CN220631163U - Wear-proof horse art glove - Google Patents

Abstract

The utility model provides an anti-abrasion horse art glove which comprises a palm sleeve and a finger sleeve arranged on the palm sleeve; the finger sleeve comprises five finger sleeves, namely a thumb sleeve, an index finger sleeve, a middle finger sleeve, a ring finger sleeve and a little finger sleeve, wherein the side surface of each finger sleeve is provided with at least one finger seam splicing edge, the two end surfaces of the thumb sleeve and the index finger sleeve which are contacted with each other and the finger seam splicing edges on the two end surfaces of the ring finger sleeve and the little finger sleeve which are contacted with each other are provided with protective layers, the protective layers are arranged on one side in direct contact with fingers, and the thickness of the protective layers is gradually reduced from the contact position of the protective layers with the finger seam splicing edges to two sides; each finger stall is provided with anti-slip particles. The protective layer of the utility model avoids the direct connection between fingers and the finger seam splicing edges of the horse rider during riding, thereby avoiding the compression and friction of the finger seam splicing edges to the fingers of the horse rider, and further avoiding the damage of gloves and reins to the fingers during riding; the anti-slip particles can improve the gripping fastness of the reins by a rider and prevent the reins from slipping off during the riding process.

Description

Wear-proof horse art glove

Technical Field

The utility model relates to the technical field of protective equipment, in particular to an anti-abrasion horse art glove.

Background

As shown in fig. 1 (back side) and fig. 2 (palm side), the sides of the thumb sleeve, index finger sleeve, middle finger sleeve, ring finger sleeve and little finger sleeve of the conventional horseart glove are all connected together in a splicing manner, so that each finger sleeve has different numbers of finger seam splicing edges. When a rider holds the reins, the reins is usually passed through between the thumb and the index finger and then wound between the ring finger and the little finger, and the reins is held by the thumb and the index finger and the ring finger and the little finger. The reins needs to be gripped by a rider in the riding process, and friction can be generated between the reins and the glove continuously in the riding process, so that the thumb sleeve, the index finger sleeve, the ring finger sleeve and the finger seam splicing edges of the small finger sleeve, which are contacted with the reins, can rub the hand, and particularly, the friction force between the finger seam splicing edges of the index finger sleeve and the ring finger sleeve, which are contacted with the reins, and the hand is stronger, so that the hand is more easy to break. In order to avoid the phenomenon, a rider usually applies an adhesive bandage to fingers in advance for protection, but the adhesive bandage has poor air permeability and is not suitable for long-term use, and meanwhile, the protection measures cannot fundamentally solve the problem.

In view of the foregoing, there is a need for an improved anti-wear mare glove that solves the above-mentioned problems.

Disclosure of Invention

The utility model aims to provide an anti-abrasion horse art glove, wherein protective layers are arranged at the joint edges of the two end surfaces of a thumb sleeve and an index finger sleeve which are contacted with each other and the joint edges of a ring finger sleeve and a little finger sleeve which are contacted with each other, so that the direct contact between fingers of a rider and the joint edges of the fingers during horse riding is avoided, the joint edges of the fingers are prevented from pressing and rubbing the fingers of the rider, and further the damage of the fingers caused by the gloves and a reins during horse riding is avoided.

In order to achieve the above purpose, the utility model provides an anti-wear horse art glove, which comprises a palm sleeve and a finger sleeve arranged on the palm sleeve; the finger sleeve comprises five finger sleeves, namely a thumb sleeve, an index finger sleeve, a middle finger sleeve, a ring finger sleeve and a little finger sleeve, wherein the side surface of each finger sleeve is provided with at least one finger seam splicing edge, protective layers are arranged at the finger seam splicing edges on two end surfaces of the thumb sleeve and the index finger sleeve, which are in contact with each other, and on the two end surfaces of the ring finger sleeve and the little finger sleeve, and are arranged at one side in direct contact with fingers, and the thickness of the protective layers is gradually reduced from the contact part of the protective layers with the finger seam splicing edges to two sides; each finger stall is provided with anti-slip particles.

As a further improvement of the utility model, the length of the protective layer along the direction of the finger seam splicing edge is not less than 2/3 of the length of the finger seam splicing edge; the protective layer is arranged in the middle of the finger joint splicing edge.

As a further improvement of the utility model, the thickness of the contact part of the protective layer and the finger seam splicing edge is 0.8-1.0cm, and the thickness of the two sides is 0.3-0.5cm.

As a further improvement of the utility model, the protective layer is sewn or adhered on the inner side of the fingerstall.

