening total three separate openings, reduce the area of the connection of the connecting portion, thereby can weaken the resilience of racket face department automatic reset, improve the ball control feeling, on one hand can avoid the influence ball control feeling because of the excessive elasticity, on the other hand can avoid the damage of the racket face department of honeycomb core material by the impact of excessive elasticity, and the setting carbon fiber wrapping strip can increase the lateral support, is not easy to damage when using, more durable.
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Description

Technical Field

[0001] This utility model relates to the field of Peak rackets, specifically to a Peak racket with comprehensive ball control. Background Technology

[0002] Pickleball is a racket sport that combines features of badminton, tennis, and table tennis. The picket racket is a key tool in pickleball; its material, weight, and grip all affect a player's performance. Choosing the right picket racket is crucial for improving shot effectiveness and enjoying the sport.

[0003] On October 31, 2024, the applicant filed a utility model patent application entitled "Peak racket with improved elasticity", application number 2024226626078. The Peak racket with improved elasticity uses honeycomb core material. The advantages of honeycomb core material are light weight, high bending strength, and the hexagonal structure of the honeycomb effectively disperses impact force.

[0004] However, in actual use, the following defects were found in this Peak racket: 1) Separation cavities are formed along the edge of the honeycomb core material's racket face. These cavities extend from one edge to the other, dividing the racket face into an elastic surface area and a reinforced edge area. The reinforced edge area is located outside the elastic surface area, creating a suspended state where the elastic surface area is separated from the reinforced edge area. The connection area between the elastic surface area and the handle is relatively large, and the handle has a significant auxiliary rebound effect. Under the connection of the handle, a large elastic force can be generated, allowing the Peak ball to be hit faster and farther. However, excessive elastic force will significantly affect the feel of ball control, thus failing to achieve the desired ball control. At the same time, due to the inherent structural defects of the honeycomb core material, excessive elastic force can cause delamination or cracking of the honeycomb core material, resulting in dents in the racket face and rendering the entire racket unusable. 2) The reinforced edge protection extends to the edge of the racket body. The reinforced edge protection is part of the honeycomb core material. The honeycomb core material does not have good support and is prone to structural damage when subjected to accidental impact (such as the racket hitting the ground), which affects the service life of Peak rackets. Utility Model Content

[0005] The purpose of this invention is to solve the above-mentioned defects and provide a comprehensive control type Peak racket with less elasticity, better ball control, and greater durability. It solves the problems in the prior art where the large connection area between the racket face and the handle leads to excessive elasticity and the honeycomb core material is easily damaged at the edges, resulting in poor durability.

[0006] The objective of this utility model is achieved through the following means:

[0007] A comprehensive control-oriented Peak racket includes a honeycomb core, a carbon fiber faceplate, and a carbon fiber base plate. The carbon fiber faceplate and base plate are fixedly attached to the top and bottom surfaces of the honeycomb core, respectively. Each of the honeycomb core, carbon fiber faceplate, and carbon fiber base plate includes a racket face and a handle. The handle extends outward from one end of the racket face. The edge of the racket face of the honeycomb core has a first separation opening, a second separation opening, and a third separation opening. The first separation opening is located at the edge of the racket face furthest from the handle and extends along one side edge of the racket face to the other side edge. The second and third separation openings are both located at the edge of the racket face closest to the handle, and are isolated from each other. The first, second, and third separation openings are respectively filled with a first high-temperature resistant foam strip and a second high-temperature resistant foam strip, each matching in shape and size. The first, second, and third high-temperature resistant foam strips completely fill the first, second, and third separation openings, respectively. The area around the edge of the honeycomb core material's racket face, excluding the first, second, and third separation openings, is the connecting part. A carbon fiber wrapping strip is wrapped around the outer side of the honeycomb core material, the first, second, and third high-temperature resistant foam strips, and the connecting part to increase lateral support. The carbon fiber wrapping strip, honeycomb core material, first, second, and third high-temperature resistant foam strips, carbon fiber panel, and carbon fiber base plate are bonded together and placed into a mold for pressing and molding. After pressing and molding, an integral racket body is formed. The sides of the racket face are wrapped with edge protectors, and the handle of the racket body is wrapped with grip tape to increase the grip feel.

