CN213307651U - Novel impact glove - Google Patents

Abstract

The utility model discloses a novel impact glove, wherein the palm part and the wrist part of the glove body are of an integral structure, and an elastic band is arranged in the port of the wrist part, so that the wrist of a user is tightly bound through the elastic band, the wrist of the user is ensured not to slip off the hand of the user when in use, and the wearing stability of the glove is improved; the finger protection layer and the back protection layer are respectively and uniformly sewn on the fingers and the back of the hand of the glove body, the thickness of the finger protection layer and the back protection layer is more than 6.0 mm, the hardness is within the range of 35-45HA, the moderate anti-collision performance is achieved, and the anti-collision protection is fully carried out on the hand of a user; according to the shape and the activity rule of each finger, bending strain expansion joints and transverse grooves with different structures are respectively and uniformly arranged on the outer walls of the joints of the thumb protective layer and the four-finger protective layer of the finger protective layer and the outer walls of the polygonal module and the INPAX module of the back of the hand protective layer, so that the fingers are protected in an all-round way, and the free activity of the fingers is guaranteed.

Description

Novel impact glove

Technical Field

The utility model relates to a gloves technical field specifically is a novel striking gloves.

Background

Tissues of the back of the hand, knuckles, nails, and bones of a human body are very easily damaged by external impacts when operated in a severe working environment or in outdoor sports, and therefore, there is a strong need for an anti-collision glove which can buffer external impacts and ensure that fingers can be bent freely.

However, the protective layer is arranged on the back of the palm of the existing protective gloves to achieve the purpose of protection, but the protective layer structure is unreasonable, so that the back of the hand cannot be protected in all directions, especially nails and related joints cannot be effectively protected, and part of the protective gloves can be bound to prevent fingers from moving flexibly.

Therefore, we have introduced a new type of impact glove.

Disclosure of Invention

An object of the utility model is to provide a novel striking gloves, the design and the appropriate hardness and the thickness of the different positions of the TPR module through heat-seal on the back of the hand of gloves give the function of gloves crashproof, reach EN 13594: 2015, to solve the problems set forth in the background above.

In order to achieve the above object, the utility model provides a following technical scheme: a novel pair of impact gloves comprises glove bodies and an anti-collision protective layer, wherein the anti-collision protective layer is arranged on the back of each glove body, each glove body comprises a palm part, a wrist part, commodity labels and elastic bands, one end, far away from fingers, of each palm part is provided with the wrist part, the wrist part and the palm part are of an integrated structure, the commodity labels are sewn on the outer wall of the back of the wrist part, the elastic bands are arranged inside ports of the wrist parts, and the anti-collision protective layer is arranged on the outer wall of the palm part;

the anti-collision protective layer comprises a finger protective layer and a hand back protective layer, the finger protective layer comprises a thumb protective layer and a four-finger protective layer, the thumb protective layer is sewn on the outer wall of the back of the thumb of the glove, and the four-finger protective layer is sewn on the outer wall of the finger of the glove adjacent to the thumb protective layer; the back of the hand inoxidizing coating includes polygon module and INPAX module, and the polygon module sets up in the junction of gloves finger and back of the hand, and the INPAX module sets up on the back outer wall of gloves, and sets up adjacent side by side with the polygon module.

Preferably, the thumb protective layer comprises a bottom layer A, a three-character-shaped bending strain expansion joint A, a two-character-shaped bending strain expansion joint A and an L-character-shaped bending strain expansion joint A, the bottom layer A is sewn on the outer wall of the back face of the thumb of the glove, and the three-character-shaped bending strain expansion joint A, the two-character-shaped bending strain expansion joint A and the L-character-shaped bending strain expansion joint A are uniformly arranged on the outer wall of the bottom layer A.

Preferably, the number of the three-shaped bending strain expansion joint A, the two-shaped bending strain expansion joint A and the L-shaped bending strain expansion joint A is two, one and three respectively.

