FR2902979A1 - GANT ABLE TO BE HEATED BY THE USER'S BREATH - Google Patents

Abstract

The glove (1) is adapted to be heated by the breath of the user and comprises an outer layer (2) pierced with a through hole (6) on the back of the hand, a blowing element (4) , fixed on the outer layer (2), at the passage hole (6) and an inner liner (3) .A guide pocket (5) is arranged between the outer layer (2) and the inner lining (3) on an area of the back of the hand which extends from the blowing element (4) included to the ends of the fingers, exception being possibly made of the thumb.The blowing element is fixed on the upper wall (5a) of said pocket (5) .The bottom wall (5b) of the pocket (5) is pierced, for each finger, with a passage opening (11) of the air at a zone (16) of end of said finger.The inner lining (3) passes air at least in the area which is opposite the passage opening (11).

Description

1 GLOVES THAT HAVE BEEN HEATED BY THE USER'S BREATH

  The invention relates to a glove which is equipped with a device allowing the user to breathe in the glove to heat at least the end of some of his fingers. The air coming out of the lungs during exhalation is at a relatively constant temperature around 34 C.

  It can therefore be considered that it is hot air when the ambient temperature is below this temperature. It is known to use this hot air as a means for the interior heating of clothing items including gloves for use in basic temperature conditions, especially those who practice winter sports including skiing. Since the cooling due to the low temperatures affects in the first place the extreme parts of the body, and in particular the fingers of the hand, it was sought that the warming, thanks to the breath breathed inside the glove, intervenes preferentially and localized towards the ends of the fingers. This is particularly the case in documents FR-2.124.257 and WO-2004/021815. More specifically, in the document WO-2004/021815, the glove comprises an outer layer, pierced with a through hole on the back of the hand, an inner layer, permeable to air and a blowing element which is fixed on the outer layer, at the passage hole. This glove also has an intermediate layer, which is not very breathable and is partially sewn to the outer layer. This intermediate layer is disposed between the outer layer and the inner layer on a first zone of the back of the hand which extends from the blowing element to one or more second zones covering the end of the fingers over a determined distance delimiting, with the outer layer, a free space for the circulation of the blown air 2902979 2 from the blowing element, said free space opening at the determined distance from the end of the fingers. Thus, in this document, the hot air that is blown by the user into the blowing element fills the free space between the outer layer, generally not very breathable, and the intermediate layer, also little permeable to air, until reaching the exit of this free space, namely the second or second areas of the glove that cover the ends of the fingers. In this document, the blowing element is fixed in particular by sewing on the outer layer. In particular, it may be a molded plastic part 10, pierced with a blowing opening and having a peripheral rim for making this attachment by stitching on the outer layer. In this document, it is also provided that a fibrous filling material may be arranged in the free space of the second zone or zones towards the end of the fingers in order to increase the residence time of the hot air. in this distal zone and to constitute a means of storing heat in this zone. In practice, the implementation of a fibrous filling material is quite common to improve the thermal insulation of the glove. This material is usually disposed in the form of a web between the outer layer and the inner layer. In the document EP-1,332,687, the fibrous filling material is also disposed inside air circulation ducts, driving the air blown from the blowing element to the end of the fingers.

The gloves known from the aforementioned documents have disadvantages. Regarding the document WO-2004/021815, as the air blown passes directly under the outer layer and the thermal insulation of this outer layer is not very effective, the hot air blown from the blowing element substantially cools before reaching the end of the fingers, especially when the outside temperature is below -10 C. As a result, the effective duration of warming is considerably reduced.

Another disadvantage is to be noted: the first insufflations will push the cold air that was stored in the air circulation space. The user will feel on the end of the fingers of the cold air. With regard to the document EP-1.332.687, when the air blown through the filling fibers, the moisture contained in the breath condenses on the fibers, which considerably reduces the thermal insulation which is supposed to bring the presence of the filling fibers. This same phenomenon occurs when the fibers are only located in the end zone of the fingers, as provided in document WO-2004/021815.

In EP-1.332.687, the blowing element is attached to either the outer layer or the air circulation device. The object of the present invention is to provide a glove having a different structure from those known and / or to overcome the aforementioned drawbacks.

