A fiberglass pole can be fully folded football gate
By using a centralized operation and locking mechanism for the vertical beams, horizontal beams, and bottom beams, the problem of large size and inconvenient transportation of football goals during movement and storage has been solved, resulting in football goals that are easy to store and quick to install, adapting to the needs of training in multiple venues.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- TAIZHOU XINGYU SPORTS TACKLE
- Filing Date
- 2025-07-22
- Publication Date
- 2026-07-07
AI Technical Summary
Existing soccer goals are bulky and inconvenient to transport, and are not suitable for the frequent relocation of training grounds.
The vertical beams, horizontal beams, and bottom beams are connected by assembly bases to form a specific shape. They can be folded together for storage and quickly dispersed for use. The length can be adjusted using latches and adjustment holes to ensure stability and portability.
The design achieves a compact size for storing and carrying soccer goals, making them easy to transport. It also allows for the rapid setup of training fields, adapting to different field environments, thus improving the product's practicality and application scenario adaptability, and reducing transportation costs and carrying difficulties.
Smart Images

Figure CN224462210U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of leisure sports equipment technology, specifically a fully foldable football goal made of fiberglass rod. Background Technology
[0002] A standard football match consists of two teams, each with 10 players and 1 goalkeeper, totaling 11 players, competing and attacking on a rectangular grass field. The goal is to shoot the ball into the opponent's goal, scoring one point for each goal. The team with the most points at the end of the match wins. Currently, recreational football goals on the market include painted, powder-coated, and inflatable ones. Painted goals are made of stainless steel, can be disassembled and reassembled, and have good stability, making them suitable for use as football goals. Powder-coated goals are made of galvanized steel pipes with electrostatic spraying, making them wear-resistant and rust-proof. However, football is limited by the field, and football goals are inconvenient to carry, making them unsuitable for nearby recreation or football player training. The new generation of folding football goals, available in 3-player and 5-player versions, are smaller in size, with only about 80% of the stability and rebound of painted goals, making them suitable for outdoor recreation, outings, and tourism.
[0003] Regarding the patent for a soccer goal, after searching, the publication number CN201510711U discloses a portable folding soccer goal device, which includes an upper crossbeam, a lower crossbeam, two uprights, two base rods, two diagonal rods, two first folding components, two second folding components, four third folding components, and two first plug-in components. The uprights, base rods, and diagonal rods are fixedly connected in sequence to form a right triangle, and both ends of the upper crossbeam are fixedly connected to the joint between the uprights and the diagonal rods.
[0004] While the aforementioned device can solve the problem of moving and carrying soccer goals, which is beneficial for the development of soccer, the folded soccer goal is still too bulky, making it difficult to store and increasing transportation costs. Utility Model Content
[0005] The purpose of this invention is to provide a fully foldable football goal made of fiberglass rod, so as to solve the defects mentioned in the background art.
[0006] To achieve the above objectives, a fully foldable fiberglass soccer goal is provided, comprising a vertical beam with mounting bases at both ends. One end of the vertical beam is fixedly connected to a crossbeam via the mounting base, and the other end of the vertical beam is fixedly connected to a bottom beam via the mounting base. The mounting base includes a first fixing sleeve fitted onto the outside of the crossbeam, a second fixing sleeve fixedly connected to the end of the first fixing sleeve, and a vertical beam inserted inside the second fixing sleeve. A net mounting plate is fixedly installed on the inner wall of the connection between the first and second fixing sleeves, and the net mounting plate has mounting holes. The mounting base also includes friction plates, which are evenly arranged in four groups inside the first and second fixing sleeves.
[0007] Furthermore, both the first and second fixing sleeves are trapezoidal in shape, and the assembly base is an "L"-shaped structure made of plastic. The vertical beam, horizontal beam, and bottom beam are assembled together through the assembly base.
[0008] Furthermore, the vertical beams and horizontal beams are arranged vertically, the vertical beams are arranged in two parallel groups, the vertical beams are arranged vertically with the bottom beam, and the bottom beams are arranged in three groups. The three groups of bottom beams have a "U" shaped structure and are assembled together by assembly seats; the outer diameters of the vertical beams, horizontal beams and bottom beams are the same.