Preferably, the four-finger protective layer comprises a bottom layer B, a three-shaped bending strain expansion joint B and an L-shaped bending strain expansion joint B, the bottom layer B is sewn on the outer walls of the four fingers of the glove respectively, the three-shaped bending strain expansion joint B and the L-shaped bending strain expansion joint B are arranged on the outer wall of the bottom layer B respectively, and the L-shaped bending strain expansion joints B are arranged in the left direction and the right direction respectively.

Preferably, the three-shaped bending strain expansion joint B and the left-right L-shaped bending strain expansion joint B are respectively arranged at the first joint and the second joint of the four fingers.

Preferably, a plurality of L-shaped bending strain expansion joints C and multidirectional-arranged Sichuan-shaped bending strain expansion joints are respectively arranged on the outer wall of the polygonal module.

Preferably, the outer wall of the INPAX module is provided with a plurality of transverse grooves, and the transverse grooves respectively and uniformly cover the dorsal bone.

Compared with the prior art, the beneficial effects of the utility model are as follows:

1. the utility model provides a pair of novel striking gloves, the palm portion and the wrist portion formula structure as an organic whole of gloves body to at the inside elastic cord that is provided with of port of wrist portion, through elastic cord tie up user's wrist, guarantee that it can not follow user's hand landing when using, improved the stability of wearing of gloves.

2. The utility model provides a novel striking gloves evenly makes up finger inoxidizing coating and back of the hand inoxidizing coating respectively on the finger of gloves body and the back of the hand, and finger inoxidizing coating and back of the hand protective layer thickness more than 6.0 millimeters, and hardness is in 35-45HA within range, reaches medium crashproof performance, fully carries out collision avoidance to user's hand.

3. The utility model provides a pair of novel striking gloves, according to the form and the activity law of each finger on the thumb inoxidizing coating of finger inoxidizing coating and the joint department outer wall of four finger inoxidizing coatings to and evenly set up the bending strain expansion joint and the transverse groove of isostructure respectively on the polygon module of back of the hand inoxidizing coating and the outer wall of INPAX module, both carried out all-round protection and guaranteed the free activity of finger again to the finger.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of the thumb protective layer structure of the present invention.

Fig. 3 is a schematic view of the structure of the four-finger protective layer of the present invention.

Fig. 4 is a schematic view of the polygonal module structure of the present invention.

Fig. 5 is a schematic structural diagram of the INPAX module of the present invention.

In the figure: 1. a glove body; 11. a palm portion; 12. a wrist portion; 13. labeling the commodity; 14. elastic bands; 2. an anti-collision protective layer; 21. a finger guard layer; 211. a thumb protective layer; 2111. a bottom layer A; 2112. a three-shaped bending strain expansion joint A; 2113. a two-character bending strain expansion joint A; 2114. an L-shaped bending strain expansion joint A; 212. a four-finger protective layer; 2121. a bottom layer B; 2122. a three-shaped bending strain expansion joint B; 2123. an L-shaped bending strain expansion joint B; 22. a hand back protective layer; 221. a polygon module; 2211. an L-shaped bending strain expansion joint C; 2212. a V-shaped bending strain expansion joint; 222. an INPAX module; 2221. a transverse slot.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Please refer to fig. 1, a novel impact glove, including glove body 1 and anti-collision protective layer 2, anti-collision protective layer 2 is disposed on the back of glove body 1, glove body 1 includes palm portion 11, wrist portion 12, commodity label 13 and elastic band 14, one end of palm portion 11 far away from the fingers is disposed with wrist portion 12, and wrist portion 12 and palm portion 11 are of an integral structure, commodity label 13 is sewn on the outer wall of the back of wrist portion 12, elastic band 14 is disposed inside the port of wrist portion 12, user's wrist is bound tightly by elastic band 14, it is ensured that it will not slip off from user's hand when in use, wearing stability of glove is improved, anti-collision protective layer 2 is disposed on the outer wall of palm portion 11.