The glove according to the present invention comprises, in a manner known from document WO-2004/021815: a) an outer layer pierced with a first through hole on the back of the hand; b) a blowing element, fixed on the outer layer, at the passage hole; (c) an inner lining; In addition, the glove comprises: d) a guide pocket which is disposed between the outer layer and the inner liner, on an area of the back of the hand which extends from the blowing member, the latter being included , to the ends of the fingers, exception being possibly made of the thumb. In addition, the blowing element is fixed not only on the outer layer but also on the upper wall of the guide pocket; the guide pocket is pierced on the one hand with a second through-hole in correspondence with the first through-hole of the outer layer and on the other hand, for each finger, with an air-passing orifice. at an end zone of said finger and the inner liner leaves the air at least in the area which is opposite said passage opening. The guide pocket is made of a textile material that is not very breathable. In an alternative embodiment, the blowing element is in two parts, which are securable to one another, in particular by interlocking, the first part being fixed on the outer layer and the second part being fixed on the wall. top of the guide pocket. This particular arrangement greatly facilitates the making of the glove. It makes it possible to separate the manufacture of the air guide bag from that of the other elements of the glove proper. According to an alternative embodiment, the glove also comprises a thermal insulation layer, in particular a layer of filling fibers which is arranged between the outer layer and the guide pocket. This particular arrangement makes it possible to thermally isolate the air which is blown from the blowing element during its circulation in the guide pocket. Optionally, a waterproof-breathable membrane can be placed between the outer layer and the filling fibers so as to ensure impermeability while always maintaining the glove's breathability. According to an alternative embodiment, the glove also comprises a spacer 20, in particular being in the form of a rod, which is arranged on the periphery of the blowing element at the lower face of the upper wall of the guide pocket. This spacer makes it possible to maintain a certain space between the two faces of the guide pocket, close to the blowing element so that the blown air can always penetrate into the guide pocket, even after an extended period in which the two faces of said guide pocket have remained applied to one another. This is all the more useful in that the guide pocket according to the present invention does not comprise filling fibers or other elements for constantly maintaining a certain space between the two inner faces of the guide pocket.

According to an alternative embodiment, the inner lining is pierced with orifices at the fingertips in concordance with the passage orifices of the guide pocket. According to an alternative embodiment, the inner lining is in a permeable material, in particular a textile with an airy texture, commonly called mesh, in the zone in concordance with the openings for the passage of the guide pocket. In an alternative embodiment, the guide pocket is formed of an upper wall and a lower wall which are secured to each other and to the inner double by stitching when making the glove. According to a preferred embodiment of this variant, the upper wall and the lower wall of the guide pocket are fixed to one another and on one side to the thermal insulation layer and on the other side to the lining interior. The present invention will be better understood on reading the description which will be given of an exemplary embodiment of a glove adapted to be heated by the breath of use, illustrated by the appended drawing in which: Figure 1 is a very schematic view, in longitudinal section, of a glove along a plane passing through the blowing element and the index finger; Figure 2 is a diagrammatic plan view of an air guide pocket and Figure 3 is a diagrammatic sectional view of the two parts of the blowing element, snapped together. The glove 1 is a glove specially designed for the practice of sports which can take place in extremely cold weather, for example from -10 to -20 C, especially the practice of skiing. This glove is made conventionally by making a set of parts allowing, once assembled, to obtain a general configuration similar to that of a hand. Also conventionally, among these parts, there is an outer layer 2 and an inner liner 3. The outer layer 2 is in a material that is low permeable or impervious to water and relatively low in the air, this in order to avoid the free passage of cold air coming from the outside. This outer layer 2 may itself be formed by the assembly of several pieces made of different materials depending on the location on the glove. The inner liner 3, which is in direct contact with the user's hand, is in a porous, breathable material. To achieve the heating of the end of the fingers of the hand, the glove 1 comprises on the one hand a blowing element 4 and on the other hand an air guide pocket 5, whose function is to convey the breath insufflated by the user from the blowing element to the end of all or part of the fingers of the hand. The blowing element 4 is fixed on the outer layer 2 on a portion of the glove which corresponds to the top of the hand, slightly behind the fingers, in particular the index finger. To allow the penetration of the breath breathed from the blowing element 4, a through hole 6 is provided in the outer layer 2.

