CN108289518A - Gym suit at least one temperature adjustment area - Google Patents

Abstract

One kind having the sportswear segment of at least one temperature adjustment area (10.1), temperature adjustment area is made of the regional structure (11.1) weaved, and the regional structure is locally shirred relative to bridge part (14.1) on drawing zone (15.1).Bridge part is built into the inside of regional structure (11.1), to stick on the skin (200) of wearer, wherein air duct (13.1) in being formed between bridge part.Back side in bridge part (14.1) is respectively equipped at least one groove in shirred regional structure (11.1), which forms outer air passages (18.1).Multiple separate Thermal Control Element (12.1) is equipped in temperature adjustment area (100.1), these Thermal Control Elements contain short bridge part (14.1), and Thermal Control Element is separated from each other by the Disengagement zone (16.1) by side.Adjacent interior air duct (13.1) is connected with each other by Disengagement zone (16.1).These Disengagement zone (16.1) are mutually laterally staggered between Thermal Control Element (12.1) so that Thermal Control Element (12.1) is at least partially overlappingly arranged about the longitudinal extension of vertical body axes (X).

Description

Gym suit at least one temperature adjustment area

Technical field

The present invention relates to a kind of gym suit segments at least one temperature adjustment area, with preamble as claimed in claim 1 Feature described in part.

Background technology

As known to patent document EP1476033B1 it is a kind of as gym suit segment.This gym suit segment includes：Bridge joint The subregion of shape, these subregions are thickened and are thus pasted on the skin, and form outer air at the back side of these subregions Channel；And the region without pasting on the skin and being formed interior air duct.In these bridge parts of patch on the skin (Stegen) sweat is absorbed on, in the inside of clothes, then the portion of being bridged receives and can be evaporated by outer air passages sweat. This evaporation leads to Local cooling.Air can between bridge part, flowed in interior air duct and provide temperature adjustment.For The sweat to drip can be collected, these bridge parts extend substantially transversely to body axes orientation.Although these are effective by verification Temperature adjustment area can absorb sweat well, but they the shortcomings that be, the air circulation in temperature adjustment area can only be parallel to bridge Socket part.Hot-air cannot rise in the inside in temperature adjustment area along body axes.

Invention content

Therefore, it is an object of the present invention to which the gym suit segment at least one temperature adjustment area for the above-mentioned type changes Into its air circulation, but keep and sweat absorption and the relevant superperformance of sweat evaporation.

The purpose of the present invention is realized by a kind of with the gym suit segment of feature described in claim 1.

Temperature adjustment area according to the present invention does not instead of include the bridge part and air duct being continuously oriented parallel to one another, packet Include multiple separate Thermal Control Element, each Thermal Control Element is all to be formed in known manner with method, but only With at least one bridge part, which does not extend on the entire width of Thermal Control Element.These Thermal Control Elements are in transverse direction It is separated from each other upwardly through the Disengagement zone by side in the side of vertical body axes.

Under meaning of the present invention, Disengagement zone refer to laterally the region by Thermal Control Element in other words two adjacent Region between Thermal Control Element.These Thermal Control Elements are also exactly by transverse direction or the interior sky being obliquely extended in the vertical direction Gas channel is separated from each other, just as common in the art.Disengagement zone is substantially also interior air duct, but in view of Hereafter, wherein air flow into and sweat outflow direction, it is this it is linguistic distinguish be used as preferably description the present invention.

The woven object of Thermal Control Element surrounds.Internal channel is formed between these Thermal Control Elements, air passes through these internal channels Cycle.Thermal Control Element is set with method as follows, that is, droplet cannot flow through entire temperature adjustment from the top down on the skin Area because these droplets be collected in respectively in the sweat collection area of lower, be collected in it is back to back be located at skin On bridge part.It is set with being laterally staggered each other for this purpose, being located in the Thermal Control Element at different height about vertical body axes It sets.The arrangement of these elements can be there are many different modes, and all these modes are had in common that, paste area on the skin Domain is arranged with region on the skin is not pasted with ways and means that are alternate or offseting one from another, to not allow also droplet stream Under.Meanwhile the Thermal Control Element being staggered is only the obstacle of very little for the air of rising.Air on skin surface can be with It is recycled along multiple directions, because air duct is in the vertical direction due to Thermal Control Element and between Thermal Control Element point It is stayed open from this arrangement in area.Hot-air can pass through temperature adjustment area to rise as a result,.Based on relevant stack effect, make The cooling of moisture distributed and thus improve skin must be improved.

