TWM440010U - Pocket spring type elastic insole - Google Patents

Description

M440010 V. New description: [New technical field] A type of independent cylinder This creation department is about a kind of footwear, especially a micro-breathable elastic insole. [Prior Art] The average consumer is accustomed to adding a device elastic insole to the shoes to increase the elastic comfort of the shoes. However, the traditional elastic insole is made of a non-breathable elastic material, even if the surface is covered with breathable fabric. Poor exhaust and sweaty smell. China's new patent m422883 discloses a "breathable elastic insole" for being placed in the shoe space, wherein the elastic upper of the breathable shoe comprises an upper layer, a middle layer and a bottom layer, the middle layer being a hollow elongated tube body, the middle layer It is set between the upper layer and the bottom layer. However, the two open ends of the tubular body are located in the foot-stricken area and the heel area of the shoe last, and the breathing and exhausting action of the shoe last does not reach the pressing surface between the human foot and the shoe last, and the deformation of the pipe body The degree is limited by the thickness change of the elastic shoe last, and it is necessary to have a significant degree of deformation of the shoe last to start the gas circulation phenomenon in the shoe last. [New content] In order to solve the above problems, the main purpose of the present invention is to provide a self-contained tubular micro-breathable elastic insole, which can generate an air cushion type slow exhausting and elastic buffering effect after the insole is pressed, so as to improve air sealing in the shoe. Environment, and automatically achieve the effect of air cushion replenishing gas when not under pressure. The purpose of this creation and solving its technical problems are realized by the following technical party M440010. The present invention discloses a self-contained tubular micro-breathable elastic shoe last comprising a soft elastic film having an upper surface and a lower surface, wherein the upper surface is for bonding a micro-breathable fiber cloth layer, the lower surface system The utility model comprises a foot body region, a heel region and a foot arch region. The heel region is provided with a support block. The soft elastic film is integrally formed with a plurality of first hollow elastic columns protruding from the lower surface and opening toward the upper surface. And a plurality of second hollow elastic columns, the first hollow elastic column is located in the body region, the second hollow elastic tethers are located in the arch region, and one of the first hollow elastic columns The second protruding height of the first protruding height and one of the second hollow elastic columns is greater than a third protruding height of the one of the branch blocks. The purpose of this creation and solving its technical problems can be further realized by the following technical measures. In the above-mentioned independent cylindrical micro-breathable elastic insole, the micro-breathable fiber cloth layer can completely cover the openings of the first hollow elastic columns and the openings of the second φ hollow elastic columns. In the above-mentioned independent cylindrical micro-breathable elastic insole, the micro-breathable fiber 雉B has a double-layer structure and has an upper layer and a lower layer, and the upper layer has/a plurality of vent holes arranged at equal intervals, and the lower layer has a plurality of braided, wire-line extending transversely through the venting holes and interposed between the venting holes and the first hollow elastic columns and the openings of the second hollow elastic ridges. In the aforementioned independent cylindrical micro-breathable elastic insole, the venting holes may be in the shape of a rugby ball. 4 M440010 In the above-described independent cylindrical micro-breathable elastic insole, the second protruding height of the second hollow elastic columns may be greater than the first protruding height of the first hollow elastic columns. In the above-described independent cylindrical micro-breathable elastic insole, the support block can be integrally formed on the soft elastic film to have elasticity. In the aforementioned independent cylindrical micro-breathable elastic insole, the support block may be a non-circular mesh groove. In the aforementioned independent cartridge micro-breathable elastic insole, the support block may cover the heel region in its entirety. In the above-mentioned independent cylindrical micro-breathable elastic insole, one of the supporting surfaces of the supporting block may be inclined obliquely to the first hollow elastic columns. In the above-mentioned independent cylindrical micro-breathable elastic insole, the soft elastic film may have a plurality of first alignment holes penetrating the openings of the first hollow elastic columns and the second hollow elastic columns. The micro-breathable fiber cloth layer may further have a plurality of penetrating second alignment holes aligned with the first alignment holes. In the above-mentioned independent tubular micro-breathable elastic insole, the lower edge of the soft elastic film may be provided with a plurality of first-stop and slide bars. In the above-mentioned independent cylindrical micro-breathable elastic insole, the lower surface of the soft elastic film may be further provided with a plurality of second sliding bars toward the side of the finger. In the above-mentioned independent cylindrical micro-breathable elastic insole, the first hollow elastic column and the second hollow elastic column may be in the shape of a bottom hollowed-out half cone. 5 M440010 In the aforementioned independent cylindrical micro-breathable elastic insole, the micro-breathable fibrous layer may be a braid comprising bamboo carbon fibers. It can be seen from the above technical solution that the independent cylindrical micro-breathable elastic insole of the present invention has the following advantages and effects: 1. The specific position and the two-degree combination of the first hollow elastic column, the second hollow elastic column and the support block can be combined The relationship between the first hollow elastic column and the second hollow elastic column is not immediately deformed by the relationship between the first hollow elastic column and the second hollow elastic column when the insole is pressed and not strongly pressed to the support block of the heel area. Under the barrier of the micro-breathable fiber cloth, the internal air is slowly sprayed upward from the opening thereof, and the first hollow elastic column and the second hollow elastic column return to the original shape when the pressure is not pressed, so that the gas in the shoe is re-introduced back. By entering the first hollow elastic column and the second hollow elastic