The anti-collision protective layer 2 comprises a finger protective layer 21 and a back protective layer 22, the thickness of the finger protective layer 21 and the thickness of the back protective layer 22 are more than 6.0 mm, the hardness is in the range of 35-45HA, the moderate anti-collision performance is achieved, the hand of a user can be fully protected against collision, the finger protective layer 21 comprises a thumb protective layer 211 and four-finger protective layers 212, the thumb protective layer 211 is sewn on the outer wall of the back of the thumb of the glove, and the four-finger protective layers 212 are respectively sewn on the outer walls of the fingers of the glove adjacent to the thumb protective layer 211; the hand back protective layer 22 comprises a polygonal module 221 and an INPAX module 222, wherein the polygonal module 221 is arranged at the joint of the fingers and the hand back of the glove, and the INPAX module 222 is arranged on the outer wall of the back of the glove and is arranged adjacent to the polygonal module 221 in parallel; the INPAX222 module is a component made of thermoplastic rubber material, is thermoplastic soft rubber material which has rubber elasticity and does not need to be vulcanized and can be directly processed and molded, is fixedly connected to the back part of the glove body 1 through heat sealing, and gives the glove an anti-collision function by utilizing good elasticity and proper hardness and thickness of the rubber soft rubber material, so that the hand of a wearer is fully protected.

Referring to fig. 2-3, a novel impact glove, a thumb protective layer 211 includes a bottom layer a2111, a delta-shaped bending strain expansion joint a2112, a delta-shaped bending strain expansion joint a2113 and an L-shaped bending strain expansion joint a2114, the bottom layer a2111 is sewn on the back outer wall of the thumb of the glove, the outer wall of the bottom layer a2111 is uniformly provided with the delta-shaped bending strain expansion joint a2112, the delta-shaped bending expansion joint a2113 and the L-shaped bending strain expansion joint a2114, and the number of the delta-shaped bending strain expansion joint a2112, the delta-shaped bending strain expansion joint a2113 and the L-shaped bending strain expansion joint a2114 is two, one and three respectively.

The four-finger protective layer 212 comprises a bottom layer B2121, a three-letter-shaped bending strain expansion joint B2122 and an L-shaped bending strain expansion joint B2123, the bottom layer B2121 is sewn on the outer walls of the four fingers of the glove, the outer wall of the bottom layer B2121 is provided with the three-letter-shaped bending strain expansion joint B2122 and the L-shaped bending strain expansion joint B2123, the L-shaped bending strain expansion joint B2123 is arranged in the left and right directions, and the three-letter-shaped bending strain expansion joint B2122 and the L-shaped bending strain expansion joint B2123 are arranged at the first joint and the second joint of the four fingers.

Referring to fig. 4-5, in the novel impact glove, a plurality of L-shaped bending strain expansion joints C2211 and a plurality of multidirectional C-shaped bending strain expansion joints 2212 are respectively formed on the outer wall of the polygonal module 221.

A plurality of transverse grooves 2221 are formed in the outer wall of the INPAX module 222, and the transverse grooves 2221 are respectively and uniformly covered on the dorsal bone.

