CN210783052U - Sports protective gloves - Google Patents

Abstract

Sports protective gloves comprise a glove body, wherein the glove body is provided with a palm surface capable of covering the palm of a wearer. The palm surface comprises a palm center area, a plurality of finger root areas, a palm root area, a palm center area antiskid layer, a plurality of finger root area antiskid layers and a palm root area antiskid layer. The palm region is located at the palm position of the wearer. The plurality of finger root regions are adjacent to the palm region and are positioned in the palm region in a direction toward each finger of the wearer. The palm root region is adjacent to the palm center region and is located in the direction of the palm center region toward the wrist of the wearer. It can be used to cover the palm face and the back of the hand of wearing, and the skid resistant course in palm region can provide better antiskid nature in the training, reaches the purpose of protection user's both hands.

Description

Sports protective gloves

Technical Field

The utility model relates to a sport protection glove, which can be used to cover the palm surface and the back surface of the hand. The skid resistant course in palm region can provide better antiskid nature in the training, avoids leading to the apparatus landing to cause danger because of the hand perspires.

Background

In the athletic training, when a trainer often grasps an apparatus to do strength exercise, because a palm sweats greatly, the friction between the palm and the apparatus is reduced, and the apparatus slides down to cause danger. The existing gloves can cover the back and the palm of a wearer, the problem that the palm is directly contacted with an apparatus due to sweating is solved, and the gloves are poor in anti-skid performance after being immersed in sweat.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a motion protective gloves, it can effectively increase the frictional force between palm face and apparatus, avoids leading to the apparatus landing to cause danger because of the hand perspires.

The utility model provides a sports protective glove. The athletic protective glove includes a glove body having a palm surface capable of covering the palm of a wearer. The palm surface comprises a palm area, a plurality of finger root areas, a palm root area, a palm area protective layer, a plurality of finger root area anti-skid layers and a palm root area anti-skid layer. The palm region is located at the palm position of the wearer. The plurality of finger root regions are adjacent to the palm region and are positioned in the palm region in a direction toward each finger of the wearer. The palm root region is adjacent to the palm center region and is located in the direction of the palm center region toward the wrist of the wearer.

The anti-skid layer in the palm area is adhered and fixed in the palm area, and a palm use surface is arranged in the direction departing from the palm area. The palm center part using surface is provided with a plurality of convex edges which are a plurality of concentric arcs around which a center is arranged and are uniformly distributed. The plurality of finger root area anti-slip layers are respectively attached to and fixed on the plurality of finger root areas, and the direction departing from the finger root areas is provided with a finger root use surface. The use surface of the finger root is provided with and uniformly distributed with a plurality of convex edges which are a plurality of concentric arcs around which a center is arranged. The palm root region antiskid layer is attached to and fixed on the palm root region, and a palm root use surface is arranged in the direction departing from the palm root region. The using surface of the palm root part is provided with a plurality of convex ridges which are a plurality of concentric arcs around which a center is arranged.

The utility model discloses the skid resistant course of palm face has been set up. When a wearer grasps the apparatus, the anti-slip layer can effectively increase the friction force between the palm area and the apparatus, and avoid the danger caused by the apparatus slipping.

In another exemplary embodiment of an athletic protective glove, the palmar region slip layer comprises a first partial palmar layer and a second partial palmar layer. A gap with a set width is reserved between the first part palm center layer and the second part palm center layer. The first part palm center layer is adjacent to the anti-slip layers of the plurality of finger root areas. The second part of the palm core layer is adjacent to the palm root area antiskid layer.

In another exemplary embodiment of the athletic protective glove, the first partial palmar layer includes a thumb partial palmar layer and a four finger partial palmar layer. The thumb portion palm layer faces a thumb in a plurality of finger base regions. The four-finger partial metacarpal layer faces in a four-finger direction in the plurality of finger root areas.