column, the insole can be provided with the elastic effect of the buffer airbag type independent cylinder. Therefore, an air cushion type slow exhaust and elastic cushioning effect can be generated after the shoe cushion is pressed to improve the airtight environment inside the shoe. [Embodiment] Hereinafter, the embodiments of the present invention will be described in detail with reference to the accompanying drawings, and it should be noted that these drawings are schematic views of the products, and the actual shape and size ratios are shown as 'only one kind. The specific design of the option is 'to provide a clearer description. The shape, size and number of elements can be reduced, enlarged or simplified in equivalent embodiments of different applications. According to a specific embodiment of the present invention, a self-contained cylindrical micro-breathable elastic shoe is illustrated in an exploded view of the first drawing, a second enlarged view of a micro-transparent 6 M440010 gas fiber cloth layer, and a three-dimensional three-dimensional image. The combined view and the soft elastic film of Fig. 4 view the perspective view of the lower surface. The self-contained tubular micro-breathable elastic insole 10 comprises a micro-breathable fibrous layer 110 and a soft elastic film 12 〇. 4 is a perspective view of the lower surface of the soft elastic film 12 ,, and FIG. 5 is a plan view of the lower surface of the flexible elastic film 120 of the independent cylindrical micro-breathable elastic insole, and FIG. 6 is the independent tube. The micro-breathable elastic insole 100 is cut along the line AA of FIG. 5 and is cut away. As can be seen from Fig. 6, the flexible elastic film 12 has an upper surface 121 and a lower surface 122. The micro-breathable fiber cloth layer 11 is adhered to the upper surface 121 of the soft elastic film 12 . The micro-permeable fabric layer 11 can be a braid comprising bamboo carbon fibers. The soft elastic film 120 can be made of silicone rubber or rubber material, and provides a soft and elastic wearing feeling by the user's own material characteristics, and can utilize an extension integrally formed of an elastic material to produce various elastic balloon structures. . The micro-breathable fiber cloth layer 110 itself has a gas permeable effect of the woven fabric. The micro-breathable fibrous layer 110 can be bonded to the soft elastic film 120 by a heat-pressing technique by coating the adhesive, so that the micro-breathable fibrous web 110 and the soft elastic film 120 form a tightly formed structure. As shown in FIG. 5, the lower surface 122 of the flexible elastic film 12 includes a body region 131, a heel region 132, and an arch region 133, wherein the heel region 132 corresponds to the independent cylindrical micro-breathable elasticity. The insole 1 is a region for contacting the human heel, and the arch region 133 corresponds to the independent cylindrical micro-breathable elastic insole 10 for the human arch portion (the small curved portion of the bottom of the human foot 7 has a small curvature) The area of contact is the area between the human toe contact area and the heel contact area and the remaining area of the arch area 133 is excluded. The heel region 132 is provided with a support block 125 for supporting the human heel. Preferably, the support block 125 is integrally formed on the flexible elastic film 12 to be elastic and easy to manufacture and shape. As shown in Figures 3 and 4, the support block 125 can be a non-circular mesh groove, so that the support block 125 can cover the heel region 32' to achieve a better foot. support. As shown in FIG. 4, in the embodiment, the edge of the lower surface 122 of the flexible elastic film 12 can be additionally provided with a plurality of first sliding strips ι26 for preventing the independent cylindrical micro-breathable elastic insole 1〇. Swipe in the shoes. The lower surface 122 of the flexible elastic film 120 faces the side of the toe portion, and a plurality of second anti-slip strips 127 are additionally provided to prevent the independent Qi-type micro-breathable elastic last 100 from corresponding to the toe end of the shoe. Sliding inside. In the present embodiment, the total area of the foot region 131 and the arch region 133 can be defined by the range enclosed by the first slip bar i26 and the support block i25. In addition, the second anti-slip bars 275 and the first soil sliders 120 can have different orientation configurations to provide anti-slip effects in different directions. More specifically, the second anti-slip bars 127 can be parallel and correspond to the user's finger to further prevent the independent squat micro-oxyelastic insole 10 〇 from causing left and right sliding on the less-stressed toe portion. Phenomenon, may also include a strip pattern of arc extension. The first anti-slip strips 12 6 may be in the form of a discontinuous strip, and each length of the first anti-sliding strips 126 is not greater than each length of the second anti-sliding strips 127. As shown in FIGS. 1 and 2 to 6, the flexible elastic film 120 is integrally formed with a plurality of first hollow elastic columns 123 and a plurality of second hollow elastic columns protruding from the lower surface 122 and opening toward the upper surface 121. 124' The first hollow elastic columns 123 are located in the foot region 131, and the second hollow elastic columns 124 are located in the arch region 133 (as shown in Figures 4 and 5). Moreover, as shown in FIG. 6, the first protruding height H1 of the first hollow elastic columns 123 and the second protruding height H2 of the second hollow elastic columns 124 are both greater than the third protruding height of the supporting block 125. H3. The "highlighted height" as set forth herein is the vertical distance from a lower surface 122 of the soft elastic film 120 to the most protruding end of the element, and the third protruding height H3 of the support block 125 is The support block 165 is calculated closest to the edges of the first hollow elastic columns 1 23 . More specifically, the second protruding height H2 of the second hollow elastic columns 124 may be greater than the first protruding height H1 of the first hollow elastic columns 123. In this embodiment, the first hollow elastic columns 123 have a first protrusion south degree H1 of about 6 to 8 meters (mm), and the second hollow elastic points 124 have a second protrusion height H2. The support block 125 has a third protrusion height H3 of about 5 to 8 centimeters (mm). In addition, as shown in FIG. 6, the support surface of the support block 125 can be slightly inclined toward the first hollow elastic columns 1 23 to deform the first hollow elastic columns 1 23 under pressure. The support surface of the support block 125 is more flat on the sole to increase the friction between the two. In addition, corresponding to each of the first hollow elastic columns 123 and each of the

