CN107927958A - Slip-proof glove processing method and slip-proof glove - Google Patents

Abstract

The present invention relates to gloves technical field, more particularly to a kind of slip-proof glove processing method and slip-proof glove.Wherein, multiple liquid glue points are formed by launching liquid state colloid to glove bulk, multiple liquid glue points form multiple colloid salient points after curing, above-mentioned ejection can make multiple colloid salient points form at least one compact district, the particle diameter of colloid salient point in compact district is 0.1 1mm, and the distance in compact district per two neighboring colloid salient point is less than or equal to 1mm.Thus, the slip-proof glove with above-mentioned compact district is obtained.Middle particle diameter and spacing are all higher than for the distribution of colloid salient point of 1mm compared with the prior art, the present invention breaches traditional colloid stud bump making technique using ejection mode --- the obstruction that point pearl technique diminishes the particle diameter and spacing of colloid salient point, more tiny intensive colloid salient point can be processed, there is " frosted " texture, improve the frictional force of slip-proof glove, non-skid property is improved, and then makes the grip of user's acquisition bigger.

Description

Slip-proof glove processing method and slip-proof glove

Technical field

The present invention relates to gloves technical field, more particularly to a kind of slip-proof glove processing method and slip-proof glove.

Background technology

Labor protection gloves are essential protective articles during labourer's both hands are protected, and are used for people day Often in life and industrial production.Labor protection gloves are divided into a variety of species, wherein, the slip-proof glove application surface with antiskid function It is wider.Slip-proof glove is divided into that material is anti-skidding and anti-skidding two big classification of physics, and the gloves of common material antiskid generally include latex Wrinkle gloves, point modeling gloves, frosted gloves, foam gloves and point pearl gloves, wherein, the skid resistance of point pearl gloves is more than preceding four Kind gloves, point pearl gloves are by the pearl technique colloid salient point that formation rule is arranged on gloves, to increase non-skid property.In reality In the process of border, put pearl gloves in colloid salient point production method be by a bushing leak down liquid glue drip, formation Colloid salient point queueing discipline is neat, and particle diameter is typically larger than 1mm, and the distance between adjacent colloid salient point is more than 1mm.It is directed to Antiskid effect preferably puts pearl gloves at present, and still having further improves its non-skid property to strengthen the demand of user's grip, but It is that the processing method of colloid salient point in existing pearl gloves limits an improvement of the pearl gloves to non-skid property.

The content of the invention

(1) technical problems to be solved

In order to solve the above problem of the prior art, the present invention provides a kind of slip-proof glove for strengthening gloves non-skid property Processing method, and the slip-proof glove with more preferable non-skid property.

(2) technical solution

In order to achieve the above object, the main technical schemes that the present invention uses include：

The present invention provides a kind of slip-proof glove processing method, including：Stud bump making step：By liquid state colloid ejection to gloves Multiple liquid glue points are formed on body, multiple liquid glue points form multiple colloid salient points after curing, wherein, multiple colloid salient point shapes Into at least one compact district, the particle diameter of the colloid salient point in compact district is 0.1-1mm, per two neighboring colloid salient point in compact district Distance be less than or equal to 1mm.

According to the present invention, the height of the colloid salient point in compact district is 0.1-1mm.

According to the present invention, the height of the colloid salient point in compact district is 0.1-0.5mm.

According to the present invention, the palmar hand in glove bulk, on the inside of finger section and finger section end are respectively formed compact district.

According to the present invention, before stud bump making step, dipping process is carried out to glove bulk, on the surface of glove bulk One layer of liquid glue-line is formed, performs stud bump making step in the range of 15-30min after dipping process.

According to the present invention, in all compact districts the quantity summation of colloid salient point account for all colloid salient points quantity 70% with On.

According to the present invention, the particle diameter of each colloid salient point 2 in compact district is 0.1-0.8mm.

According to the present invention, the particle diameter of each colloid salient point 2 in compact district is 0.1-0.5mm.

According to the present invention, the particle diameter of the colloid salient point in other regions in addition to compact district is located in the range of 0.1-1mm.

According to the present invention, the particle diameter of the colloid salient point in other regions in addition to compact district is 0.1-0.8mm.