The blowing element 4 is also attached to the guide pocket 5 around a second through-hole 7 formed in the upper wall 5a of the guide pocket. When the glove is made, the first 6 and the second 7 passage holes are facing each other, the attachment of the blowing element 4 to both the outer layer 2 and the guide pocket 5 being made in a sealed manner in order to prevent any external air from entering the glove and to prevent any loss of breath introduced by the blowing element into the guide pocket 5. The pocket 5 is arranged between the outer layer 2 and the inner liner 3 on an area of the back of the hand which extends from the blowing element 25 to the ends of the fingers, except possibly being made of the thumb, as shown in FIG. is the case in the embodiment which is illustrated in Figure 2. More specifically in this example, the guide pocket 5 has a rear portion 8 which surrounds the through hole 7 around which is fixed the element 30 of blowing 4 and a front part 9 which is divided into four branches 9a, 9b, 9c, 9d which are intended to be arranged, inside the glove, respectively above the index finger, the middle finger, the ring finger and the little finger. The configuration of the rear portion 8 allows the transfer of the breath breathed from the blowing element 4 into each of the branches 9a to 9c of the front portion 9. The guide pocket 5 is for example formed by the assembly an upper wall 5a and a lower wall 5b which are fixed to each other along the peripheral contour of the rear portion 8 and the front portion 9 along the dotted line 10 marked in FIG. 2 The configuration and the length of each leg 9a to 9d are provided so that the guide pocket 5 extends to the ends of the four fingers concerned. The bottom wall 5b of the guide pocket 5, that is to say the one which is in contact with the inner lining 3, is pierced, for each branch 9a to 9d, with at least one orifice 11 for the passage of the air of the end zone of said branch. In FIG. 2, there is shown a circular orifice 11 formed in the bottom wall of each branch 9a to 9d of the guide pocket 5. This is of course not exclusive, there could be several orifices per branch, even even a total absence of inner wall in this end zone of each branch. Optionally, the air passage opening could be defined by the two inner and outer walls of the guide pocket, not assembled at the end of each branch.

In a preferred embodiment, the formation of the guide pocket 5 by assembly of the top wall 5a and the bottom wall 5b is performed during the manufacture of the glove by sewing the two said walls to one another. and in the inner liner 3. In the example illustrated in FIG. 1, a thermal insulation layer 12 is provided between the outer layer 2 and the inner liner 3. It may especially be a layer of Filling fibers, generally referred to as wadding. This thermal insulation layer will be referred to hereinafter wadding, but without the use of this term is limiting. In the part of the glove where the guide pocket 5 is located, the wadding is positioned between the outer layer 2 and the upper wall 5a of the guide pocket 5. When the user breathes in the opening 12 of the blowing element 4, this breath follows the arrow path (F) which is illustrated in FIGS. 2902979 8 1 and 2 passing between the two walls 5a and 5b of the guide pocket, dividing from the front portion 8 into the branches 9a to 9d to exit the guide pocket 5 through the orifices 11. Beyond the orifice 11, the breath passes through the lining 3, permeable to air, and reaches the area of ends 16 of the fingers. Depending on the type of material that is used for the manufacture of the liner 3, it may be preferable to also provide, in said liner 3, facing the orifices 11, passage holes 13. This facilitates the passage of the liner. air in the glove. In particular, when the guide pocket 5 is formed by assembling two upper and lower walls 5a and 5b, there may be a problem of temporary adhesion of the two said walls when they are constantly in contact with one another. 'other. This temporary adhesion may result in the impossibility for the user to penetrate his breath, beyond the blowing element inside the guide pocket 5, the pressure exerted by the breath 15 being insufficient for carry out the separation of the two walls. To overcome this drawback, the glove 1 comprises a spacer 14 which is disposed at the lower face of the upper wall 5a, around the periphery of the blowing element 4. This spacer 14, presenting itself for example in the form of a ring, allows to maintain, constantly, a space 15 between the two walls 5a, 5b of the guide pocket near the blowing element 4. It is of course preferable that this spacer 14 is not continuous around the entire periphery of the blowing element but that there are provided openings for the passage of the breath in the space 15.

In FIG. 3, such a passage aperture 47 is arranged diametrically opposite to the spacer 14 shown on the left of the blowing element 4. The presence of such a spacer 14 This is important in the context of the glove 1 of the present invention, in that no filling element of any kind is provided between the two walls 5a, 5b of the guide pocket.

In order to ensure impermeability while maintaining the breathability of the glove 1, it can also be provided with a breathable membrane, that is to say, impervious to water and air but permeable to steam. water, disposed under the outer layer 2, and preferably above the wadding 12. On its side, to prevent the passage of hot air directly to the back of the hand during the breath insufflation, the guide pocket 5 is preferably in a material with low air permeability. It should be noted that the breath that passes through the arrows F of Figure 1, since the blowing element 4, is thermally protected from the ambient air by the outer layer 2, possibly by the membrane resprespirante and also by the Wadding 12. There is therefore very little heat loss during this transfer to the zone 16 of ends of the branches 9a to 9d, to the orifices 11 for heating the end of the fingers of the user. . In a particular embodiment, the inner lining 3, at least in the zone 15 in concordance with the orifices 11 through which the guide pocket 5 passes, is in a generally aerated textile fabric a knit, commonly referred to as a mesh, which delimits a multitude of orifices corresponding to the interstices between the stitches of the knit. The blowing element 4 must be fastened both to the outer layer 2 and to the guide pocket 5, more precisely, in the example described above, to the upper wall 5a of said guide pocket 5. To facilitate this fixation and to simplify the manufacturing process, it is proposed according to the present invention, a blowing element 40 (FIG. 3) which is composed of two distinct parts 41, 42 which are securable to one another, 25 in particular by interlocking. The first part 41 is fixed on the outer layer 2 and the second part 42 is fixed on the upper wall 5a of the guide pocket 5. More precisely, the first part 41 comprises an annular portion 46, substantially flat, with a slight recess interior 44, forming a small truncated cone. The second portion 42 also has an annular portion 45, internally extended by a substantially hemispherical portion 46, pierced with an air passage hole 47.