It is preferred that carrying out this arrangement in a regular pattern, but can not also regularly it arrange, as long as in Thermal Control Element The basic principle of the present invention is followed in being designed and arranged：That is, on the one hand setting Disengagement zone is to enable air to vertically flow, separately On the one hand Disengagement zone is made to be arranged with being laterally staggered so as to collect the sweat to drip in each row that next stage is located at lower. The temperature adjustment area with Thermal Control Element adapts to the body region that especially severe is perspired during sports in an optimal manner as a result, Domain.

Such be staggeredly arranged especially relates to vertical body axes.But according to the present invention, it is not intended to work as fortune It is forcibly accurately erectly orientated when mobilizing gym suit segment as dress, but should be intended to suggest that air passes through direction to this (Luftdurchzugsrichtung), that is, the direction that hot-air can rise along the body surface of sportsman.It is obvious that should Air by direction in the regular motion pattern of sportsman in some way with gravity direction opposed orientation, wherein the air It can be not only precise vertical by direction, but also can be inclined.Even can also be in the gym suit segment same The inside in one temperature adjustment area forms multiple line of flowThat is air-flow can be scattered with fan.It is right For the present invention only importantly, air be not in by direction it is in flow path, as in the prior art by bridging The obstacle that portion is formed interrupts.

The direction that droplet is fallen is opposite by direction with air.The direction should be interrupted again according to the present invention, to capture drop Under sweat.This obstacle generated due to the lateral stagger setting of Thermal Control Element is not necessarily present in every a line of Thermal Control Element In.The row sequence of not obstacle can also be replaced by least a pair of row to miss one another, then collect sweat wherein.

Temperature adjustment area can be generated by being knitted, and can also be produced by by component affixing on fabric or other textiles It is raw.

The shape and arrangement of Thermal Control Element can select different modes, here, all embodiments have in common that, Patch region on the skin replaces or offsets one from another with the region for not pasting on the skin, so that droplet cannot be in the clear It falls, but collects each drop sweat again as quickly as possible.

The shape of Thermal Control Element in the plan view may, for example, be Y shape, V-arrangement, X-shaped, double Y shapes or similar shape, because these Shape is very suitable for collecting droplet, but only has slight obstruction simultaneously for air passing through by side, rising.

Temperature adjustment area on clothes can have not in entire expanded range under conditions of including all each Thermal Control Elements With performance, to generate a variety of different additional benefits.For example, these temperature adjustment areas can vertically be elongated, it is notable to realize Stack effect, and in this way can below as far as possible conveying air and be conveyed upwards into upper dress collar or At the waistband of trousers, then air leaves therefrom.

Preferably, the regional structure (textile of weaving) be to form the knitted fabric in temperature adjustment area, or Person is specially to design thus, or be connected with the basal knitted fabric of gym suit segment.In order to be formed about body axes The structure (seeing in the attached drawing that these structures can be below) of rising, can take following measures in knitting process：

Linear line misregistration

Each mesh is linear, regularly misplaces

Each mesh erratically misplaces

The alternately line misregistration of mesh area, is consequently formed preformed member

Each mesh alternating regularly misplaces

Each mesh alternating erratically misplaces.

Description of the drawings

More detailed description is done to the present invention below with reference to accompanying drawings.Wherein：

Fig. 1 shows the sectional drawing in the temperature adjustment area of gym suit segment with schematic isometric,

Fig. 2 to Fig. 5 shows in plan view the different embodiments in the temperature adjustment area with Thermal Control Element respectively,

Fig. 6 shows temperature adjustment area made of braiding with schematic plan, and

Fig. 7 illustrates in perspective view the temperature adjustment area according to Fig. 1.

Specific implementation mode

Fig. 1 shows the temperature adjustment area 10.1 in the regional structure 11.1 of weaving, here, the regional structure of the weaving can be Braided fabric or knitted fabric.Temperature adjustment area 10.1 is for example arranged in a gym suit segment, and is designed in following bodies there On body region：That is, especially more sweat is generated on these body parts during body movement.

In the embodiment shown, temperature adjustment area 10.1 is made of each Thermal Control Element 12.1 being regularly arranged.Often A Thermal Control Element 12.1 itself has at least one following region：In this region, braided fabric or knitted fabric pass through less bullet Property and/or shorter drawing zone 15.1 it is shirred (grafft), in the skin 200 towards wearer of the clothes The structure that cross section is U-shaped or V-arrangement is formed on side.Thus so-called bridge part is formed in the inside of the regional structure of weaving 11.1 14.1.Sweat is collected on the region of the adjoining skin 200 at the top of bridge part 14.1 and is absorbed by fabric.It is attached to skin 200 On bridge part 14.1 between formed in air duct 13.1, air can on a skin surface be followed by these interior air ducts Ring.