Each of the second hollow elastic columns 124 has an opening i23A toward the upper surface 121 and an opening 124A of the second hollow elastic column 124 (as shown in FIG. 1 ). Preferably, the shape of the first hollow elastic column 123 and the second hollow elastic columns 124 may be a bottom hollowed-out half cone, which helps the first hollow elastic columns 123 and the The second hollow elastic column 124 is completely recovered from the shape after dusting. Moreover, the micro-breathable fiber cloth layer i 10 itself has the effect of slowly venting, and covers the first hollow elastic column 123 and the openings 123A, 124A of the second hollow elastic columns 124, so that The first hollow elastic column 123 and the second hollow elastic columns 124 are formed as a porous airbag cushioning elastic structure that is pressed upward, and the micro-breathable fiber cloth layer does not need to have the openings 123A, 124 aligned with the openings. Eight vents. As shown in Fig. 7, the independent cylindrical micro-breathable elastic shoe last 1 is installed; in the child, when the user walks, the independent cylindrical micro-breathable elastic insole 100 is pressed by the first hollow bomb The deformation of the first hollow elastic column 124 and the deformation of the first hollow elastic column 124 can be reversed against the bottom of the human foot 20, and the reaction force of the slow air jet or the upward air pressure is reached to directly reach the sole of the foot. The cushioning is elastic and comfortable. Preferably, as shown in FIG. 2, the micro-breathable fiber cloth layer 110 has a two-layer structure and has an upper layer (1) and a lower layer 112, and the upper layer 1" has a plurality of vent holes 1 1 of equidistant arrangement. 3' the lower layer 11 2 has a plurality of woven mesh wires 11 4 extending transversely through the venting holes to block the venting holes 3 and the first hollow elastic columns 10 M440010 123, Between the openings 123A, 124A of the second hollow elastic column 124. The micro-breathable fiber cloth layer 110 can completely cover the opening 123 A of the first hollow elastic column 123 and the opening 124A of the second hollow elastic columns 124 , and does not completely hermetically seal the first hollow elastic columns 123 . And the second hollow elastic columns 124. Preferably, the venting holes 113 can be in a ruling ball shape. When the micro-breathable fiber cloth layer 110 is freely bonded to the soft elastic film 120, a partial area of the venting holes 113 can still be connected to the first The hollow elastic column 123 and the openings 123A and 124A of the second hollow elastic columns 124 are provided. In this embodiment, the flexible elastic film 2 has a plurality of first alignment holes 1 2 8 penetrating through the openings 123A of the first hollow elastic columns 123 and the second hollows. An opening 1 24 A of the elastic column 124, the micro-breathable fiber cloth layer 11 further has a plurality of penetrating second alignment holes 115 ′ aligned with the first alignment holes 1 2 8 for the The soft elastic film 12 〇 is combined with the alignment of the micro-breathable fiber cloth layer 11 ,, and the first pair of holes 1 2 8 and the second aligning holes 11 5 of the pair of holes are combined The venting hole of the upper and lower surfaces of the independent cylindrical micro-breathable elastic insole is used for shortening the elasticity of the first hollow elastic column 213 and the second hollow elastic column 24 to the independent cylindrical elastic in the shoe during loading A gas flow path outside the insole 100 to improve gas circulation. Therefore, the combination of the first hollow elastic column 123, the second hollow elastic column 124 and the specific position and height of the support block 125 and the micro-breathable fiber cloth layer is used as the creation. One of the technical means, when the insole is pressed and has not been strongly pressed to the branch of the heel area

