Skating helmet with protective visor

By designing a protective face shield, magnetic connectors, and transparent inner lining material, the ice skating helmet addresses the issues of insufficient facial protection, fogging, and wind resistance, achieving comprehensive protection and improved comfort.

CN224402969UActive Publication Date: 2026-06-26CHANG CHUN BAI NING DUN SPORT EQUIPMEN COMPONENTS CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
CHANG CHUN BAI NING DUN SPORT EQUIPMEN COMPONENTS CO LTD
Filing Date
2025-07-02
Publication Date
2026-06-26

AI Technical Summary

Technical Problem

Existing skating helmets lack effective facial protection, making athletes prone to facial injuries during skating. Furthermore, existing masks are easily knocked off or fogged up, affecting vision. The unreasonable design of the rear of the helmet leads to injuries and wind resistance problems when falling.

Method used

A skating helmet with a protective face shield has been designed. It is made of PC polycarbonate and EPS expandable polystyrene materials, with raised ridges and recessed ventilation holes. Combined with magnetic connectors, the protective face shield can be transparent or colored, and the inner lining material is sweat-absorbent and breathable. The rear of the helmet has a protective plane to reduce wind resistance and control head posture.

Benefits of technology

It provides all-around facial protection, prevents the mask from falling off, reduces the risk of fogging, improves visual clarity, reduces fall injuries, evens out wind resistance, and enhances comfort and safety.

✦ Generated by Eureka AI based on patent content.

Smart Images

  • Figure CN224402969U_ABST
    Figure CN224402969U_ABST
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Abstract

The utility model discloses a skate helmet with protective mask relates to a skate helmet with protective mask on ice sports, including helmet shell, helmet inner shell, protective mask, connecting piece I, connecting piece II, protection plane and anti -fog hole, the protective mask of the application is more firm in the movement through the design of connecting piece and mounting groove, and will be knocked down in the movement, protects the face of athlete, and the application is provided with the vent hole on the mask and prevents the mask atomization influence athlete's play, and the protection plane is set up in the rear part of helmet, makes the athlete more easily control control head direction after falling down, and makes the whole helmet's wind resistance more even when athlete bends down and sprints, and the athlete plays conveniently, the recess structure and the vent hole design are passed through in the application, realize the more convenient ventilation of helmet inside, improve the comfortable degree of athlete's competition, and play better competitive level, and the mask can be more conveniently installed and disassembled through the cooperation of magnetic attraction piece.
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Description

Technical Field

[0001] This utility model belongs to the field of sports equipment, and specifically relates to a skating helmet with a protective face shield for ice sports. Background Technology

[0002] Ice sports have developed rapidly in my country, with both professional competitions and grassroots activities experiencing rapid growth; consequently, the demand for ice sports equipment is constantly increasing and upgrading. Helmets are one of the most important protective equipment for ice sports.

[0003] Currently, most skating helmets on the market lack face protection, leaving athletes' faces continuously exposed during skating. Due to the high speed, ice debris, water splashes, and wind speed, it is difficult for athletes to see clearly. Moreover, the lack of a face shield makes athletes vulnerable to injury from accidental kicks from other skaters after a fall. Existing helmets with face shields are easily knocked off by the movements of nearby skaters during competition, causing serious facial injuries. Furthermore, existing face shields are prone to fogging, affecting athletes' vision and further creating safety hazards.

[0004] The existing helmets have a pointed cone shape at the back, which can cause the athlete's head to tilt after a fall, resulting in injury from the face coming into contact with the ice surface. It can also make it difficult for the athlete to control their body and avoid dangers to their face. In addition, this pointed cone design can cause changes in wind resistance when the athlete sprints with their head down, which can have a certain impact on the athletic coordination of professional athletes.

[0005] Such incidents can cause athletes to suffer severe facial injuries, even resulting in lifelong pain. Therefore, there is an urgent need for a helmet to address these issues. Summary of the Invention

[0006] The technical problem to be solved by this utility model is to provide a device that addresses the problems existing in the background art.

[0007] A skating helmet with a protective face shield, characterized in that it includes a helmet body, an inner liner, and a protective face shield.