According to the present invention, the particle diameter of the colloid salient point in other regions in addition to compact district is 0.1-0.5mm.

According to the present invention, the height of the colloid salient point in other regions in addition to compact district is located in the range of 0.1-1mm.

According to the present invention, the height of the colloid salient point in other regions in addition to compact district is 0.1-0.5mm.

Another aspect of the present invention provides a kind of slip-proof glove, including glove bulk, and multiple glue are bonded with glove bulk Matter salient point, the liquid glue point that colloid salient point is formed by liquid state colloid ejection to glove bulk, which cures, to be formed, wherein, multiple colloids Salient point forms at least one compact district, and the particle diameter of the colloid salient point in compact district is 0.1-1mm, per two neighboring glue in compact district The distance of matter salient point is less than or equal to 1mm.

According to the present invention, the height of the colloid salient point in compact district is 0.1-0.5mm.

According to the present invention, the height of the colloid salient point in compact district is 0.1-1mm.

According to the present invention, the palmar hand in glove bulk, on the inside of finger section and finger section end are respectively formed compact district.

According to the present invention, the surface of glove bulk is glue-line.

According to the present invention, in all compact districts the quantity summation of colloid salient point account for all colloid salient points quantity 70% with On.

According to the present invention, the particle diameter of each colloid salient point 2 in compact district is 0.1-0.8mm.

According to the present invention, the particle diameter of each colloid salient point 2 in compact district is 0.1-0.5mm.

According to the present invention, the particle diameter of the colloid salient point in other regions in addition to compact district is located in the range of 0.1-1mm.

According to the present invention, the particle diameter of the colloid salient point in other regions in addition to compact district is 0.1-0.8mm.

According to the present invention, the particle diameter of the colloid salient point in other regions in addition to compact district is 0.1-0.5mm.

According to the present invention, the height of the colloid salient point in other regions in addition to compact district is located in the range of 0.1-1mm.

According to the present invention, the height of the colloid salient point in other regions in addition to compact district is 0.1-0.5mm.

(3) beneficial effect

The beneficial effects of the invention are as follows：

In the slip-proof glove processing method of the present invention, it is convex that multiple colloids are formed by launching liquid state colloid to glove bulk Point, can make multiple colloid salient points form at least one compact district, and the particle diameter of the colloid salient point in compact district is 0.1-1mm, close Distance in collection area per two neighboring colloid salient point is less than or equal to 1mm.Middle particle diameter and spacing are all higher than 1mm compared with the prior art Colloid salient point distribution for, the present invention using ejection mode breaches traditional colloid stud bump making technique --- put pearl technique The obstruction that particle diameter and spacing to colloid salient point diminish, can process more tiny intensive colloid salient point, there is " frosted " texture, The frictional force of slip-proof glove is improved, improves non-skid property, and then makes the grip of user's acquisition bigger.

In the slip-proof glove of the present invention, multiple colloid salient points are obtained by launching liquid state colloid to glove bulk, it is more A colloid salient point forms at least one compact district, and the particle diameter of the colloid salient point in compact district is 0.1-1mm, per adjacent in compact district The distance of two colloid salient points is less than or equal to 1mm.Middle particle diameter and spacing are all higher than the colloid salient point of 1mm compared with the prior art For distribution, the present invention breaches traditional colloid stud bump making technique using ejection mode --- and point pearl technique is to colloid salient point The obstruction that particle diameter and spacing diminish, can process more tiny intensive colloid salient point, have " frosted " texture, improve antiskid The frictional force of set, improves non-skid property, and then makes the grip of user's acquisition bigger.

Brief description of the drawings

Fig. 1 is the structural representation for the slip-proof glove that the slip-proof glove processing method that following examples one provide machines Figure.

Fig. 2 is along the partial sectional view of A-A in Fig. 1.

【Reference numeral】

1：Glove bulk；2：Colloid salient point；3：Glue-line.

Embodiment

In order to preferably explain the present invention, in order to understand, below in conjunction with the accompanying drawings, by embodiment, to this hair It is bright to be described in detail.