In yet another exemplary embodiment of the athletic protective glove, the heel area slip layer includes a first partial heel layer and a second partial heel layer. A gap with a set width is reserved between the first palm root layer and the second palm root layer. The first portion of the palm root layer is adjacent to a thumb region of the plurality of finger root regions. The arrangement of the palm surface anti-slip layer is more fit with the bending condition of the palm of the human body, and the fit degree of the glove and the palm is increased.

In yet another exemplary embodiment of the athletic protective glove, the plurality of ridges of the palmar application surface are a plurality of concentric arcs about two defined centers. The plurality of ridges of one of the plurality of finger use surfaces are concentric arcs about two predetermined centers. The plurality of convex ridges on the using surface of the palm root part are a plurality of concentric arcs around two set centers.

In yet another illustrative embodiment of the athletic protective glove, the palm use surface includes a palm base layer, a finger base layer, and a palm base layer. The palm bottom layer is arranged among the convex ridges, or the palm bottom layer is arranged on one side of the convex ridges facing the palm area. The bottom layer of the finger root is arranged among the convex ridges, and the bottom layer of the palm root is arranged on one side of the convex ridges facing the area of the palm root.

In yet another illustrative embodiment of the athletic protective glove, the finger end of the athletic protective glove has a plurality of finger access holes. The motion protective gloves include a lifting strip, and its both ends are fixed in one in a plurality of finger extension holes, and the lifting strip can form the ring cover structure with this finger extension hole edge, or two lifting strips, and its both ends are fixed in two in a plurality of finger extension holes, and two lifting strips can form the ring cover structure with two finger extension hole edges respectively. When the gloves with sweat on the hands are not easy to be detached, the lifting strips can effectively help to detach the gloves.

In another exemplary embodiment of the athletic protective glove, the glove body has a dorsal surface capable of covering the back of a wearer's hand. The back of the hand is provided with a thumb root area, and the water absorption layer is covered on the thumb root area or is the water absorption layer. The water absorption layer solves the problem that the sweat on the forehead flows to influence the sight in the movement.

Drawings

FIG. 1 is a schematic diagram illustrating the palm side structure of an athletic protective glove.

Fig. 2 is a schematic view for explaining a palm surface structure when the athletic protective glove is worn.

FIG. 3 is a schematic diagram illustrating the configuration of the palm side of an athletic protective glove when worn.

Fig. 4 is a schematic view for explaining the wearing of a sports protective glove holding barbell.

Fig. 5 is a schematic view for explaining the wearing of a sports protective glove holding barbell.

Fig. 6 is a schematic structural diagram for explaining the arrangement of the anti-slip layer ridges in the palm area of the athletic protective glove.

Fig. 7 is a schematic view for explaining the convex arris section of the athletic protective glove.

Fig. 8 is a schematic view for explaining the structure of the back surface of a sports anti-hand protector.

Description of the reference symbols

10 palm side

11 bottom layer of palm center

12 finger base layer

13 bottom layer of palm root

20 back of hand

21 finger outlet hole

22 Water-absorbing layer

30 area of palmar center

31 finger base region

32 root area of palm

33 thumb root area

40 barbell

50 first partial palm layer

51 second partial palm layer

52 layer of the palm of the thumb

53 four-finger partial palm center layer

54 first partial root layer

55 second part of palm root layer

60 palm center region anti-skid layer

61 finger root region anti-slip layer

62 palm root zone anti-skid layer

70 lifting strip

71 lifting strip

80 convex edge

81 convex arris

82 convex edge

83 convex edge

84 convex arris

85 convex edge

90 gap

A first direction

B second direction

C third direction

D first setting center

E second setting center

Detailed Description

In order to clearly understand the technical features, objects, and effects of the present invention, embodiments of the present invention will be described with reference to the accompanying drawings, wherein the same reference numerals in the drawings denote the same or similar components.

"exemplary" means "serving as an example, instance, or illustration" herein, and any illustration, embodiment, or steps described as "exemplary" herein should not be construed as a preferred or advantageous alternative.

For the sake of simplicity, the drawings only schematically show the parts relevant to the present exemplary embodiment, and they do not represent the actual structure and the true scale of the product.