[0008] Furthermore, the second and third separation openings are symmetrically distributed along the centerline of the honeycomb core material.

[0009] Furthermore, the end faces of both the second and third separation openings near the honeycomb core material are curved.

[0010] Furthermore, a first nonwoven fabric layer is bonded to the top surface of the honeycomb core material and the carbon fiber panel with adhesive, and a second nonwoven fabric layer is bonded to the bottom surface of the honeycomb core material and the carbon fiber base plate with adhesive.

[0011] Furthermore, the carbon fiber wrapping strip is internally wrapped with a foam strip.

[0012] Furthermore, the handle of the racket body is provided with an end cap and two grip plates. The two grip plates are respectively clamped to the top and bottom surfaces of the handle of the racket body, and the grip plates are wrapped with adhesive tape.

[0013] Furthermore, the handle portion of the honeycomb core material is provided with reinforcing ribs extending along the surface of the paddle, and the reinforcing ribs are wrapped inside the carbon fiber wrapping strip.

[0014] The beneficial effects of this invention are as follows: First, second, and third separation openings are respectively provided, and first, second, and third high-temperature resistant foam strips are provided at the corresponding openings. All three types of high-temperature resistant foam strips are heat-resistant, preventing the filling effect of the corresponding separation openings from being affected by high temperatures in subsequent production processes. This structure allows all three areas to form a largely separated, suspended state, separating the main body of the honeycomb core material from the carbon fiber wrapping strip. The separated main body of the honeycomb core material forms a non-hard-contact, suspended state. When the main body is pressed, the connecting part allows it to automatically reset under pressure. The racket features elasticity, ensuring a certain degree of flexibility. The three separation openings (first, second, and third) reduce the connecting area, thus weakening the rebound force of the racket face's automatic return to its original position and improving control. This avoids excessive elasticity affecting control and prevents damage to the honeycomb core material's racket face from excessive impact, achieving comprehensive control. Simultaneously, the carbon fiber wrapping strip increases lateral support. This strip only contacts the connecting area of ​​the honeycomb core material's racket face, preventing other areas of the honeycomb core material from extending to the edges, thus strengthening the outer rigidity of the racket face and making it less prone to damage and more durable. Attached Figure Description

[0015] Figure 1 This is a three-dimensional structural diagram of the Peak racket with integrated ball control according to this utility model;

[0016] Figure 2 This is an exploded view of the structure of the Peak racket with integrated ball control according to this utility model;

[0017] Figure 3 This is a three-dimensional structural diagram of the racket body of the Peak racket with integrated ball control according to this utility model;

[0018] Figure 4 This is a front view of the honeycomb core material and carbon fiber wrapping strip combination in the Peak racket with integrated ball control according to this utility model;

[0019] Figure 5 This is a three-dimensional structural diagram of the honeycomb core material and carbon fiber wrapping strip combination in the Peak racket of this utility model with integrated ball control;

[0020] Figure 6 This is a structurally exploded diagram showing the combination of honeycomb core material and carbon fiber wrapping strip in the Peak racket of this utility model with integrated ball control.

[0021] Figure 7 This is a partial structural exploded view of the honeycomb core material and carbon fiber wrapping strip combination in the Peak racket of this utility model with integrated ball control.

[0022] Figure 8 This is a front view of the honeycomb core material in the Peak racket with integrated ball control according to this utility model;

[0023] In the diagram, 1-Player body, 2-Honeycomb core material, 201-First separation opening, 202-Second separation opening, 203-Third separation opening, 204-Connecting part, 205-First high-temperature resistant foam strip, 206-Second high-temperature resistant foam strip, 207-Third high-temperature resistant foam strip, 3-Carbon fiber panel, 4-First non-woven fabric layer, 5-Second non-woven fabric layer, 6-Carbon fiber base plate, 7-Edge guard strip, 8-Hand glue, 9-Carbon fiber wrapping strip, 10-Reinforcing rib strip. Detailed Implementation

[0024] The present invention will now be described in further detail with reference to the accompanying drawings and specific embodiments.