Embodiment 1

A kind of slip-proof glove processing method is provided in the present embodiment, and Fig. 1 and Fig. 2 show processing through this embodiment Slip-proof glove made of method, for reference.

Specifically, the slip-proof glove processing method of the present embodiment includes stud bump making step, which includes： Multiple liquid glue points will be formed in liquid state colloid ejection to glove bulk 1, it is convex that multiple liquid glue points form multiple colloids after curing Point 2, wherein, ejection enables to multiple colloid salient points 2 to form at least one compact district, the colloid salient point 2 in the compact district Particle diameter is 0.1-1mm, and the distance in compact district per two neighboring colloid salient point 2 is less than or equal to 1mm.Wherein, the not office of colloid salient point 2 The circle of standard is limited to, therefore the particle diameter of colloid salient point 2 refers to the external diameter of a circle of colloid salient point 2；Colloid in compact district The size of salient point 2 be also not limited to it is identical, as long as therefore ejection so that the particle diameter of each colloid salient point 2 in compact district is 0.1- Any value in 1mm；The spacing of every two neighboring colloid salient point 2 in compact district is not limited to same value, therefore only Launch so that the distance of every two neighboring colloid salient point 2 in compact district is any value less than or equal to 1mm.

Thus, middle particle diameter and spacing are all higher than for the distribution of colloid salient point 2 of 1mm compared with the prior art, this implementation Example breaches traditional colloid stud bump making technique using ejection mode --- and point pearl technique becomes the particle diameter and spacing of colloid salient point Small obstruction, can process more tiny intensive colloid salient point 2, have " frosted " texture, improve the frictional force of slip-proof glove, Non-skid property is improved, and then makes the grip of user's acquisition bigger.

It is possible and non-fully regular by launching the multiple colloid salient points 2 formed compared with the point pearl gloves of the prior art Neat arrangement (i.e. not vertical and horizontal regularly arranged as point pearl gloves), and launch the particle size of the colloid salient point 2 formed There may be a difference, and because being to cause colloid salient point 2 ejection there may be non-standard circular situation, it is also possible to have adjacent The situation that colloid salient point 2 links together occurs.And this irregular arrangement, particle diameter shape disunity, particle size disunity Multiple colloid salient points 2, non-skid property can be further improved.

Further, it is preferable that the particle diameter of each colloid salient point 2 in compact district is 0.1-0.8mm, it is further preferred that close Integrate the particle diameter of each colloid salient point 2 in area as 0.1-0.5mm.

In the present embodiment, the height of the colloid salient point 2 in compact district is 0.1-1mm, and the height of colloid salient point 2 is too low can Frictional force can be reduced, it is excessive, grasping shakiness is may result in, therefore the colloid that height is 0.1-1mm is formed in the present embodiment Salient point 2 can make user obtain stable grasping sense and improve frictional force.Preferably, the height of the colloid salient point 2 in compact district Spend for 0.1-0.5mm.

And the particle diameter of the colloid salient point 2 in other regions in addition to compact district can be also advantageously located in the range of 0.1-1mm.More Add preferably, the particle diameter of the colloid salient point 2 in other regions in addition to compact district is 0.1-0.8mm, it is further preferred that removing The particle diameter of the colloid salient point 2 in other regions beyond compact district is 0.1-0.5mm.Preferably, other areas in addition to compact district The height of the colloid salient point 2 in domain is 0.1-1mm, it is further preferred that the height of the colloid salient point 2 in other regions in addition to compact district Degree is preferably 0.1-1mm.

Further, in the present embodiment, the palmar hand in glove bulk 1, on the inside of finger section and finger section end are respectively formed Above-mentioned compact district, the quantity summation of colloid salient point 2 accounts for more than the 70% of the quantity of all colloid salient points 2 in all compact districts.Such as This, sets compact district in each main force part of glove bulk 1 and ensures the coverage of compact district, advantageously allow hand Set obtains a greater degree of skid resistance.Certainly, compact district may be formed at any part of glove bulk 1, be not limited to this implementation Shown in example.