The sweat being collected into some temperature adjustment area 12.1 is transported to by the hygroscopicity fabric side wall of bridge part 14.1 Upside until enter the peripheral region 17.1 of Thermal Control Element 12.1, these Thermal Control Elements due to bridge part 14.1 and relative to Skin surface 200 maintains a certain distance.Sweat can evaporate particularly well herein.This evaporation latent heat cools place again Air in the interior air duct 13.1 of 17.1 lower section of peripheral region.

Ditch bathtub construction is formed in the back side of bridge part 14.1, these ditch bathtub constructions constitute outer air passages 18.1, lead to Crossing these outer air passages can equally evaporate.

Due to outer air passages 18.1 be not stretched comprehensively area 15.1 cover, collected sweat equally may be implemented in this Evaporation, without heat localization occurs in Thermal Control Element 12.1.

Thermal Control Element 12.1 is arranged in the regional structure 11.1 of weaving preferably to carry out in such a way：Determine two bases This direction, that is, body axes X substantially perpendicularly extends under the orthostatism of wearer and passes through direction phase with air Symbol；With the horizontal direction relative to the body axes, perpendicular to the body axes or with the body axes at obtuse angle prolong It stretches.On the horizontal direction, each Thermal Control Element 12.1 is by forming the peripheral region 17.1 of interior air duct 13.1 in lower section It is separated from each other.In addition, the Thermal Control Element 12.1 adjacent with bridge part 14.1 is horizontal in its direction of extension upper edge by Disengagement zone 16.1 It separates to each other.

The outer air passages 18.1 formed in the groove of shirred fabric also interrupt on Disengagement zone 16.1, but The inside in temperature adjustment area 10.1, in the lower section of the Disengagement zone 16.1, there are the mutually transverse connections of each interior air duct 13.1.Cause This, Disengagement zone 16.1 and interior air duct 13.1 can be described as body in the inside of regional structure 11.1, towards wearer A part for the air duct network formed on the side of side.

The effect being achieved in is below by Fig. 2 to temperature adjustment area shown in Fig. 6, formed according to the present invention 10.2 ..., the plan views of 10.6 different embodiments illustrates.

Fig. 2 shows the segments in the temperature adjustment area 10.2 of another embodiment according to the present invention.The temperature adjustment area can be direct It is formed in the regional structure 11.2 of weaving, therefrom yet forms the adjacent area of gym suit segment.Temperature adjustment area 10.2 can also It is individually made and is connected with remaining region of the gym suit segment.

Fig. 2 shows the views of the inside towards skin in temperature adjustment area 10.2.Black region is designed to stick on skin On, when gym suit segment is worn together with temperature adjustment area 10.2, the bright areas between black region is kept and skin surface It is spaced apart.

Multirow respectively Y-shaped each Thermal Control Element 12.2, and Y shape Thermal Control Element are provided in temperature adjustment area 10.2 One in 12.2 supporting leg is orientated with vertically, being namely parallel to body axes X.In addition, in Thermal Control Element 12.2 Adjacent row in, have a line Thermal Control Element 12.2 that can be staggered in transverse direction.As a result, in Thermal Control Element in a line of top Be constantly present burble point 16.2 between 12.2, and therefore also formed between them an internally positioned air duct 13.2, One droplet collecting zone 19.2.The collecting zone 19.2 is by Y shape Thermal Control Element 12.2 according to the embodiment of figure 2 What supporting leg diverging from one another was formed.Fine dotted line with the arrow being directed upwards towards indicates so-called air by direction, that is, The used paths on the inside towards skin of the regional structure 11.2 of weaving the air A heated on the skin.It is retouched The Thermal Control Element 12.2 of black region is depicted as to play the role of obstacle due to pasting on the skin and air-flow is caused to deflect.Due to chimney The appearance of effect, warm air, which clears the jumps, to be drawn up.

Meanwhile sweat can flow from the top down, as the thick of left part is retouched shown in line in Fig. 2.Immediately adjacent Thermal Control Element is appeared in In the directly trickling to the Thermal Control Element 12.2 being located below of the droplet in region between 12.2, this is in implementation as shown in Figure 2 It is by the Thermal Control Element 12.2 in second and fourth line in mode relative to the Thermal Control Element in first, third and fifth line It laterally offsets to realize.The effect of the effect and hot-air A risings of collecting the sweat S flowed down is superimposed everywhere；It is intended merely to clear The path of sweat S and air A in Chu Qijian, Fig. 2 are illustrated in the separated region of attached drawing.