FIG. 1 is a schematic diagram illustrating the palm side structure of an athletic protective glove. As shown in FIG. 1, in an exemplary embodiment of the athletic protective glove of the present invention, the athletic protective glove includes a glove body having a palm surface 10 that covers the palm of a wearer's hand. The palm surface 10 includes a palm region 30, a plurality of finger base regions 31 and a palm base region 32. As shown in FIG. 2, the athletic protective glove includes a palm region slip resistant layer 60, a plurality of finger root region slip resistant layers 61 and a palm root region slip resistant layer 62.

As shown in fig. 1, the palm region 30 is located at the palm of the wearer. A plurality of finger base regions 31, such as the five finger regions in fig. 1, are adjacent the palm region 30 and are located in the direction of the palm region 30 toward each finger of the wearer. The heel region 32 is adjacent to the palm region 30 and is located in the palm region 30 in a direction toward the wrist of the wearer. The main fabric of the palm surface 10 is 'superfine fiber reinforced leather' made of polyurethane as a main component, and the fabric is wear-resistant, breathable, ageing-resistant, and has strong flexibility and good environmental protection effect. The anti-slip layer structure is mainly made of anti-slip silica gel, and the anti-slip silica gel is non-adhesive, soft in texture and good in anti-slip performance.

Fig. 2 and 3 are schematic views for explaining a palm surface structure when the athletic protective glove is worn. As shown in fig. 1, 2 and 3, the anti-slip layer 60 in the palm area is adhered and fixed on the palm area 30, and has a palm use surface facing away from the palm area 30. As shown in fig. 2 and 6, a plurality of convex ridges 80, 81, 82, 83, 84, 85 are arranged and uniformly distributed on the using surface of the palm part. The plurality of ridges 80, 81, 82, 83, 84, 85 are concentric arcs about a set center (which may be one or more).

The plurality of finger base region anti-slip layers 61 are respectively attached and fixed to the plurality of finger base regions 31, and have a finger base use surface in a direction away from the finger base regions 31. The using surface of the finger root is provided with a plurality of convex ridges (the arrangement mode of the convex ridges is the same as or similar to that of the convex ridges in the palm area), and the plurality of convex ridges are a plurality of concentric arcs around a set center (one or more than one set center).

The palm root region antiskid layer 62 is adhered and fixed to the palm root region 32, and has a palm root use surface facing away from the palm root region 32. The palm root part using surface is provided with a plurality of convex edges (the arrangement mode of the convex edges is the same as or similar to that of the convex edges in the palm center area), and the plurality of convex edges are a plurality of concentric arc lines which are wound around a set center (the set center can be one or more). Above-mentioned design of palm center structure utilizes bionics principle to arrange the mode of arranging of anti-skidding silica gel according to the structure of human fingerprint, imitates animal palm line in the appearance, and the increase roughness of very big degree improves frictional force.

Referring to fig. 1, 2 and 3, it can be seen that the anti-slip layer 60 in the palm region includes a first partial palm layer 50 and a second partial palm layer 51. A gap 90 of a predetermined width is left between the first partial core layer 50 and the second partial core layer 51. The first partial core layer 50 is adjacent to the plurality of finger root region anti-slip layers 61 and the second partial core layer 51 is adjacent to the palm root region anti-slip layer 62. First partial palmar center layer 50 includes a thumb partial palmar center layer 52 and a four-digit partial palmar center layer 53. The thumb portion center layer 52 faces the thumb in the plurality of base finger regions 31. The four-finger partial palm layer 53 is oriented in a four-finger direction in the plurality of finger base regions 31.

In another exemplary embodiment of the athletic protective glove of the present invention, as shown in fig. 1 and 3, the heel region slip resistant layer 62 includes a first portion heel layer 54 and a second portion heel layer 55. A gap 90 having a predetermined width is left between the first partial heel layer 54 and the second partial heel layer 55. The first portion of the palm layer 54 is adjacent the thumb region of the plurality of finger base regions 31. The arrangement of the palm surface anti-slip layer is more fit with the bending condition of the palm of the human body by the design, and the fit degree of the glove and the palm is increased.