Further, in the present embodiment, the ejection of above-mentioned liquid state colloid is carried out using ejection device, 1 set of glove bulk Fixed on fingerprint, ejection device is moved to launch to form liquid glue point in the diverse location of glove bulk 1.Specifically, Ejection device includes hairbrush and catch, and the elastic hair on hairbrush is stained with liquid state colloid, and the elastic hair with liquid state colloid is with hair Brush moved relative to catch, during movement, elastic hair is gradually curved after encountering catch, when elastic hair bend to cross gear After piece, elastic hair resets the elastic force produced and launches the liquid state colloid adhered to thereon onto glove bulk 1, thus completes above-mentioned add Ejection in work method.

More specifically, in the present embodiment, hairbrush is rotated along its own axis, it is provided with hairbrush along circumferential direction distribution Multiple rows of elasticity hair, often arranges and multiple elastic hairs is additionally provided with elastic hair, thus can form multiple liquid glue points at the same time.It is driven in hairbrush During dynamic rotation, elastic hair also follows hairbrush to rotate.It is overlapping due to being formed between elastic hair and catch when elastic hair is close to catch Region, elastic hair continue to follow hairbrush to be bent while rotation under catch effect, and hairbrush continues in rotary course, elastic hair from Catch is opened, using the elasticity and the rotating centrifugal force of hairbrush of elastic hair, liquid state colloid is ejected.Wherein, elastic hair can use Metallic fiber, natural fiber or synthetic fibers are made, in the present embodiment, the diameter of each elasticity hair between 0.1-1mm, Elastic staple length is between 2-30mm, in order to ensure elastic hair has enough elastic force by liquid state colloid bullet in reseting procedure Go out, it can be 0.5-4mm that the distance that catch extend into the Hookean region that elastic hair is formed, which is,.In addition, in use, can Manually to hairbrush upper liquid state colloid, the container for being contained with liquid state colloid can also be set in the lower section of hairbrush, positioned at hair The elastic hair of brush bottom is immersed in container, alternatively, feeder apparatus can be used to hairbrush upper liquid state colloid.

Liquid state colloid is launched on glove bulk 1 by above-mentioned ejection device, compared with the prior art in the processing of point pearl Process, can form more tiny close for the distribution for the colloid salient point 2 that middle particle diameter and spacing compared with the prior art are all higher than 1mm The colloid salient point 2 of collection, and the forming process of colloid salient point 2 is simplified, the processing cost of slip-proof glove is reduced, improves and adds Work efficiency rate.Further, since liquid state colloid is ejected by elastic force so that the deep enough gap of liquid state colloid particle energy of pop-up, it is right Webs, turning, gap and the rough position of glove bulk 1 can also form gluey salient point well.In addition, gluey salient point Mechanical snap is formed, strengthens liquid state colloid adhesive force.

Further, in the present embodiment, before stud bump making step, dipping process is carried out to glove bulk 1, in gloves The surface of body 1 forms one layer of liquid glue-line 3, after dipping process in the range of 15-30min, namely it is not complete in liquid glue-line 3 When absolutely dry, stud bump making step is performed, thus, the liquid glue-line 3 and liquid glue point not parched completely continue to do together It is dry, form glue-line 3 and colloid salient point 2.It so, it is possible the bonding degree of raising colloid salient point 2 and glove bulk 1.Certainly, this hair It is bright not limited to this, it can also be sprayed by the way of spraying on glove bulk 1 and form glue-line 3.Also, glue-line 3 can not be The outer surface of whole glove bulk 1 is formed, but can be as needed, it is located on the arbitrary region of glove bulk 1, i.e. glove bulk 1 can part surface be glue-line 3.

Embodiment 2

A kind of slip-proof glove is provided in the present embodiment, and slip-proof glove can also refer to shown in Fig. 1 and Fig. 2.