As a further improvement of the wear-resistant horse art glove, thickened wear-resistant leather is arranged on the outer sides of the contact positions of the index finger sleeve, the middle finger sleeve and the ring finger sleeve with the palm sleeve.

As a further improvement of the utility model, the back side of the palm sleeve is provided with ventilation holes.

As a further improvement of the utility model, a fastening component for preventing the anti-wear horse art glove from falling off is arranged at the wrist of the anti-wear horse art glove.

As a further improvement of the utility model, the fastening component comprises a fastening belt sewed with the anti-wear horseshoe glove, a magic tape surface arranged on the fastening belt and a magic tape hook surface arranged on the palm sleeve wrist.

As a further improvement of the utility model, the inner side of the anti-wear horse art glove is provided with inner reinforcing layers which are in one-to-one correspondence with the thickened wear-resistant leather.

As a further improvement of the present utility model, the number of the ventilation holes is not less than 20.

The beneficial effects of the utility model are as follows:

(1) According to the wear-resistant horse art glove, the protective layers are arranged at the joint edges of the two end faces, which are in contact with each other, of the thumb sleeve and the index finger sleeve and the joint edges of the two end faces, which are in contact with each other, of the ring finger sleeve and the little finger sleeve, when a rider passes the reins between the thumb sleeve and the index finger sleeve and then winds the joint edges between the ring finger sleeve and the little finger sleeve, the existence of the protective layers prevents fingers from being in direct contact with the joint edges of the fingers, particularly the joint edges of the fingers in direct contact with the reins, so that the joint edges of the fingers cannot press and rub the fingers of the rider when the rider tightens the reins, and damage to the fingers is avoided. Furthermore, the protective layer is of a structure with a thick middle and thin two sides, and firstly, the structure does not greatly influence the thickness of the glove, so that the practicability of the glove is influenced; secondly, as the edge part of the protective layer is thin, the friction degree of the newly spliced edge formed by the edge part of the protective layer and the finger contact is small and can be ignored; meanwhile, compared with the original finger seam splicing edge, the position of the new splicing edge is offset, and at the moment, the friction force between the new splicing edge and the reins is small (the stress position changes), so that the damage to fingers is further reduced.

(2) According to the wear-resistant horse art glove provided by the utility model, the anti-slip particles are arranged on the palm side and the back side of each finger glove, so that the gripping firmness of a horse rider on the reins can be improved, the reins slipping in the horse riding process can be prevented, and the personal safety of the horse rider can be ensured.

Drawings

Fig. 1 is a schematic view of the back side of a prior art equine glove.

Fig. 2 is a block diagram of the palm side of a prior art equine glove.

Fig. 3 is a block diagram of the back side of the anti-wear horseshoe glove of the present utility model.

Fig. 4 is a block diagram of the palm side of the anti-wear horseshoe glove of the present utility model.

Fig. 5 is a plan view of a finger seam splice edge and protective layer.

Fig. 6 is a plan view of two finger seam splice ribs and a protective layer.

Fig. 7 is a perspective view of the palm side of a rider wearing the anti-wear horse art glove of the present utility model.

Reference numerals

1-palm sleeve; 2-finger stall; 3-finger seam splicing edges; 4-a protective layer; 5-non-slip particles; 6, thickening the wear-resistant leather; 7-ventilation holes; 8-a fastening assembly; 9-thumb splicing edges; 21-thumb sleeve; 22-an index finger sleeve; 23-middle finger sleeve; 24-ring finger stall; 25-little finger sleeve; 81-fastening straps; 82-magic tape; 83-hook surface.

Detailed Description

In order to make the objects, technical solutions and advantages of the present utility model more apparent, the present utility model will be described in detail with reference to the accompanying drawings and specific embodiments.

It should be noted that, in order to avoid obscuring the present utility model due to unnecessary details, only structures and/or processing steps closely related to aspects of the present utility model are shown in the drawings, and other details not greatly related to the present utility model are omitted.

In addition, it should be further noted that 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.

