Source: https://patents.google.com/patent/ES2521617T3/en
Timestamp: 2020-02-17 01:04:10
Document Index: 300931501

Matched Legal Cases: ['art 58', 'art 60', 'art 62', 'art 74', 'art 1', 'art.\n1']

ES2521617T3 - Template with enhanced padding effect and anatomical centering device - Google Patents
Template with enhanced padding effect and anatomical centering device Download PDF
ES2521617T3
ES2521617T3 ES03770707.2T ES03770707T ES2521617T3 ES 2521617 T3 ES2521617 T3 ES 2521617T3 ES 03770707 T ES03770707 T ES 03770707T ES 2521617 T3 ES2521617 T3 ES 2521617T3
ES03770707.2T
2002-12-23 Priority to US10/330,045 priority Critical patent/US7107705B2/en
2002-12-23 Priority to US330045 priority
2003-10-14 Application filed by Spenco Medical Corp filed Critical Spenco Medical Corp
2003-10-14 Priority to PCT/US2003/032075 priority patent/WO2004060095A1/en
2014-11-13 Publication of ES2521617T3 publication Critical patent/ES2521617T3/en
Template, comprising: a base (22) of foamed material defining the shape of the template (20) and having an upper face and a lower face; a first anatomical centering element (32) positioned along the medial side of said base (22) from approximately the anterior part of the arch to the posterior part of the heel; a first cushion pad (38) defining a way to provide a padded effect to the area of the metatarsal joints (100A-E) and the proximal phalanges (102) and to an extended part of the fifth metatarsal (100E) and placed on said bottom face of said base (22); and a second anatomical centering element (30) placed along the lateral face of said base (22) that extends along the side of the talus (92) and the calcaneus (90), the second centering element being extended anatomical (30) around a part of the heel and being separated from the first anatomical centering element (32) in order to define a compression zone (40).
E03770707
Template with enhanced padding effect and anatomical centering device. 5
The present invention relates to insoles and, in particular, to replacement soles for footwear that have an improved padded effect and aid for anatomical centering.
A large part of the footwear for sale today includes replacement templates. Replacement templates offer the user numerous advantages that include the ability to replace worn templates, the
15 ability to select a template specifically designed to meet the needs of the user, for example, running, standing for extended periods of time, fallen foot arches, etc. Many replacement templates are manufactured from a foamed material that can lose its padding properties over time due to compaction of normal wear and tear. Therefore, replacement templates allow consumers to maintain the benefits of the template by replacing those that are worn.
20 Replacement insoles can be manufactured in individual sizes that correspond to the size of the footwear or can be manufactured in a limited number of sizes and the insole can be cut to the desired size. The replacement templates have been designed to meet specific purposes such as damping, and structures designed to facilitate the correct arrangement of the foot in orthopedic terms, support
25 for fallen arches, etc. Frequently, template designs intended to contribute to the correct alignment of the foot, or to attend to other orthopedic conditions, have resulted in a more complex construction than insoles designed solely to provide a quilting effect. The more complex construction often includes additional features such as rigid components to contribute to the correct orientation of the foot and maintain it.
30 An advantage of manufacturing replacement templates in individual sizes, corresponding to shoe sizes, lies in the fact that more complex designs can be used more effectively to produce orthopedic results. Previously, it has been difficult to manufacture a multi-sized insole that comprised quite rigid support elements to achieve certain orthopedic results. The inconvenient
35 of producing replacement templates in individual sizes includes the fact that a mold is needed for each size, an inventory and marketing support for all shoe sizes, there is a greater need for space to devote to retail, and other manufacturing and marketing issues. In addition, template designs that have rigid components even when made according to each shoe design, often do not fit correctly in all shoe sizes of one size
40 determined due to differences in shoe designs used by different manufacturers. The advantage of multi-size replacement templates includes a reduced number of molds, a reduced inventory and also less exposure space needed. The disadvantage of the previous multi-size replacement templates has been the difficulty of effectively incorporating features designed to achieve orthopedic advantages.