Fig. 3 shows the another embodiment in temperature adjustment area 10.3 formed according to the present invention.Herein again in left side area Domain indicates the path of sweat S with downwardly directed block arrow, and shows air A's with thin dotted arrow and dotted line on right side Path.Body axes are vertically to extend again.It is respectively arranged with rod-shaped Thermal Control Element in the left and right region in temperature adjustment area 10.3 12.3.Air A can be risen again by the Disengagement zone between interior air duct 13.3 and Thermal Control Element 12.3,12.3'.In center Region is stackedly provided with the Thermal Control Element 12.3 of V-arrangement up and down.With the inside of the downwardly directed Thermal Control Element 12.3 of point Form sweat collecting zone 19.3.Layout about the rod-shaped Thermal Control Element 12.3' by side is as follows：Result in sweat collecting region 19.3' offsetting not instead of by Thermal Control Element 12.3, the row of 12.3' sidesway caused by, by making rod-shaped Thermal Control Element The inclination of 12.3' and spacing is coordinated with each other realizes, so that flow through the sweat of the upper end of corresponding Thermal Control Element 12.2' It drops on the lower end of adjacent Thermal Control Element 12.3' and is collected.

Diagram in Fig. 4 corresponds to view and the temperature adjustment area in the path above-mentioned about sweat S and air A in principle 10.4 orientation about vertical body axes.

In the embodiment according to figure 4, each rod-shaped Thermal Control Element 12.4 in its longitudinal extension successively Alignment, and be separated from each other by the Disengagement zone 16.4 at narrow side.Multiple rows of Thermal Control Element 12.4 are stacked setting up and down, wherein Peripheral region 17.4 is respectively formed between these rows, these peripheral regions are formed to be prolonged along the horizontal direction relative to body axes The interior air duct 13.4 stretched.There are half grid width in transverse direction between the row and row of Thermal Control Element 12.4 (Rasterbreite) offsetting so that the droplet dripped downwards via Disengagement zone 16.4 is collected in collecting zone 19.4. Collecting zone 19.4 is formed by Thermal Control Element 12.4 each being in below in the row and being arranged as cross bar.

Fig. 5 shows the another embodiment in temperature adjustment area 10.5.Sweat water and air is not shown in this case Path, because these paths also equally extend with embodiment above-mentioned.According to the embodiment table in the temperature adjustment area 10.5 of Fig. 5 Bright, the arrangement of Thermal Control Element 12.5 can also be ununified grid.In Figure 5, Thermal Control Element 12.5 has respectively in every row There is different length, and the offsetting of the row of Thermal Control Element 12.5 to each other is without associated with the length of Thermal Control Element 12.5 Unified scale.Important point is only that sweat collecting zone 19.5 is arranged on the lower section of Disengagement zone again, and the Disengagement zone is in addition Also air duct 13.5 in being formed.

Fig. 6 shows another plan view in temperature adjustment area 10.6, which is arranged on the weaving for being configured to knitted fabric Regional structure 11.6 in.Step structure shown in Fig. 6 is for illustrating each mesh.Bridge part 14.6 and construction are in its back of the body Outer air passages 18.6 on side are for example made of 10 mesh rows, and the drawing zone 15.6 for crossing over outer air passages 18.6 only has There are three the width of mesh row.The width of outer air passages can be improved according to similar ratio, wherein up to two can be arranged 15 mesh rows are to form outer air passages 18.6, and the drawing zone 15.6 for crossing over the region only has about ten mesh rows, To which shirred effect occur.Longitudinal extension along outer air passages sees that drawing zone 15.6 has the length of two to seven meshes Degree, and is arranged with being spaced from each other five to 20 meshes, to do not generated in outer air passages 18.6 width be five to The leap chamber of 20 meshes.That a part of Thermal Control Element 12.6 stacked on top of each other, that form outer air passages 18.6 by Width is that the interior air duct 13.6 of four to 30 mesh rows is spaced-apart.

Fig. 7 with the perspective on the outside of clothes show single Thermal Control Element 12.1 in the regional structure 11.1 of weaving and its Three-dimensional structure.It is obvious that sharp boundary edge is not present according in the gym suit segment that designs of the present invention, as they According to fig. 2 in the schematic diagram of Fig. 6 only as given by plotting mode.It will be clear that：By 15.1 shape of drawing zone At the braided fabric of weaving or the shirred of knitted fabric and the groove-like structure that extends in its lower section, the groove-like structure formed so-called outer Air duct 18.1.