Fig. 4 and 5 are schematic views for explaining the wearing of a sports protective glove hand-held barbell. As shown in fig. 4 and 5, when barbell 40 is held by hands of the sports protective glove, the anti-slip layer of the palm part wraps the barbell from the three directions of the first direction a, the second direction B and the third direction C, so that the contact area between the anti-slip layer and the barbell 40 is increased, the anti-slip property of the anti-slip layer is fully exerted, and the risk of barbell slipping due to the reduction of the friction force caused by palm sweating in sports is effectively avoided.

Fig. 6 is a schematic diagram for explaining the arrangement of the anti-slip layer ridges in the palm area of the athletic protective glove. As shown in fig. 6, the plurality of ridges 80, 81, 82, 83, 84, 85 of the metacarpal-portion use surface are concentric arcs about a set center (e.g., the set center of the four-finger-portion metacarpal layer 53 is a first set center D and a second set center E). The plurality of ridges of one of the plurality of finger use surfaces, which are arranged in the same or similar manner as the palm region ridges, are concentric arcs about one or more set centers. The plurality of convex ridges of the sole root using surface (the arrangement mode of the convex ridges is the same as or similar to the arrangement mode of the convex ridges of the palm area) are a plurality of concentric arc lines around one or more set centers. The grains are arranged in a cross mode according to one or more set centers, and therefore the stable anti-skidding effect is achieved from all directions.

Fig. 7 is a schematic view for explaining the convex arris section of the sports protective glove, and the palm part using surface comprises a palm bottom layer 11, a finger root bottom layer 12 and a palm root bottom layer 13. As shown in fig. 7, the palm bottom layer 11 is disposed between the ridges 80, 81, 82, 83, 84, 85, or the palm bottom layer 11 is disposed on a side of the ridges 80, 81, 82, 83, 84, 85 facing the palm area 30. As shown in fig. 4, the base layer 12 is disposed on a side of the plurality of ridges (the ridge is disposed in the same manner or in a manner similar to the ridge disposed in the palm region) facing the finger base region 31. The palm root bottom layer 13 is disposed on one side of the plurality of ridges (the ridge disposition manner is the same as or similar to the above-mentioned palm center area ridge disposition manner) facing the palm root area 32.

In the present exemplary embodiment, the width of the palm-center bottom layer 11 is 1mm, and the width of the ridges is 1.2 mm. The bottom layer 11 of the palm center and the convex edges form a height difference which can increase the friction force when the anti-skid layer is contacted with an apparatus. The palm center bottom layer 11 can also reinforce the arrangement structure of the convex edges, so that the palm center bottom layer is not easy to deform.

Fig. 8 is a schematic view illustrating the dorsal surface of a sports anti-hand glove, as shown in fig. 5 and 8, the glove body having a dorsal surface 20 capable of covering the back of a wearer's hand. The dorsal surface 20 has a thumb root region 33, the thumb root region 33 overlying the absorbent layer 22 or being the absorbent layer 22. The water absorbing layer 22 is towel cloth, the area of the towel cloth covers most of the thumb range, sweat on the forehead can be conveniently wiped off, and the problem that the sweat on the forehead flows to affect the sight line in movement is solved. The finger end of the athletic protective glove has a plurality of finger access holes 21. As shown in fig. 3, the lifting straps 70, 71 are fixed at both ends thereof to two of the plurality of finger-extending holes 21, and the lifting straps 70, 71 can form a loop structure with the edge of the finger-extending hole. The problem that gloves are not easy to detach due to excessive sweating in sports is solved, and the convenience of glove detachment is improved.

It should be understood that although the present description has been described in terms of various embodiments, not every embodiment includes only individual features, which are described herein for clarity purposes only, and those skilled in the art will recognize that the embodiments described herein can be combined as a whole to form other embodiments as would be understood by those skilled in the art.

The above list of details is only for the practical implementation of the present invention, and they are not intended to limit the scope of the present invention, and all equivalent implementations or modifications that do not depart from the technical spirit of the present invention should be included in the scope of the present invention.