[0009] Furthermore, the friction plate is made of rubber, and the interior of the friction plate has perforations that are interference-fitted with the vertical beam.
[0010] Furthermore, the vertical beam includes an outer sleeve, an adjustment hole, an inner liner, and a latch. The inner liner is inserted inside the outer sleeve, and a latch is fixedly installed on the inner liner. The outer sleeve has equidistantly distributed adjustment holes on its circumferential outer wall. The size of the adjustment holes and the latch are matched, and the latch is engaged inside the adjustment holes.
[0011] Furthermore, the inner liner rod has a receiving hole on its outer circumferential wall, a latch is movably inserted inside the receiving hole, a guide groove is provided inside the latch, a guide plate is slidably arranged inside the guide groove, a compression spring is installed on the guide plate, the compression spring is arranged inside the guide groove, the guide plate is circular, and a support seat is fixedly provided at the bottom of the guide plate, the support seat is fixedly connected to the inside of the inner liner rod.
[0012] Compared with the prior art, the beneficial effects of this utility model are:
[0013] 1. This solution utilizes a centralized and decentralized operation method between the vertical beams, horizontal beams, and bottom beams. The beams can be centrally collected for storage and transport, and then dispersed for use in football training. When stored and transported, the beams are compact, easy to move, and space-saving. During use, they can be quickly dispersed for installation, rapidly setting up a training field. This high flexibility adapts to different field environments, satisfying both convenient storage and mobility needs while ensuring efficient installation and use, greatly enhancing the product's practicality and application scenario adaptability.
[0014] 2. This solution shortens the length of the vertical beams, horizontal beams, and bottom beams by using a pull-out mechanism when carrying the equipment, which can significantly reduce the overall storage volume and make the equipment more compact and portable. It is more convenient to carry with one hand, store in a backpack, or transport by vehicle, making it especially suitable for scenarios that require frequent movement of training sites. At the same time, the shortened beams are less likely to be damaged by collisions during transportation due to excessive length, and can also reduce the space occupied during transportation, reduce the difficulty of carrying and transportation costs, and significantly improve the practicality of the equipment in mobile scenarios. Attached Figure Description
[0015] Figure 1 This is a three-dimensional view of the fully folding soccer goal structure of this utility model;
[0016] Figure 2 This is a side view of the fully folding soccer goal structure of this utility model;
[0017] Figure 3 This is a front view of the fully folding soccer goal structure of this utility model;
[0018] Figure 4 for Figure 1 Enlarged structural diagram at point A in the diagram;
[0019] Figure 5 This is a partial structural diagram of the vertical beam of this utility model;
[0020] Figure 6 This is a top view of a partial structure of the vertical beam of this utility model;
[0021] Figure 7 for Figure 5 A schematic diagram of the locking mechanism section.
[0022] The following are the labeling elements in the diagram: 1. Vertical beam; 111. Outer sleeve; 112. Adjustment hole; 113. Inner liner; 114. Lock; 1141. Guide groove; 1142. Compression spring; 1143. Guide plate; 1144. Support base; 11. Crossbeam; 12. Bottom beam; 2. Assembly base; 21. First fixing sleeve; 22. Second fixing sleeve; 23. Net mounting plate; 24. Friction plate. Detailed Implementation
[0023] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.
[0024] Please see Figure 1-7This utility model provides a fully foldable fiberglass soccer goal, including a vertical beam 1, with assembly seats 2 installed at both ends of the vertical beam 1. One end of the vertical beam 1 is fixedly connected to a horizontal beam 11 via the assembly seat 2, and the other end of the vertical beam 1 is fixedly connected to a bottom beam 12 via the assembly seat 2. The assembly seat 2 includes a first fixing sleeve 21 sleeved on the outside of the horizontal beam 11, and a second fixing sleeve 22 fixedly connected to the end of the first fixing sleeve 21. The vertical beam 1 is inserted inside the second fixing sleeve 22. A net mounting piece 23 is fixedly installed on the inner wall of the connection between the first fixing sleeve 21 and the second fixing sleeve 22. The net mounting piece 23 has installation holes. The assembly seat 2 also includes friction plates 24, which are evenly arranged in four groups inside the first fixing sleeve 21 and the second fixing sleeve 22.