Reference numerals list

10.1...10.6 temperature adjustment area

11.1...11.6 regional structure

12.1...12.6 Thermal Control Element

13.1...13.6 interior air duct

14.1...14.6 bridge part

15.1...15.6 drawing zone

16.1...16.6 Disengagement zone

17.1...17.6 peripheral region

18.1...18.6 outer air passages

19.1...19.6 sweat collecting region

200 skins

S sweat

A air.

Claims (10)

1. one kind having the sportswear segment of at least one temperature adjustment area (10.1 ..., 10.6), the temperature adjustment area is by weaving Regional structure (11.1 ..., 11.6) constitute, the regional structure locally on drawing zone (15.1 ..., 15.6) relative to Bridge part (14.1 ..., 14.6) is shirred,

Wherein, the bridge part (14.1 ..., 14.6) is built into the inside of the regional structure (11.1 ..., 11.6), To stick on the skin (200) of wearer, wherein air in being formed between adjacent bridge part (14.1 ..., 14.6) Channel (13.1 ..., 13.6),

Wherein, in the back side of the bridge part (14.1 ..., 14.6), in shirred regional structure (11.1 ..., 11.6) On be respectively equipped at least one groove, the groove formed outer air passages (18.1 ..., 18.6), and

Wherein, in the temperature adjustment area (100.1 ..., 100.6) up and down stackedly be equipped with multiple bridge parts (14.1 ..., 14.6),

It is characterized in that,

Multiple separate Thermal Control Element (12.1 ..., 12.6), institute are equipped in the temperature adjustment area (100.1 ..., 100.6) It states Thermal Control Element and contains short bridge part (14.1 ..., 14.6), the Thermal Control Element passes through the Disengagement zone by side (16.1 ..., 16.6) are separated from each other,

Inside in the regional structure (11.1 ..., 11.6), adjacent interior air duct (13.1 ..., 13.6) is by institute Disengagement zone (16.1 ..., 16.6) interconnection is stated, and

The Disengagement zone (16.1 ..., 16.6) is laterally wrong each other between the Thermal Control Element (12.1 ..., 12.6) Open so that the Thermal Control Element (12.1 ..., 12.6) about vertical body axes (X) longitudinal extension at least partly Overlappingly it is arranged.

2. clothes segment according to claim 1, which is characterized in that at least one temperature adjustment area (10.1,10.2,10.3, 10.5,10.6) in, the Thermal Control Element (12.1,12.2,12.3,12.5,12.6) is at an angle of, surrounds 120 ° at least partly To 150 ° of obtuse angle.

3. clothes segment according to claim 2, which is characterized in that at least one temperature adjustment area (10.1), at least one The part Thermal Control Element (12.1) has the Y shape shape lied down.

4. clothes segment according to claim 2, which is characterized in that at least one temperature adjustment area (10.2), at least one The part Thermal Control Element (12.2) has upright Y shape shape.

5. clothes segment according to claim 2, which is characterized in that at least one temperature adjustment area (10.1,10.3,10.6) In, at least part Thermal Control Element (12.1,12.3,12.6), which has, lies down or upright V-arrangement shape.

6. clothes segment according to claim 1, which is characterized in that at least one temperature adjustment area (10.3,10.4,10.5) In, at least part Thermal Control Element (12.3,12.4,12.5) is rod-shaped and lateral relative to the body axes (X) Ground extends at an oblique angle.

7. clothes segment according to any one of claim 1 to 6, which is characterized in that the bridge part (14.1 ..., 14.6) and the drawing zone (15.1 ..., 15.6) be separately fabricated Thermal Control Element (12.1 ..., 12.6) a part, They connect with the regional structure (11.1 ..., 11.6) of the weaving.

8. clothes segment according to any one of claim 1 to 7, which is characterized in that the regional structure of the weaving (11.1 ..., 11.6) are knitted fabrics, wherein the bridge part (14.1 ..., 14.6) is by shirred basal knitted fabric structure At, and the drawing zone (15.1 ..., 15.6) has the mesh count reduced relative to the basal knitted fabric.

9. clothes segment according to claim 8, which is characterized in that by carrying out linear or alternate row in knitting It offsets so that the temperature adjustment area has the structure obliquely and alternately extended relative to the body axes (X).

10. clothes segment according to claim 8, which is characterized in that the Thermal Control Element has relative to the body The structure that axis (X) obliquely and alternately extends, wherein using the linear needle that regularly or at random interlocks in knitting It knits and/or each mesh is made alternately regularly or at random to offset.