45 Therefore, there has been a need for a multi-size replacement template design that can use relatively rigid support elements and still fit correctly in a variety of different sized footwear. There has also been a need for a replacement insole design that includes relatively rigid support elements that can best fit a given shoe size to compensate
50 differences in shoe designs from different manufacturers.
Document US2003 / 0093920 A1, published after the priority date of the present invention, discloses a support element for the foot that has a U-shaped plate that extends around the heel area of the shoe.
55 US Patent No. 2,224,642 discloses a template intended to be worn inside a shoe. Said template comprises a first beveled strip at one edge and a second beveled strip placed along the other edge that is the inside of the template. The two bevel strips do not extend around a part of the heel area.
60 US Patent No. 6,301,805 B1 discloses a template comprising:
-a base of foamed material that defines the shape of a template and with an upper face and a lower face;
- an anatomical centering element that extends from around the anterior part of the arch to the posterior part of the heel;
65 E03770707
- a first cushion pad that defines a shape intended to provide the padded effect of the area of the joints of the metatarsals and proximal phalanges and to an extended part of the fifth metatarsal bone and placed on said lower face of said base.
The anatomical centering element has two posterior heel tabs separated from each other at the back, which define a space.
Document FR 2,652,260 discloses a template provided with a medial and lateral anatomical padding device.
In one aspect, the present invention relates to a template as claimed in claim 1 and made from a base defining the shape of a template and having an upper and lower face. The template comprises a side face (the outside of the foot) and a medial side (the inside of the foot). A medial anatomical centering element is arranged along the medial side of the base and extends from around the anterior part of the arch to the heel. A lateral anatomical centering element is disposed along the lateral face of the base and extends along the lateral part of the template adjacent to the talus and the calcaneus. Said anatomical centering devices are made of a relatively rigid but flexible material. In a preferred embodiment, the template also comprises one or more cushion pads on the underside. Preferably, two cushion pads are provided. The first cushion pad is shaped to provide a quilting effect in the area of the central part of the calcaneus and extends along the lateral part of the talus side. Another pad is shaped to provide a quilting effect under the joints of the metatarsals and proximal phalanges and has a part that extends along the fifth metatarsal. Preferably, the padding cushion pads have a plurality of ducts to facilitate the flow of air into and out of the pad. Also, in a preferred embodiment, the base defines a plurality of directed air passages that extend through the base and the top sheet fixed to the base. The air passages are shaped so as to facilitate an orientable pumping action by the action of the foot as it is tilted, in order to circulate the air above and below the template. In another preferred embodiment, the topsheet consists of a fabric with a low coefficient of friction and with a vapor barrier film attached to the side adhered to the base.
The present invention will be more readily understood by reference to the accompanying drawings in conjunction with the detailed description. The drawings in the detailed description are of preferred embodiments of the invention and, therefore, should not be construed as limiting.
Figure 2 is a bottom view of an embodiment of the present invention;
Figure 3 is an inverted cross-sectional view of Figure 2 along line 3 to 3;
Figure 4 is an inverted cross-sectional view of Figure 2 along line 4 to 4;
Figure 5 is an inverted cross-sectional view of Figure 2 along line 5 to 5;
Figure 6 is a perspective view of an embodiment of an anterior cushion pad;
Figure 7 is a perspective view of an embodiment of a rear cushion pad;
Figure 8 is a bottom view of another embodiment of the present invention;
Figure 9 is a bottom view of an embodiment that is not part of the present invention, the bones of the foot being superimposed thereon;
Figure 10 is a cross-sectional view of an air passage used in the present invention;
Figure 11A is a perspective view of the medial anatomical centering device; Y
Figure 11B is a perspective view of the anatomical centering side device.
Figure 1 is a perspective view of the template 20 of the present invention. The template 20 is made from a base 22 of molded foam material. Preferably, the base 22 defines the shape of a template
for a whole or partial insole such as, for example, a insole that extends for three quarters of the length of the footwear from the heel to the front of the foot. The base 22 is preferably molded to provide a raised edge 24 along the arc and around the heel. In a preferred embodiment, the base 22 is covered by the top sheet 26. Additionally, in a preferred embodiment, a series of air passages 28 extend through the base 22 and the top sheet 26 to allow Air circulation above and below the template. Along the rear edge part of the template 20 a lateral anatomical central device 30 is provided (the medial anatomical centering device is not shown in Figure 1). In the different figures, similar numbers will be used to refer to similar elements.