[0025] Working principle: The vertical beam 1, horizontal beam 11, and bottom beam 12 are assembled together via assembly base 2. After assembly, the overall shape is as shown in the instruction manual. Figure 1 As shown, once the net is installed, football training can begin. The vertical beam 1, horizontal beam 11, and bottom beam 12 are used in a centralized and decentralized manner. They can be gathered together for storage and transport, and then dispersed for football training. The vertical beam 1, horizontal beam 11, and bottom beam 12 are connected by the assembly base 2, forming a specific shape after assembly. Once the net is installed, football training can begin. The centralized and decentralized operation method allows for centralized storage and transport, making it compact, easy to move, space-saving, and convenient for transportation. When in use, it can be quickly dispersed for installation, rapidly setting up a training field. It is highly flexible and can adapt to different field environments, meeting the needs of convenient storage and movement while ensuring efficient installation and use, greatly improving the product's practicality and adaptability to various application scenarios.
[0026] The vertical beam 1, horizontal beam 11, and bottom beam 12 have the same structure, each consisting of an outer sleeve 111 and an inner lining rod 113. When the outer sleeve 111 and inner lining rod 113 are installed using a pull-out mechanism, after adjusting the length of the corresponding beam, they can be secured by locking the buckle 114 into the adjustment hole 112 at the corresponding position. This ensures that the lengths of the vertical beam 1, horizontal beam 11, and bottom beam 12 can be adjusted as needed to meet the requirements of different usage scenarios, and the cooperation between the buckle 114 and the adjustment hole 112 ensures that the adjusted lengths are secure. The beams are stable and reliable, not easily loosened, and balance flexibility and stability. When carrying, the lengths of the vertical beam 1, horizontal beam 11, and bottom beam 12 can be shortened by pulling them out, which can significantly reduce the overall storage volume, making the equipment more compact and portable. It is more convenient to carry with one hand, store in a backpack, or transport by vehicle, especially suitable for scenarios that require frequent movement of training sites. At the same time, the shortened beams are less likely to be damaged by collisions during transportation due to excessive length, and can also reduce the space occupied during transportation, reduce the difficulty of carrying and transportation costs, and significantly improve the practicality of the equipment in mobile scenarios.
[0027] In a preferred embodiment, both the first fixing sleeve 21 and the second fixing sleeve 22 are trapezoidal, and the assembly base 2 is an "L" shaped structure made of plastic. The vertical beam 1, the horizontal beam 11 and the bottom beam 12 are assembled together through the assembly base 2.
[0028] In a preferred embodiment, the vertical beam 1 and the horizontal beam 11 are arranged vertically, the vertical beam 1 is arranged in two parallel groups, the vertical beam 1 and the bottom beam 12 are arranged vertically, the bottom beam 12 is arranged in three groups, the three groups of bottom beam 12 are in a "U" shape, and the three groups of bottom beam 12 are assembled together by the assembly seat 2; the outer diameters of the vertical beam 1, the horizontal beam 11 and the bottom beam 12 are the same.
[0029] The friction plate 24 is made of rubber, and the interior of the friction plate 24 has a perforation that is interference-fitted with the vertical beam 1. The vertical beam 1, the horizontal beam 11 and the bottom beam 12 are all made of glass fiber, which is lightweight, has high hardness and is easy to carry.
[0030] The vertical beam 1 includes an outer sleeve 111, an adjustment hole 112, an inner liner 113, and a lock 114. The inner liner 113 is inserted inside the outer sleeve 111, and the lock 114 is fixedly installed on the inner liner 113. The outer circumferential outer wall of the outer sleeve 111 has equidistantly distributed adjustment holes 112. The size of the adjustment holes 112 and the lock 114 are matched, and the lock 114 is engaged inside the adjustment holes 112.
[0031] In a preferred embodiment, a receiving hole is provided on the outer circumferential wall of the inner liner rod 113, and a latch 114 is movably inserted inside the receiving hole. A guide groove 1141 is provided inside the latch 1141, and a guide piece 1143 is slidably disposed inside the guide groove 1141. A compression spring 1142 is installed on the guide piece 1143, and the compression spring 1142 is disposed inside the guide groove 1141. The guide piece 1143 is circular, and a support seat 1144 is fixedly disposed at the bottom of the guide piece 1143. The support seat 1144 is fixedly connected to the inside of the inner liner rod 113.