[0025] In this embodiment, refer to Figures 1-8 The specific implementation of the Peak racket with integrated ball control includes a honeycomb core material 2, a carbon fiber face plate 3, and a carbon fiber base plate 6. The carbon fiber face plate 3 and the carbon fiber base plate 6 are respectively fixedly attached to the top and bottom surfaces of the honeycomb core material 2. The honeycomb core material 2, the carbon fiber face plate 3, and the carbon fiber base plate 6 all include a racket face and a handle. The handle extends outward from one end of the racket face. A first non-woven fabric layer 4 is glued between the top surface of the honeycomb core material 2 and the carbon fiber face plate 3. A second non-woven fabric layer 5 is glued between the bottom surface of the honeycomb core material 2 and the carbon fiber base plate 6.

[0026] like Figure 8 As shown, the edge of the playing surface of the honeycomb core material 2 has a first separation opening 201, a second separation opening 202, and a third separation opening 203. The first separation opening 201 is located at the edge of the playing surface away from the handle. The first separation opening 201 extends along one side edge of the playing surface of the honeycomb core material 2 to the other side edge. The second separation opening 202 and the third separation opening 203 are both located at the edge of the playing surface near the handle. The first separation opening 201, the second separation opening 202, and the third separation opening 203 are separated from each other and not connected. The end faces of the second separation opening 202 and the third separation opening 203 near the honeycomb core material 2 are both arc-shaped. The second separation opening 202 and the third separation opening 203 are symmetrically distributed along the centerline of the honeycomb core material 2.

[0027] like Figure 4 and Figure 5As shown, the first separation opening 201, the second separation opening 202, and the third separation opening 203 are respectively filled with a first high-temperature resistant foam strip 205, a second high-temperature resistant foam strip 206, and a third high-temperature resistant foam strip 207, which are matched in shape and size. The second separation opening 202 and the third separation opening 203 are symmetrically distributed along the center line of the honeycomb core material 2. The first high-temperature resistant foam strip 205, the second high-temperature resistant foam strip 206, and the third high-temperature resistant foam strip 207 will completely fill the entire first separation opening 201, the second separation opening 202, and the third separation opening 203, respectively. The area of ​​the edge of the patching surface of the honeycomb core material 2, excluding the first separation opening 201, the second separation opening 202, and the third separation opening 203, is the connecting part 204. The outer surfaces of the honeycomb core material 2, the first high-temperature resistant foam strip 205, the second high-temperature resistant foam strip 206, the third high-temperature resistant foam strip 207, and the connecting part 204 are wrapped with carbon fiber wrapping strips 9 to increase lateral support. The carbon fiber wrapping strips 9 are wrapped with foam strips inside. After being heated and pressurized, the structure of the foam strips can be cured and the hardness can be increased, thereby improving the support performance and strengthening the rigidity of the outer surface of the racket body 1. It is not easy to be damaged during use and is more durable.

[0028] Carbon fiber wrapping strip 9, honeycomb core material 2, first high-temperature resistant foam strip 205, second high-temperature resistant foam strip 206, third high-temperature resistant foam strip 207, carbon fiber panel 3, and carbon fiber base plate 6 are bonded together and placed into a mold for compression molding, forming an integral racket body 1. The sides of the racket body 1 are wrapped with edge protectors 7, and the handle of the racket body 1 is wrapped with grip tape 8 to enhance grip comfort. The handle of the racket body 1 has an end cap and two grip plates, which are clamped to the top and bottom surfaces of the handle of the racket body 1, respectively. The grip tape 8 wraps around the two grip plates. Additionally, the sides of the handle of the honeycomb core material 2 have reinforcing ribs 10 extending along the racket body. The reinforcing ribs 10 are wrapped inside the carbon fiber wrapping strip 9. The addition of reinforcing ribs 10 increases the toughness of the handle of the honeycomb core material 2, and together with the two grip plates, comprehensively increases the service life of the handle of the racket body 1.