The two annular portions 43, 45 of the first 41 and second 42 parts of the blowing element 40 serve to fix the two said portions 41 and 42 respectively on the outer layer 2 and the upper wall 5a of the outer pocket. In FIG. 3, the two parts 41, 42 of the blowing element 4 are dissociated before being assembled by interlocking. It suffices for the operator to place both said portions 41, 42 opposite each other by moving the first portion 41 to cover the hemispherical portion 46 of the second portion 42. The frustoconical extension 44 of the first portion 41 and the extension hemispherical 46 of the second portion 42 10 are configured so that the frustoconical extension 44 comes to fit on the hemispherical extension 46. Optionally, may be provided a backstop avoiding disconnection of said two parts 41, 42 once the finished glove making. Of course, the configuration of the two parts 41 and 42 must also take into account the possible presence of the waterproof membrane and / or the wadding between the outer layer 2 and the upper wall 5a of the guide pocket. The closure of the through hole 47 of the blowing element 40 is obtained by a cap 48 which is secured by means of a flexible band 49 of the annular portion 43 of the first portion 41 of the blowing element 40. cap 48 is also configured to come together by interlocking on the outside of the hemispherical portion 46 of the second portion 42 of the blowing element 40.

Claims (10)

  1. Glove adapted to be heated by the breath of the user comprising: a) an outer layer (2) pierced with a through hole (6) on the back of the hand; b) a blowing element (4), fixed on the outer layer (2), at the passage hole (6); c) an inner liner (3); characterized in that it further comprises: - a guide pocket (5) which is disposed between the outer layer (2) and the inner liner (3) on an area of the back of the hand which extends from the blowing element (4) included to the ends of the fingers, exception being optionally made of the thumb. and in that: - the blowing element is fixed on the upper wall (5a) of the guide pocket (5); the lower wall (5b) of the guide pocket (5) is pierced, for each finger, with a passage opening (11) for the air at an end zone (16) of said finger and - The inner lining (3) passes air at least in the area which is opposite the passage opening (11) of the guide pocket (5).   2. Glove according to claim 1, characterized in that the blowing element (40) is in two parts (41,42), integral with each other, in particular by interlocking, the first part (41) being fixed on the outer layer (2) and the second part (42) on the upper wall (5a) of the guide pocket (5).   3. Glove according to claim 2, characterized in that the blowing element (40) is equipped with a closure cap (48), securable by interlocking with the second portion (42) of the blowing element (40). ).   4. Glove according to any one of claims 1 to 3, characterized in that it comprises a spacer (14), in particular under the 2902979 12 form of a rod, disposed under the periphery of the blowing element (4) at the lower face of the upper wall (5a) of the guide pocket (5).   5. Glove according to any one of claims 1 to 4, characterized in that the inner lining (3) is pierced with orifices (12) in concordance with the orifices (11) for passage of the guide pocket (5). ).   6. Glove according to any one of claims 1 to 4, characterized in that the inner lining is in a permeable material, in particular a textile with aerated texture, in the end zone (16) in concordance with the orifice of passage of the guide pocket (5). 10   Glove according to any one of claims 1 to 6, characterized in that the guide pocket (5) is made of a textile material that is not very permeable to air.   8. Glove according to any one of claims 1 to 7, characterized in that it comprises a thermal insulation layer (12) between the outer layer (2) and the upper wall (5a) of the guide pocket ( 5). 15   9. Glove according to claim 8 characterized in that it comprises a breathable membrane between the outer layer (2) and the thermal insulation layer (12).   Glove according to one of Claims 1 to 9, characterized in that the guide pocket (5) is formed by an upper wall (5a) and a lower wall (5b) which are fastened to it. one to the other and to the inner lining (3) and possibly to the thermal insulation layer (12) during the manufacture of the glove.