II M440010 when the block 125, the first hollow elastic column 123, the second hollow

The elastic column 124 is deformed by pressure. The internal air is sprayed upward by the openings i23A, i24A. However, under the barrier of the micro-breathable fiber cloth layer 11, the jetting airflow is slowed down, so that the first hollow elastic columns 123, the Some of the second and second elastic columns 124 are still elastic. When the pressure is not applied, the first hollow elastic column 223 and the second hollow elastic column 24 are restored to the original shape, so that the gas in the shoe is redirected back into the first hollow elastic columns 123, and the second The first hollow elastic column 124 can make the insole ι 〇〇 have a balloon-type independent cylinder elastic effect, that is, after the shoe last is pressed, a gas-type slow venting and elastic cushioning 9 fruit is generated to improve the shoe. Internal airtight environment. The above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention. Although the present invention has been described above with reference to the preferred embodiment, it is not intended to limit the present invention. Any simple repairs, "^, equivalence changes and modifications made within the scope of this patent application are covered by the technical scope of this creation. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is an exploded view of an element of a self-contained cylindrical micro-breathable elastic insole according to a specific embodiment of the present invention. The figure is a partial enlarged view of a micro-breathable fiber cloth layer of a stand-alone cylindrical micro-breathable third insole 14 in accordance with one embodiment of the present invention. The figure is a perspective view of a stand-alone cylindrical micro-breathable first elastic shoe 1 pad according to a specific embodiment of the present invention. Independent barrel micro-breathing according to one embodiment of the present invention 12 M440010 Elastic insole soft elastic win #一 is a three-dimensional view of the lower surface. Figure 5 is a plan view of the underlying surface of the soft film of the independent film micro-breathable elastic insole according to one of the specific embodiments of the present invention. Figure 6