Specifically, the slip-proof glove of the present embodiment includes glove bulk 1, and it is convex that multiple colloids are bonded with glove bulk 1 Point 2, the liquid glue point that colloid salient point 2 is formed by liquid state colloid ejection to glove bulk 1, which cures, to be formed, wherein, multiple colloids Salient point 2 forms at least one compact district, and the particle diameter of the colloid salient point 2 in compact district is 0.1-1mm, per two neighboring in compact district The distance of colloid salient point 2 is less than or equal to 1mm.Wherein, colloid salient point 2 is not limited to the circle of standard, therefore colloid salient point 2 Particle diameter refers to the external diameter of a circle of colloid salient point 2；The size of colloid salient point 2 in compact district be also not limited to it is identical, therefore only Launch so that the particle diameter of each colloid salient point 2 in compact district is any value in 0.1-1mm；Every phase in compact district The spacing of adjacent two colloid salient points 2 is not limited to same value, as long as therefore ejection so that every two neighboring glue in compact district The distance of matter salient point 2 is any value less than or equal to 1mm.

Thus, middle particle diameter and spacing are all higher than for the distribution of colloid salient point 2 of 1mm compared with the prior art, this implementation Example breaches traditional colloid stud bump making technique using ejection mode --- and point pearl technique becomes the particle diameter and spacing of colloid salient point Small obstruction, can process more tiny intensive colloid salient point, have " frosted " texture, improve the frictional force of slip-proof glove, Non-skid property is improved, and then makes the grip of user's acquisition bigger.

It is possible and non-fully regular by launching the multiple colloid salient points 2 formed compared with the point pearl gloves of the prior art Neat arrangement (i.e. not vertical and horizontal regularly arranged as point pearl gloves), and launch the particle size of the colloid salient point 2 formed There may be a difference, and because being to cause colloid salient point 2 ejection there may be non-standard circular situation, it is also possible to have adjacent The situation that colloid salient point 2 links together occurs.And this irregular arrangement, particle diameter shape disunity, particle size disunity Multiple colloid salient points 2, non-skid property can be further improved.

Further, it is preferable that the particle diameter of each colloid salient point 2 in compact district is 0.1-0.8mm, it is further preferred that close Integrate the particle diameter of each colloid salient point 2 in area as 0.1-0.5mm.

Further, in the present embodiment, the height of the colloid salient point 2 in compact district is 0.1-1mm, the height of colloid salient point 2 Spend it is low may reduce frictional force, excessive, it is unstable to may result in grasping, therefore it is 0.1- that height is formed in the present embodiment The colloid salient point 2 of 1mm can make user obtain stable grasping sense and improve frictional force.Preferably, the colloid in compact district The height of salient point 2 is 0.1-0.5mm.

And the particle diameter of the colloid salient point 2 in other regions in addition to compact district can be also advantageously located in the range of 0.1-1mm.More Add preferably, the particle diameter of the colloid salient point 2 in other regions in addition to compact district is 0.1-0.8mm, it is further preferred that removing The particle diameter of the colloid salient point 2 in other regions beyond compact district is 0.1-0.5mm.Preferably, other areas in addition to compact district The height of the colloid salient point 2 in domain is 0.1-1mm, it is further preferred that the height of the colloid salient point 2 in other regions in addition to compact district Degree is preferably 0.1-1mm.

Further, in the present embodiment, the palmar hand in glove bulk 1, on the inside of finger section and finger section tip inside is equal Form above-mentioned compact district, in all compact districts the quantity summation of colloid salient point 2 account for the 70% of the quantity of all colloid salient points 2 with On.In this way, setting compact district in each main force part of glove bulk 1 and ensureing the coverage of compact district, be conducive to So that gloves obtain a greater degree of skid resistance.Certainly, compact district may be formed at any part of glove bulk 1, be not limited to Shown in the present embodiment.

Further, in the present embodiment, the processing method of above-mentioned colloid salient point 2 can be found in detailed in embodiment 1 retouch State, details are not described herein.

In addition, in the present embodiment, the surface of glove bulk 1 is glue-line 3, which can pass through dipping process or spraying Processing is formed, and colloid salient point 2 is bonded on glue-line 3.Certainly, in other embodiments of the invention, glue-line 3 can not be to be formed The outer surface of whole glove bulk 1, but can be as needed, it is located on the arbitrary region of glove bulk 1, i.e., glove bulk 1 can Part surface is glue-line 3.

Above content is only presently preferred embodiments of the present invention, for those of ordinary skill in the art, according to the present invention's Thought, there will be changes, this specification content should not be construed as to the present invention in specific embodiments and applications Limitation.