In summary, the following steps: the utility model provides a novel impact glove, the palm part 11 and the wrist part 12 of the glove body 1 are of an integral structure, and the elastic band 14 is arranged in the port of the wrist part 12, the wrist of a user is tightly bound through the elastic band 14, so that the novel impact glove is ensured not to slip off the hand of the user when in use, and the wearing stability of the glove is improved; the finger protection layer 21 and the back protection layer 22 are respectively and uniformly sewn on the fingers and the back of the hand of the glove body 1, the thickness of the finger protection layer 21 and the thickness of the back protection layer 22 are more than 6.0 mm, the hardness is within the range of 35-45HA, the moderate anti-collision performance is achieved, and the anti-collision protection is fully carried out on the hand of a user; bending strain expansion joints and transverse grooves 2221 with different structures are respectively and uniformly arranged on the outer walls of the joints of the thumb protective layer 211 and the four-finger protective layer 212 of the finger protective layer 21 and the outer walls of the polygonal module 221 and the INPAX module 222 of the back of the hand protective layer 22 according to the shapes and the activity rules of all fingers, so that the fingers are protected in an all-round way, and the free activity of the fingers is guaranteed.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The utility model provides a novel striking gloves, includes gloves body (1) and anticollision protective layer (2), anticollision protective layer (2) set up in gloves body (1) back, its characterized in that: the glove body (1) comprises a palm part (11), a wrist part (12), a commodity label (13) and an elastic band (14), the wrist part (12) is arranged at one end, away from fingers, of the palm part (11), the wrist part (12) and the palm part (11) are of an integrated structure, the commodity label (13) is sewn on the outer wall of the back of the wrist part (12), the elastic band (14) is arranged inside a port of the wrist part (12), and an anti-collision protective layer (2) is arranged on the outer wall of the palm part (11);

the anti-collision protective layer (2) comprises a finger protective layer (21) and a back protective layer (22), the finger protective layer (21) comprises a thumb protective layer (211) and four-finger protective layers (212), the thumb protective layer (211) is sewn on the outer wall of the back of the thumb of the glove, and the four-finger protective layers (212) are sewn on the outer walls of the fingers of the glove adjacent to the thumb protective layer (211) respectively; the hand back protection layer (22) comprises a polygonal module (221) and an INPAX module (222), the polygonal module (221) is arranged at the joint of the fingers and the hand back of the glove, and the INPAX module (222) is arranged on the outer wall of the back of the glove and is arranged adjacent to the polygonal module (221) in parallel.

2. The novel ballistic glove of claim 1 wherein: the thumb protective layer (211) comprises a bottom layer A (2111), a three-shaped bending strain expansion joint A (2112), a two-shaped bending strain expansion joint A (2113) and an L-shaped bending strain expansion joint A (2114), the bottom layer A (2111) is sewn on the outer wall of the back face of the thumb of the glove, and the three-shaped bending strain expansion joint A (2112), the two-shaped bending strain expansion joint A (2113) and the L-shaped bending strain expansion joint A (2114) are uniformly arranged on the outer wall of the bottom layer A (2111).

3. The novel ballistic glove of claim 2 wherein: the number of the three-shaped bending strain expansion joint A (2112), the two-shaped bending strain expansion joint A (2113) and the L-shaped bending strain expansion joint A (2114) is two, one and three respectively.

4. The novel ballistic glove of claim 1 wherein: the four-finger protective layer (212) comprises a bottom layer B (2121), a three-character-shaped bending strain expansion joint B (2122) and an L-shaped bending strain expansion joint B (2123), the bottom layer B (2121) is sewn on the outer walls of the four fingers of the glove respectively, the three-character-shaped bending strain expansion joint B (2122) and the L-shaped bending strain expansion joint B (2123) are arranged on the outer wall of the bottom layer B (2121) respectively, and the L-shaped bending strain expansion joints B (2123) are arranged in the left direction and the right direction respectively.

5. The novel ballistic glove of claim 4 wherein: the three-shaped bending strain expansion joint B (2122) and the left-right L-shaped bending strain expansion joint B (2123) are respectively arranged at the first joint and the second joint of the four fingers.

6. The novel ballistic glove of claim 1 wherein: the outer wall of the polygonal module (221) is respectively provided with a plurality of L-shaped bending strain expansion joints C (2211) and multidirectional-arranged Sichuan-shaped bending strain expansion joints (2212).

7. The novel ballistic glove of claim 1 wherein: the outer wall of the INPAX module (222) is provided with a plurality of transverse grooves (2221), and the transverse grooves (2221) are respectively and uniformly covered on the dorsal bone.

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