[0008] The helmet body includes a helmet outer shell and a helmet inner shell, and ventilation holes are regularly arranged on the helmet body.

[0009] The helmet shell is made of PC polycarbonate material, and the helmet inner shell is made of EPS expandable polystyrene material. The helmet shell and helmet inner shell are integrally molded.

[0010] The inner wall of the helmet shell is provided with raised ridges and recessed grooves. The recessed grooves are positioned to match the ventilation holes on the outer shell of the helmet. Velcro fasteners are regularly arranged on the raised ridges. The lining is attached to the inner wall of the helmet shell by fastening the Velcro fasteners.

[0011] The helmet shell has a protective arc surface at the rear, and ventilation holes are regularly arranged on the protective arc surface.

[0012] The helmet body has mounting slots arranged regularly, and connector I is snapped into the mounting slots; the face mask is provided with connector II, and connector I is magnetically connected to each other. The face mask is mounted on the helmet body through the cooperation of connector I and connector II.

[0013] The raised ridges are parallel to each other, the inner lining is connected to the raised ridges, and a recessed groove is formed between the raised ridges.

[0014] Air enters through the ventilation holes on the protective plane, and the air is expelled from the exhaust holes at the rear by the interaction of the internal grooves and protruding ridges.

[0015] The number of connectors I is three. The connectors I are integrally formed and installed in the helmet body. The connectors I are provided with magnets, which are installed in the mounting groove.

[0016] There are two or more raised ridges, and there are recessed grooves between the raised ridges. The recessed grooves are positioned to match the ventilation holes on the helmet shell, forming a ventilation channel connecting the inside and outside of the helmet body.

[0017] The face shield is a transparent or colored protective face shield with ventilation holes regularly arranged on it.

[0018] The outer wall of the helmet shell is smooth and flat.

[0019] The outer wall of the helmet shell is provided with anti-slip texture.

[0020] A magnet is provided on the connector II, and the connector II is inserted into the mounting groove and magnetically attracted to the connector I.

[0021] The mask has symmetrical anti-fog holes.

[0022] The mounting slot is located at the bottom of the helmet body.

[0023] The above design provides a skating helmet. The protective face shield of this application, through the design of connectors and mounting slots, is more secure during exercise and can withstand being knocked off, protecting the athlete's face. Simultaneously, the face shield is equipped with ventilation holes to prevent fogging and avoid affecting the athlete's performance. Furthermore, a protective plane is provided at the rear of the helmet, making it easier for the athlete to control their head direction after a fall, and ensuring more even wind resistance when the athlete is sprinting with their head down, facilitating better performance. The internal groove structure and ventilation hole design of this application enable more convenient ventilation inside the helmet, improving the athlete's comfort during competition and allowing for better performance. Moreover, the face shield, with the assistance of magnetic attachments, allows for easier installation and removal, adapting to different sports needs. Attached Figure Description

[0024] The present invention will be further described below with reference to the accompanying drawings and specific embodiments:

[0025] Figure 1 This is a schematic diagram of the structure of this application. Figure 1 ;

[0026] Figure 2 This is a schematic diagram of the structure of this application. Figure 2 ;

[0027] Figure 3 This is a schematic diagram of the structure of this application. Figure 3 ;

[0028] Figure 4 This is a bottom view of this application;

[0029] Figure 5 This is an assembly diagram of the protective face shield and connector II of this application;

[0030] Figure 6 This is a schematic diagram of the structure of connector II in this application;

[0031] Figure 7 This is a schematic diagram of the structure of connector I in this application;

[0032] In the diagram: 1-Helmet outer shell, 2-Helmet inner shell, 3-Protective face shield, 4-Connector I, 5-Connector II, 11-Protective plane, 301-Anti-fog hole. Detailed Implementation

[0033] This application will be further described in conjunction with the accompanying drawings:

[0034] A skating helmet with a protective face shield, characterized in that it includes a helmet body, an inner liner, and a protective face shield 3;

[0035] The helmet body includes a helmet outer shell 1 and a helmet inner shell 2, and ventilation holes are regularly arranged on the helmet body;

[0036] The helmet shell 1 is made of PC polycarbonate material, and the helmet inner shell 2 is made of EPS expandable polystyrene material. The helmet shell 1 and the helmet inner shell 2 are integrally molded.