Referring to fig. 3 to 6, the present utility model provides an anti-wear horse art glove, which comprises a palm sleeve 1 and a finger sleeve 2 arranged on the palm sleeve 1. The finger stall 2 comprises five finger stalls, namely a thumb stall 21, an index finger stall 22, a middle finger stall 23, a ring finger stall 24 and a little finger stall 25, wherein the side surface (the end surface contacted by adjacent fingers of the side surface) of each finger stall is provided with at least one finger seam splicing edge 3 (as shown in figure 3, the finger seam splicing edge 3 of the thumb stall 21 is an edge thickening part, one side of the thumb stall 21 far away from the glove possibly does not have the finger seam splicing edge 3), two end surfaces contacted by the thumb stall 21 and the index finger stall 22 and the finger seam splicing edge 3 on the two end surfaces contacted by the ring finger stall 24 and the little finger stall 25 are provided with protective layers 4 (namely, the finger seam splicing edge 3 on one side of the thumb stall 21 close to the index finger stall 22, the finger seam splicing edge 3 on one side of the index finger stall 22 close to the little finger stall 24 and the finger seam splicing edge 3 on one side of the little finger stall 25 are respectively provided with the protective layers 4), and the protective layers 4 are gradually reduced from the positions contacted by the two sides of the protective layers; the palm side and the back side of each finger glove are provided with anti-slip particles 5. So set up, at first, when the rider passes the reins between thumb stall 21 and index finger stall 22, then wind to between ring finger stall 24 and little finger stall 25, the existence of the protective layer 4, have avoided the finger to contact with the splice edge 3 of the seam directly, therefore, when the rider tightens the reins, the splice edge 3 of the seam will not rub the rider's finger, has avoided the injury to the finger; secondly, the protective layer 4 is of a structure with a thick middle and thin two sides, so that the thickness of the glove (too thick thickness can influence the holding feel of a rider on the reins, and further influence the riding training process) is not greatly influenced, and the practicability of the glove is influenced; and the arrangement of the anti-skid particles 5 can improve the grasping firmness of the reins by the rider, prevent the reins from slipping off in the riding process and ensure the personal safety of the rider. In addition, the protective layer 4 is arranged to be of a structure with a thick middle and thin two sides, when the edge of the protective layer 4 is contacted with the fingerstall 2 to form a new splicing edge, the friction degree of the new splicing edge to fingers is small and can be ignored because the edge of the protective layer 4 is thin; meanwhile, compared with the original finger seam splicing edge 3, the position of the new splicing edge is offset, and at the moment, the friction force between the new splicing edge and the reins is small (the stress position changes), so that the damage to fingers is further reduced.

Specifically, the length of the protective layer 4 along the direction of the finger seam splicing edge 3 is not less than 2/3 of the length of the finger seam splicing edge 3 (i.e., the length extending to both sides along the direction of the Y axis in fig. 5 is not less than 2/3 of the length of the finger seam splicing edge 3), and the protective layer 4 is disposed in the middle of the finger seam splicing edge 3. In the horse riding process, the part of the joint splicing edge 3, which is contacted with the reins, is usually pressed and rubbed against the finger more greatly, and the finger at the part is worn more easily, so that the arrangement can effectively avoid the direct contact between the finger at the part and the joint splicing edge 3, thereby avoiding the finger injury; meanwhile, the influence on the thickness of the wear-resistant horse art glove can be reduced as much as possible, and the holding feeling of a rider on a reins can not be influenced basically. It should be understood by those skilled in the art that, depending on the stress level of each finger during riding, the protective layers 4 of different finger sleeves may be disposed at the middle, upper, or lower positions of the finger seam splicing edge 3, which are all within the scope of the present utility model.

At the same time, the person skilled in the art will understand that the length of the protective layer 4 can be freely set. In some embodiments, the length of the protective layer 4 can be increased appropriately until the entire seam splicing rib 3 is wrapped without affecting the gripping feel of the reins by the rider, further improving comfort.

The thickness of the contact part of the protective layer 4 and the finger seam splicing edge 3 is 0.8-1.0cm (namely, the thickness of the part A in fig. 5 is 0.8-1.0 cm), and the thickness of the two sides is 0.3-0.5cm (namely, the thickness of the edge part extending to the two sides along the X axis in fig. 5 is 0.3-0.5 cm). The finger stall splicing edges 3 are wrapped, the thickness of the finger stall 2 is not greatly influenced, and the practicability of the finger stall is maintained to the greatest extent; meanwhile, the friction degree of the newly spliced edges formed by the edge parts of the protective layer 4 and the fingerstall 2 on the fingers is small and can be ignored.

The protective layer 4 is sewn or glued to the inside of the finger cuff 2. When the protective layer 4 is sewn on the inner side of the fingerstall 2, the used suture can be a thinner suture, so that the influence of the suture on the fingers is avoided; when the protective layer 4 is adhered to the inner side of the fingerstall 2, the protective layer 4 can be adhered to the inner side of the fingerstall 2 by hot pressing, and the softness of the glove is not affected in the process.