[0029] The comprehensive ball-control type Peak racket of this embodiment can be formed by pressing with a mold using either a cold pressing process or a hot pressing process. The cold pressing process requires less sophisticated pressing equipment but is more time-consuming. The hot pressing process, on the other hand, requires more sophisticated pressing equipment but can save more pressing time. Both cold pressing and hot pressing processes are existing technologies.

[0030] The above description, in conjunction with specific preferred embodiments, provides a further detailed explanation of the present invention. It should not be construed that the specific implementation of the present invention is limited to these descriptions. For those skilled in the art, various simple deductions or substitutions can be made without departing from the concept of the present invention, and all such modifications and substitutions should be considered within the scope of protection of the present invention.

Claims

1. A comprehensive control-type Peak racket, comprising a honeycomb core material, a carbon fiber faceplate, and a carbon fiber base plate, wherein the carbon fiber faceplate and carbon fiber base plate are respectively fixedly attached to the top and bottom surfaces of the honeycomb core material, and each of the honeycomb core material, carbon fiber faceplate, and carbon fiber base plate includes a racket face and a handle portion, the handle portion extending outward from one end of the racket face, characterized in that: The honeycomb core material has a first separation opening, a second separation opening, and a third separation opening along its edge. The first separation opening is located at the edge of the earpiece away from the handle and extends along one side edge of the earpiece to the other side edge. The second and third separation openings are both located at the edge of the earpiece closer to the handle, and are separated from each other. A first high-temperature resistant foam strip, a second high-temperature resistant foam strip, and a third high-temperature resistant foam strip of matching shape and size are respectively filled into the first, second, and third separation openings, ensuring that each opening is completely filled. The entire first separation opening, second separation opening, and third separation opening, and the area around the edge of the honeycomb core material's racket face excluding the first separation opening, second separation opening, and third separation opening, are the connecting parts. The outer sides of the honeycomb core material, the first high-temperature resistant foam strip, the second high-temperature resistant foam strip, the third high-temperature resistant foam strip, and the connecting parts are wrapped with carbon fiber wrapping strips to increase lateral support. The carbon fiber wrapping strips, honeycomb core material, the first high-temperature resistant foam strip, the second high-temperature resistant foam strip, the third high-temperature resistant foam strip, carbon fiber panel, and carbon fiber base plate are bonded together and placed into a mold for compression molding. After compression molding, an integrally formed racket body is formed. The sides of the racket face are wrapped with edge protection strips, and the handle of the racket body is wrapped with grip tape to increase the grip feel.

2. The Peak racket with comprehensive ball control according to claim 1, characterized in that: The second and third separation openings are symmetrically distributed along the centerline of the honeycomb core material.

3. The Peak racket with comprehensive ball control according to claim 1, characterized in that: Both the second and third separation openings have an arc-shaped end face near the honeycomb core material.

4. The Peak racket with comprehensive ball control according to any one of claims 1-3, characterized in that: The top surface of the honeycomb core material is bonded to the carbon fiber panel with a first non-woven fabric layer by adhesive, and the bottom surface of the honeycomb core material is bonded to the carbon fiber base plate with a second non-woven fabric layer by adhesive.

5. The Peak racket with comprehensive ball control according to any one of claims 1-3, characterized in that: The carbon fiber wrapping strip is internally wrapped with a foam strip.

6. The Peak racket with comprehensive ball control according to any one of claims 1-3, characterized in that: The handle of the racket body is provided with an end cap and two grip plates. The two grip plates are clamped to the top and bottom surfaces of the handle of the racket body, respectively. After the grip tape is wrapped, it will cover the two grip plates.

7. The Peak racket with comprehensive ball control according to any one of claims 1-3, characterized in that: The handle of the honeycomb core material has reinforcing ribs extending along the surface of the racket, and the reinforcing ribs are wrapped inside the carbon fiber wrapping strip.