[0037] The inner wall of the helmet inner shell 2 is provided with raised ridges and recessed grooves. The position of the recessed grooves matches the position of the ventilation holes on the helmet outer shell 1. The recessed grooves and ventilation holes cooperate to form a channel. Velcro is regularly arranged on the raised ridges. The inner lining is attached to the inner wall of the helmet inner shell 2 by being glued with Velcro.

[0038] The helmet shell 1 has a protective curved surface 11 at the rear, and ventilation holes are regularly arranged on the protective curved surface 11;

[0039] The helmet body has mounting slots arranged regularly, and connector I4 is snapped into the mounting slots; the face mask 3 is provided with connector II5, and connector I4 and connector II5 are magnetically connected to each other. The face mask 3 is mounted on the helmet body through the cooperation of connector I4 and connector II5.

[0040] The raised ridges are parallel to each other, and the inner liner is connected to the raised ridges, forming a recessed groove between the raised ridges. The shape of the inner liner does not cover the recessed groove, keeping the recessed groove and the inside of the helmet unobstructed.

[0041] The positions of the ventilation holes on the protective plane 11 correspond to the positions of the raised ridges and recessed grooves.

[0042] There are three connectors I4. Each connector I4 is integrally formed and installed inside the helmet body. Each connector I4 is provided with a magnet, which is installed in the mounting groove.

[0043] There are two or more raised ridges, and there are recessed grooves between the raised ridges. The recessed grooves are positioned to match the ventilation holes on the helmet shell 1 to form a ventilation channel connecting the inside and outside of the helmet body.

[0044] There are three connectors I4, which are installed inside the helmet body. Both connectors I4 and connector II5 are magnetic devices that can magnetically attract each other, making them easy to disassemble and install.

[0045] There are two or more raised ridges, and there are recessed grooves between the raised ridges. The position of the recessed grooves matches the ventilation holes on the helmet shell 1 to form a ventilation channel connecting the inside and outside of the helmet body, which can better reduce the temperature and humidity inside the helmet and improve the comfort of athletes.

[0046] The face mask 3 is a transparent or colored protective face mask with ventilation holes arranged regularly on it.

[0047] The outer wall of the helmet shell 1 is smooth and flat.

[0048] The outer wall of the helmet shell 1 is provided with anti-slip texture.

[0049] The connector II5 is equipped with a magnet. The connector II5 is inserted into the mounting groove and magnetically attracted to the connector I4. Through the combination of insertion and magnetic attraction, the two connectors are more secure, and the connection between the mask 3 and the helmet body is more stable.

[0050] The mask 3 is symmetrically provided with anti-fog holes 301. The ventilation of the anti-fog holes 301 can prevent fogging in the eye area of ​​the mask 3, which would affect the athlete's vision.

[0051] The mounting slot is located at the bottom of the helmet body. The connector II5 is L-shaped. One end is inserted into the mounting slot and magnetically attracted to the connector I4. The other end is snapped into the face mask 3. This makes the face mask 3 more secure and prevents it from being knocked off by someone waving their hand during exercise.

[0052] Through the above design, this application further reduces wind resistance on the basis of the existing design, enabling athletes to increase gliding speed, and also achieves all-round protection of the athlete's face through the protective mask 3.

[0053] The protective face shield 3 is made of transparent and impact-resistant material, ensuring clear vision for athletes while effectively resisting impacts from sharp objects such as ice skates.

[0054] Connector I4 and connector II5 are clips and magnetic buckles. With the setting of connector I4 and connector II5, the protective mask 3 can be firmly fixed to the helmet body and is not easy to fall off even in intense ice sports, thus greatly improving the safety of sports.

[0055] The helmet shell 1 has a protective plane 11 at the rear, and ventilation holes are regularly arranged on the protective plane 11. The protective plane 11 makes the rear of the helmet body flat, preventing the athlete's head from being injured due to tilting when falling because of the pointed arc at the rear of the helmet. The protective plane 11 can prevent the wind resistance from changing significantly when the athlete sprints with their head down, which is conducive to the athlete's performance.