The protective layer 4 is made of pure cotton or breathable sponge. So set up, can not influence the gas permeability of horse art gloves. When the protective layer 4 is made of breathable sponge, the thickness of the protective layer 4 can be properly thickened, and when a rider wears the horsework glove, the breathable sponge can be compressed, so that the holding feeling of the rider on the reins is not affected.

In order to further improve the comfort of the glove, on the premise of not affecting the holding feeling of a rider on the reins, a protective layer 4 is arranged on the positions of the finger seam splicing edge 3 of the thumb sleeve 21, the finger seam splicing edge 3 of the index finger sleeve 22, the finger seam splicing edge 3 of the index finger sleeve 21, the finger seam splicing edge 3 of the ring finger sleeve 24 and the finger seam splicing edge 3 of the ring finger sleeve 25, and the finger seam splicing edge 3 of the ring finger sleeve 24, and other finger seam splicing edges 3 can also be optionally provided with the protective layer 4. It will be appreciated by those skilled in the art that the location and length of the protective layer 4 at the remaining finger seam splicing edge 3 may be freely set according to the actual circumstances.

In other embodiments, the protective layer 4 may be provided at the thumb splice edge 9 to improve comfort without affecting the feel of the rider's grip on the reins.

The number and the position of the finger seam splicing edges 3 of different horseshoes are different, and those skilled in the art will understand that the protective layer 4 is arranged at the finger seam splicing edges 3 of different horseshoes within the protection scope of the present application.

When the end face contacted by adjacent fingers of the anti-wear horse-shaped surgical glove is provided with one finger seam splicing edge 3 (as shown in fig. 5), a piece of protective layer 4 is arranged, at this time, the width of the protective layer 4 (i.e. the width extending to two sides along the X-axis direction in fig. 5) is not required to be too wide, and the width extends to two sides along the finger seam splicing edge 3 by 1-3 cm. When two or more finger seam splicing edges 3 are arranged on the end surfaces contacted by adjacent fingers of the anti-wear horse-shaped surgical glove in a connecting way, a piece of protective layer 4 can be arranged at each finger seam splicing edge 3; alternatively, a piece of protective layer 4 may be disposed at the positions of the plurality of finger seam splicing edges 3, as shown in fig. 6, and two finger seam splicing edges 3 are taken as an example for illustration, and the thicknesses of the protective layers 4 at this time are set at intervals according to the structure of thin thickness, so that the thickness of the protective layer 4 contacting with the seam splicing edges 3 is ensured to be thicker, that is, the thickness of the protective layer 4 at the positions B and C in fig. 6 is thicker. When the end surfaces of the anti-wear horse art glove, which are contacted by adjacent fingers, are connected with two or more finger seam splicing edges 3, the protective layer 4 is arranged separately or integrally, and can be designed according to the fake making distance of the finger seam splicing edges 3, so that the holding feeling of a rider on a reins is not influenced.

In some embodiments, the anti-slip particles 5 are raised anti-slip silicone particles, so arranged as to enhance the gripping firmness of the reins by the rider.

In order to further increase the gripping firmness of the reins by the rider, in other embodiments the palm side of the palm sleeve 1 is also provided with anti-slip particles 5.

The contact parts of the index finger sleeve 22, the middle finger sleeve 23 and the ring finger sleeve 24 and the palm sleeve 1 are respectively provided with a thickened wear-resistant leather 6 for prolonging the service life of the wear-resistant horse art glove. The thickened wear-resistant leather 6 is made of cowhide material, so that the air permeability of the cowhide material is good, and the air permeability is not influenced while the wear resistance is increased. In order to further improve the air permeability of the thickened wear-resistant leather 6, small holes can be arranged on the thickened wear-resistant leather 6.

A lining reinforcing layer (not shown) of a sponge material is provided in the interior corresponding to the thickened wear-resistant skin 6 for improving comfort. Namely, the thickened wear-resistant leather 6 is arranged on the outer side of the anti-wear horse art glove, and the inner reinforcing layer is arranged on the inner side of the anti-wear horse art glove and is in direct contact with fingers.

In other embodiments, the contact between the thumb sleeve 21 and the little finger sleeve 25 and the palm sleeve 1 is also provided with a thickened wear-resistant leather 6, and the inner part corresponding to the thickened wear-resistant leather 6 is also provided with an inner reinforcing layer made of sponge material.