According to one of the creations of the specific ridge A, the independent cylindrical micro-breathable elastic insole is cut along the line of α·α 涵 _ . Figure 7: According to one of the creations, the independent cylindrical micro-breathable elastic insole shows the wearable pull-up ^ ^, the side perspective view when the tooth is taken. [Main component symbol description] 10 shoes Μ 2 〇 foot 100 independent cylinder micro-breathable elastic insole π 0 micro-breathable fiber cloth layer 111 upper layer m lower layer 113 venting hole 114 'woven wire 11 5 second alignment hole 1 2 2 Surface 123A opening 124A opening 1 2 7 first stop strip 132 heel area 120 soft elastic film 121 upper surface 123 first hollow elastic 枉 124 second hollow elastic 枉 125 support block 126 first stop bar 128 first alignment Hole 131 foot area 13 M440010

133 arch area HI first protruding height H2 second protruding height H3 third protruding height 14

Claims (1)

M440010 VI. Patent Application Range: 1. A self-contained tubular micro-breathable elastic insole mainly comprising a soft elastic film and a micro-breathable fiber cloth layer, the soft elastic film having an upper surface and a lower surface, wherein the micro-breathable fiber cloth The layer is adhered to the upper surface, the lower surface comprises a body region, a heel region and a forefoot region, the heel region is provided with a support block, and the soft elastic film is integrally formed with the lower surface and a plurality of first hollow elastic columns and a plurality of second hollow elastic columns that are open toward the upper surface. The first hollow elastic columns are located in the body region. The second hollow elastic columns are located in the arch region The first protruding height of one of the first hollow elastic columns and the second protruding height of one of the second hollow elastic columns are both greater than a third protruding height of the supporting block. 2. The independent cylindrical micro-breathable elastic shoe according to claim 1 of the patent application, wherein the micro-breathable fiber cloth layer completely covers the openings of the first hollow elastic columns and the openings of the second hollow elastic columns. 3. The independent cylindrical micro-breathable elastic insole according to item 2 of the patent application scope, wherein the micro-breathable fiber cloth layer has a two-layer structure and has an upper layer and a lower layer, the upper layer having a plurality of vent holes arranged at equal intervals. The lower layer has a plurality of woven mesh lines extending transversely through the venting holes to block between the venting holes and the openings of the first hollow elastic columns and the second hollow elastic columns. . 4. The independent cylindrical micro-breathable elastic insole according to the scope of the patent application, wherein the venting holes are rugby-shaped. 15 6 According to the scope of the patent application 坌1, the independent cylindrical micro-breathable elastic insole, wherein the second protruding height of the two elastic columns in the second middle shoes is greater than the first middle and the second The first protruding height of the column. According to the patent application scope, the independent cylindrical micro-breathable elastic shoe of the first item is formed on the soft elastic film to have elasticity. 7. According to the patent application model = the independent cylindrical micro-breathable elastic shoe 耗', which is a non-circular mesh groove. 8. The independent cylindrical micro-breathable elastic insole according to item 7 of the patent application, wherein the support block covers the heel area. 9. The independent cylindrical micro-breathable elastic insole according to the scope of the patent application 帛6, wherein the supporting surface of the supporting block is inclined to the first hollow elastic columns. 1 . The independent cylindrical micro-breathable elastic insole according to item i of the patent application, wherein the soft elastic film has a plurality of first alignment holes penetrating, which are not aligned with the openings of the first hollow elastic columns The opening of the second hollow elastic column further comprises a plurality of penetrating second alignment holes aligned with the first alignment holes. 11. The independent cylindrical micro-breathable elastic shoe pad according to claim 1 of the patent application, wherein the lower edge of the soft elastic film is provided with a plurality of first anti-slip bars. 12. The independent cylindrical micro-breathable elastic insole according to the scope of the patent application, wherein the lower surface of the soft elastic film faces the finger portion of the 16 M440010 side, and a plurality of second anti-slip strips are additionally provided. The independent cylindrical micro-breathable elastic insole according to claim 1, wherein the first hollow elastic column and the second hollow elastic column are in the shape of a bottom hollow half cone. 14. The self-contained tubular micro-breathable elastic insole according to item 1 of the patent application, wherein the micro-breathable fiber cloth layer is a braid comprising bamboo carbon fibers. 17