Claims (8)

1. A sports protective glove is characterized in that the glove comprises,

a glove body having a palm surface capable of covering the palm of a wearer's hand; the palm surface is provided with a plurality of finger holes,

a palm region capable of being located in a palm position of a wearer;

a plurality of finger root regions adjacent to the palm region, the plurality of finger root regions being located in the palm region in a direction towards each finger of the wearer; and

a base palm region adjacent to said palm region, said base palm region being located in said palm region in a direction toward the wrist of the wearer;

the anti-skid layer in the palm area is fixedly attached to the palm area, a palm part using surface is arranged in the direction of the anti-skid layer in the palm area, which deviates from the palm area, a plurality of convex ridges are arranged and uniformly distributed on the palm part using surface, and the convex ridges are a plurality of concentric arc lines around which a center is arranged;

the anti-skid layer comprises a plurality of finger root area anti-skid layers, wherein the finger root area anti-skid layers are respectively attached and fixed to the finger root areas, the direction of the finger root area anti-skid layer departing from the finger root areas is provided with a finger using surface, a plurality of convex ridges are arranged on the finger using surface and uniformly distributed on the finger using surface, and the convex ridges are a plurality of concentric arcs around which a center is arranged; and

a palm root regional skid resistant course, palm root regional skid resistant course adheres to and is fixed in palm root region, palm root regional skid resistant course deviates from the orientation in palm root region has the face of use of palm root, it is stupefied that many of the face of use of palm root setting and equipartition are protruding, many are stupefied for many concentric arcs around setting up the centering.

2. The athletic protective glove of claim 1, wherein the palmar region slip resistant layer comprises,

a first partial core layer and a second partial core layer;

a gap with a set width is reserved between the first part of palm center layer and the second part of palm center layer, the first part of palm center layer is adjacent to the anti-slip layers of the plurality of finger root areas, and the second part of palm center layer is adjacent to the anti-slip layers of the palm root areas.

3. The athletic protective glove of claim 2, wherein the first partial palmar layer is divided into a thumb partial palmar layer and a four finger partial palmar layer; the thumb portion palm layer faces a thumb in the plurality of finger root regions, and the four-finger portion palm layer faces a four-finger portion in the plurality of finger root regions.

4. The athletic protective glove of claim 1, wherein the heel area slip resistant layer comprises,

a first partial palm root layer and a second partial palm root layer;

a gap with a set width is reserved between the first palm root layer and the second palm root layer, and the first palm root layer is adjacent to the thumb areas of the plurality of finger root areas.

5. The athletic protective glove of claim 1, wherein the plurality of ridges of the palm center use surface are concentric arcs about two set centers;

the plurality of ridges of one of the plurality of finger use surfaces are a plurality of concentric arcs around two set centers;

the plurality of convex ridges on the using surface of the palm root part are a plurality of concentric arcs around two set centers.

6. The athletic protective glove of claim 1, wherein the palm center use surface further comprises:

the palm bottom layer is arranged among the convex ridges or arranged on one side of the convex ridges facing the palm area;

the bottom layer of the finger root is arranged among the convex ridges, or the bottom layer of the palm center is arranged on one side of the convex ridges facing to the areas of the finger root;

a palm root bottom, palm root bottom set up in between many protruding stupexes, or palm root bottom set up in many protruding stupexes orientation one side in palm root region.

7. The athletic protective glove of claim 1, wherein the finger end of the athletic protective glove has a plurality of finger exit holes:

the athletic protective glove further includes:

a lifting bar, both ends of which are fixed to one of the finger-extending holes, the lifting bar being capable of forming a loop structure with the edge of the finger-extending hole, or

Two lifting strips, its both ends are fixed in two of a plurality of finger stretches out the hole, two lifting strips can respectively with two finger stretches out the hole edge and forms the ring cover structure.

8. The athletic protective glove of claim 1, wherein the glove body has a dorsal surface capable of covering the back of a wearer's hand, the dorsal surface having a thumb root region, the thumb root region being one of covered with and absorbent.

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