The back side of the palm sleeve 1 is provided with an air hole 7 for ventilation. The number of the ventilation holes 7 is not less than 20. The arrangement of the ventilation holes 7 can further increase the comfort of the rider.

The wrist of the anti-wear horse art glove is provided with a fastening component 8 for preventing the anti-wear horse art glove from falling off. Specifically, the fastening assembly 8 includes a fastening strap 81 sewn with the anti-wear horseshoe glove, a hook-and-loop surface 82 provided on the fastening strap 81, and a hook-and-loop surface 83 provided on the wrist of the palm cuff 1. Through the interaction of the magic tape surface 82 and the magic tape hook surface 83, the wrist of the anti-abrasion horse glove can be tensioned according to the requirements of a rider, and the glove is prevented from falling off.

The back sides of the wear-resistant horse art glove (the back side of the palm sleeve 1 and the back side of the finger sleeve 2) are made of four-way elastic fabric, and can be stretched in any direction, so that the comfort level is further improved.

As shown in fig. 7, when a rider needs to ride a horse, the wear-proof horse art glove is worn first, and when the rider grasps the reins, the rider bends the hand, and the positions of the protective layers 4 arranged on the thumb sleeve 21 and the index finger sleeve 22 correspond to each other, and the reins is positioned between the thumb sleeve and the index finger sleeve; the positions of the protective layers 4 arranged on the ring finger sleeve 24 and the little finger sleeve 25 correspond to each other, and the reins is positioned between the ring finger sleeve and the little finger sleeve to play a protective role.

In summary, the anti-abrasion horse art glove is provided by the utility model, the protective layer is arranged at the joint edges of the finger joints on the two end surfaces of the thumb sleeve and the index finger sleeve which are contacted with each other and the two end surfaces of the ring finger sleeve and the little finger sleeve which are contacted with each other, so that the direct contact between the fingers of a rider and the joint edges of the finger joints during riding is avoided, the compression and friction of the joint edges of the finger joints to the fingers of the rider are avoided, and the damage of the glove and the reins to the fingers during riding is further avoided; the palm side and the back side of each finger stall are provided with anti-slip particles, and the existence of the anti-slip particles can improve the grasping firmness of a horse rider on the reins, prevent the reins from slipping off in the horse riding process and ensure the personal safety of the horse rider.

The above embodiments are only for illustrating the technical solution of the present utility model and not for limiting the same, and although the present utility model has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications and equivalents may be made thereto without departing from the spirit and scope of the technical solution of the present utility model.

Claims (10)

1. An anti-abrasion horse surgical glove comprises a palm sleeve and a finger sleeve arranged on the palm sleeve; the finger sleeve comprises five finger sleeves, namely a thumb sleeve, an index finger sleeve, a middle finger sleeve, a ring finger sleeve and a little finger sleeve, wherein the side surface of each finger sleeve is provided with at least one finger seam splicing edge; each finger stall is provided with anti-slip particles.

2. The anti-wear horseback glove of claim 1, wherein the length of the protective layer along the finger seam splicing edge direction is not less than 2/3 of the finger seam splicing edge length; the protective layer is arranged in the middle of the finger joint splicing edge.

3. The anti-wear horseglove of claim 2, wherein the thickness of the contact portion of the protective layer with the finger seam splicing edge is 0.8-1.0cm and the thickness of the two sides is 0.3-0.5cm.

4. The anti-wear horseglove of claim 2, wherein the protective layer is sewn or glued to the inside of the finger cuff.

5. The anti-wear horseglove of claim 1, wherein thickened wear-resistant leather is provided on the outer sides of the contact points of the index finger sleeve, the middle finger sleeve and the ring finger sleeve with the palm sleeve on the palm side of the anti-wear horseglove.

6. The anti-wear horseshoe glove of claim 1, wherein the dorsal aspect of the palm sleeve is provided with ventilation holes.

7. The anti-wear horse surgical glove according to claim 1, wherein a fastening assembly is provided at the wrist of the anti-wear horse surgical glove to prevent the anti-wear horse surgical glove from falling off.

8. The anti-wear horseshoe glove of claim 7, wherein the fastening assembly comprises a fastening strap sewn with the anti-wear horseshoe glove, a velcro surface disposed on the fastening strap, and a velcro hook surface disposed on the palm cuff wrist.

9. The anti-wear horse art glove according to claim 5, wherein the inner side of the anti-wear horse art glove is provided with an inner reinforcement layer in one-to-one correspondence with the thickened wear-resistant leather.

10. The anti-wear horseshoe glove of claim 6, wherein the number of ventilation holes is not less than 20.