[0056] The number of raised ridges is two or more, and ventilation holes are provided on the grooves of the raised ridges. The raised ridges cooperate with the ventilation holes of the helmet shell to form a ventilation channel from the outside of the helmet body to the inside of the helmet body. When the athlete is skating, air enters the inner cavity of the groove through the ventilation holes of the helmet shell 1 and is blown into the inside of the helmet through the ventilation holes of the groove.

[0057] The lining's shape and raised ridges work together, and the lining is made of sweat-wicking and breathable material, effectively reducing sweat buildup during exercise, keeping the head dry, and further enhancing the athlete's comfort experience.

[0058] In addition, the helmet body includes a helmet shell 1 and a helmet inner shell 2, which are made of lightweight and high-strength materials, which reduces the overall weight and ensures the helmet's impact resistance, so that athletes will not feel too much burden when wearing it, while providing effective protection in the event of an accident.

[0059] In terms of details, the inner liner and visor 3 of this application are easy to disassemble and clean, facilitating cleaning and maintenance for athletes after prolonged use and extending the product's lifespan. Additionally, the helmet surface has a smooth finish, reducing wind resistance.

[0060] In conclusion, this utility model of an ice skating helmet with a protective face shield, through its innovative design and user-friendly functions, provides athletes with more comprehensive, safe, and comfortable protective equipment, thus promoting technological progress and development in ice sports equipment.

Claims

1. A skating helmet with a protective face shield, characterized in that: Including helmets Body, lining and protective face shield (3); The helmet body includes a helmet shell (1) and a helmet inner shell (2), and ventilation holes are regularly arranged on the helmet body; The helmet shell (1) is made of PC polycarbonate material, and the helmet inner shell (2) is made of EPS expandable polystyrene material. The helmet shell (1) and the helmet inner shell (2) are integrally molded. The inner wall of the helmet shell (2) is provided with raised ridges and recessed grooves. The position of the recessed grooves matches the position of the ventilation holes on the outer shell (1) of the helmet. The raised ridges are regularly provided with Velcro. The lining is attached to the inner wall of the helmet shell (2) by Velcro. The helmet shell (1) has a protective plane (11) at the rear, and ventilation holes are regularly arranged on the protective plane (11); The helmet body has mounting slots arranged regularly, and a connector I (4) is snapped into the mounting slot; the face mask (3) is provided with a connector II (5), and the connector I (4) and connector II (5) are magnetically connected to each other. The face mask (3) is set on the helmet body through the cooperation of connector I (4) and connector II (5).

2. The skating helmet with a protective face shield according to claim 1, characterized in that: The raised ridges are parallel to each other, the inner lining is connected to the raised ridges, and a recessed groove is formed between the raised ridges.

3. The skating helmet with a protective face shield according to claim 1, characterized in that: The positions of the ventilation holes on the protective plane (11) are matched with the positions of the raised ridges and recessed grooves.

4. The skating helmet with a protective face shield according to claim 1, characterized in that: The number of connectors I (4) is three. The connectors I (4) are integrally formed and installed in the helmet body. The connectors I (4) are provided with magnets, which are installed in the mounting groove.

5. The skating helmet with a protective face shield according to claim 1, characterized in that: The number of raised ridges is two or more, and there are recessed grooves between the raised ridges. The position of the recessed grooves matches the ventilation holes on the helmet shell (1) to form a ventilation channel connecting the inside and outside of the helmet body.

6. The skating helmet with a protective face shield according to claim 1, characterized in that: The face mask (3) is a transparent or colored protective face mask with ventilation holes regularly arranged on it.

7. The skating helmet with a protective face shield according to claim 1, characterized in that: The outer wall of the helmet shell (1) is provided with anti-slip texture.

8. The skating helmet with a protective face shield according to claim 4, characterized in that: A magnet is provided on the connector II (5), and the connector II (5) is inserted into the mounting groove and magnetically attracted to the connector I (4).

9. The skating helmet with a protective face shield according to claim 1, characterized in that: The mask (3) is symmetrically provided with anti-fog holes (301).

10. The skating helmet with a protective face shield according to claim 1, characterized in that: The mounting slot is located at the bottom of the helmet body.