Claims (10)

1. A kind of 1. slip-proof glove processing method, it is characterised in that including：

   Stud bump making step：Multiple liquid glue points will be formed in liquid state colloid ejection to glove bulk, multiple liquid glue points cure After form multiple colloid salient points, wherein, the multiple colloid salient point forms at least one compact district, the colloid in the compact district The particle diameter of salient point is 0.1-1mm, and the distance in the compact district per two neighboring colloid salient point is less than or equal to 1mm.
2. 2. slip-proof glove processing method according to claim 1, it is characterised in that

   The height of colloid salient point in the compact district is 0.1-1mm, it is preferable that the height of the colloid salient point 2 in the compact district Spend for 0.1-0.5mm.
3. 3. slip-proof glove processing method according to claim 1, it is characterised in that

   On the inside of palmar hand, finger section in the glove bulk and finger section end is respectively formed the compact district.
4. 4. slip-proof glove processing method according to claim 1, it is characterised in that

   Before the stud bump making step, dipping process is carried out to the glove bulk, with the surface of the glove bulk One layer of liquid glue-line is formed, performs the stud bump making step in the range of 15-30min after dipping process.
5. 5. the slip-proof glove processing method according to any one of claim 1-4, it is characterised in that

   The quantity summation of colloid salient point accounts for more than the 70% of the quantity of all colloid salient points in all compact districts.

   The particle diameter of each colloid salient point 2 in the compact district is 0.1-0.8mm, it is preferable that each colloid in compact district is convex The particle diameter of point 2 is 0.1-0.5mm.

   The particle diameter of the colloid salient point 2 in other regions in addition to the compact district is located in the range of 0.1-1mm, it is preferable that removes The particle diameter of the colloid salient point 2 in other regions beyond compact district is 0.1-0.8mm, it is further preferred that its in addition to compact district The particle diameter of the colloid salient point 2 in his region is 0.1-0.5mm.

   The height of the colloid salient point 2 in other regions in addition to the compact district is located in the range of 0.1-1mm, it is preferable that removes The height of the colloid salient point 2 in other regions beyond compact district is 0.1-0.5mm.
6. 6. a kind of slip-proof glove, including glove bulk, are bonded with multiple colloid salient points on the glove bulk, its feature exists In, the liquid glue point that the colloid salient point is formed by liquid state colloid ejection to the glove bulk, which cures, to be formed, wherein, it is described Multiple colloid salient points form at least one compact district, and the particle diameter of the colloid salient point in the compact district is 0.1-1mm, described intensive Distance in area per two neighboring colloid salient point is less than or equal to 1mm.
7. 7. slip-proof glove according to claim 6, it is characterised in that

   The height of colloid salient point in the compact district is 0.1-1mm, it is preferable that the height of the colloid salient point 2 in the compact district Spend for 0.1-0.5mm.
8. 8. slip-proof glove according to claim 6, it is characterised in that

   On the inside of palmar hand, finger section in the glove bulk and finger section end is respectively formed the compact district.
9. 9. slip-proof glove according to claim 6, it is characterised in that

   The surface of the glove bulk is glue-line.
10. 10. according to the slip-proof glove any one of claim 6-9, it is characterised in that

    The quantity summation of colloid salient point accounts for more than the 70% of the quantity of all colloid salient points in all compact districts.

    The particle diameter of each colloid salient point 2 in the compact district is 0.1-0.8mm, it is preferable that each colloid in compact district is convex The particle diameter of point 2 is 0.1-0.5mm.

    The particle diameter of the colloid salient point 2 in other regions in addition to the compact district is located in the range of 0.1-1mm, it is preferable that removes The particle diameter of the colloid salient point 2 in other regions beyond compact district is 0.1-0.8mm, it is further preferred that its in addition to compact district The particle diameter of the colloid salient point 2 in his region is 0.1-0.5mm.

    The height of the colloid salient point 2 in other regions in addition to the compact district is located in the range of 0.1-1mm, it is preferable that removes The height of the colloid salient point 2 in other regions beyond compact district is 0.1-0.5mm.