[0032] like Figure 4-7 As shown: The length adjustment methods of the vertical beam 1, the horizontal beam 11, and the bottom beam 12 are the same. Here, the length adjustment method of the vertical beam 1 is described: Press the latch 114 inward. The top outer side of the latch 114 is arc-shaped. The latch 114 moves downward and compresses the compression spring 1142. At this time, the latch 114 disengages from the adjustment hole 112 and retracts into the receiving hole on the inner liner 113. The length of the vertical beam 1 can be adjusted. After the adjustment is completed, when the latch 114 moves to the corresponding position of the adjustment hole 112, the compression spring 1142 rebounds and is locked inside the adjustment hole 112, completing the fixation of the length of the vertical beam 1. The range of the vertical beam 1 length adjustment depends on the number of adjustment holes 112 opened on the outer circumference of the outer sleeve 111.
[0033] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.
Claims
1. A fully foldable fiberglass soccer goal, comprising a vertical beam (1), characterized in that: Both ends of the vertical beam (1) are equipped with assembly seats (2). One end of the vertical beam (1) is fixedly connected to a horizontal beam (11) through the assembly seat (2), and the other end of the vertical beam (1) is fixedly connected to a bottom beam (12) through the assembly seat (2). The assembly seat (2) includes a first fixing sleeve (21) sleeved on the outside of the horizontal beam (11). The end of the first fixing sleeve (21) is fixedly connected to a second fixing sleeve (22). The vertical beam (1) is inserted inside the second fixing sleeve (22). A ball net mounting piece (23) is fixedly installed on the inner wall of the connection between the first fixing sleeve (21) and the second fixing sleeve (22). The ball net mounting piece (23) has an installation hole. The assembly seat (2) also includes a friction plate (24). The friction plate (24) is evenly arranged in four groups inside the first fixing sleeve (21) and the second fixing sleeve (22).
2. The fiberglass rod fully foldable soccer goal according to claim 1, characterized in that: The first fixing sleeve (21) and the second fixing sleeve (22) are both trapezoidal. The assembly base (2) is an "L" shaped structure made of plastic. The vertical beam (1), the horizontal beam (11) and the bottom beam (12) are assembled through the assembly base (2).
3. A fully foldable fiberglass soccer goal according to claim 2, characterized in that: The vertical beam (1) and the horizontal beam (11) are vertically arranged. The vertical beam (1) is arranged in two parallel groups. The vertical beam (1) and the bottom beam (12) are vertically arranged. The bottom beam (12) is arranged in three groups. The three groups of bottom beams (12) are in a "U" shape. The three groups of bottom beams (12) are assembled together by the assembly seat (2). The outer diameters of the vertical beam (1), the horizontal beam (11) and the bottom beam (12) are the same.
4. A fully foldable fiberglass soccer goal according to claim 1, characterized in that: The friction plate (24) is made of rubber, and the friction plate (24) has a perforation inside, which is interference fit with the vertical beam (1).
5. A fully foldable fiberglass soccer goal according to claim 1, characterized in that: The vertical beam (1) includes an outer sleeve (111), an adjustment hole (112), an inner liner (113), and a buckle (114). The inner liner (113) is inserted inside the outer sleeve (111), and a buckle (114) is fixedly installed on the inner liner (113). The outer sleeve (111) has equidistantly distributed adjustment holes (112) on its circumferential outer wall. The adjustment holes (112) and the buckle (114) are matched in size, and the buckle (114) is engaged inside the adjustment hole (112).
6. A fully foldable fiberglass soccer goal according to claim 5, characterized in that: The inner liner rod (113) has a receiving hole on its outer circumferential wall. A latch (114) is inserted into the receiving hole. A guide groove (1141) is provided inside the latch (1141). A guide piece (1143) is slidably arranged inside the guide groove (1141). A compression spring (1142) is installed on the guide piece (1143). The compression spring (1142) is located inside the guide groove (1141). The guide piece (1143) is circular. A support seat (1144) is fixedly provided at the bottom of the guide piece (1143). The support seat (1144) is fixedly connected to the inside of the inner liner rod (113).