Figure 2 is a bottom view of a preferred embodiment of the template 20 of the present invention. As can be seen in the figure, a medial anatomical centering device 32 of a relatively rigid material is provided to provide support for the arch and the outside of the medial side of the foot. Opposite the medial anatomical centering device 32 is provided the lateral anatomical centering device 30. Both anatomical centering devices cover a part of the lower face of the base 22. In a preferred embodiment, grooves 34 are provided in the part front of the base 22. These slots correspond to several lengths for the different shoe sizes and facilitate the cutting of the insole to fit the user's footwear. Arranged at the bottom of the base 22 is provided a rear cushion pad 36 and a front cushion pad 38. The medial and lateral anatomical centering devices 30 and 32 do not join at the back and are separated by a part of the base mobile. Said separation provides a compression zone 40 such that when the insole is placed in the footwear, said area can be compressed to minimize the possible bending in the heel area when the insole is placed in the footwear of smaller size. This makes it easy for the insole to fit correctly in shoes of different sizes. Without this relief area, if the first and second anatomical centering devices were joined to form a single piece, the correct fit of the insole would be compromised in the shoes of different sizes.
Figure 3 represents an inverted cross section of the insole of Figure 2 according to line 3 to 3. The base 22 defines a first point for the cushion pad 36 of the heel. The first point, in the form of a cavity 42, is intended to receive the rear cushion pad 36. The base 22 also defines channels 44 and 46 intended to receive the medial and lateral anatomical centering devices 32 and 30. It should be noted that in the Figures 3, 4 and 5 the cross-sectional representations have been reversed so that the figures appear in such a way that the upper part of the template is in the upper part of the image. Above the base 22 is the upper sheet 26 (the drawing is not illustrated to scale in order to illustrate the upper sheet).
In Figure 4, an inverted cross-section is shown along line 4 to 4 of Figure 2. In Figure 4, the base 22 can be seen with the top sheet 26 and a continuation of the channel 44. The channel 44 is larger in the area of the arch so that the medial anatomical centering device 32 is disposed below the arch area of the foot and extends upwardly from a part of the side of the arch of the template.
Figure 5 represents an inverted cross-section according to line 5 to 5 of Figure 2. Again, as illustrated, the upper sheet 26 is located on the upper surface of the base 22. The base 22 defines a cavity 48 in which the anterior cushion pad 38 is arranged. In a preferred embodiment, the edge 50 of the cavity 48 has a beveled edge. Also, in a preferred embodiment, the edge of the cushion pad 38 has a bevel. Similarly, in Figure 3, the edges 52 of the cavity 42 and the edge 54 of the rear cushion pad 36 have a bevel. Additionally, in a preferred embodiment, the upper edge of the cushion pads 36 and 38 does not come into contact with the upper edge of the cavities 42 and 48 in order to provide a reduced space between the base and the cushion pads. By providing a reduced space between the edges, in addition to the beveling of the edges, a space is provided in which the cushion pads can be compressed.
Figure 6 represents a perspective view illustrating the anterior cushion pad 38. This would be a cushion pad for the left foot. The anterior cushion pad 38 has a first oblong area 54 shaped and sized to provide a padded effect in the joint area between the first metatarsals and the proximal phalanges. In a preferred embodiment, extending from one end of the oblong area 54 is the extension 56 sized to provide a padded effect along an extended part of the fifth metatarsal. In a preferred embodiment, the extension 56 comprises a raised part 58 and the oblong area 54 comprises a raised part 60. Said raised areas are separated by a thinner part 62, which provides a zone for compression, and also a channel to promote air circulation. In a preferred embodiment, the cushion pad comprises a plurality of steps 64. Said steps promote the flow of air into and out of the cushion pads in order to improve the cushioning function.
Figure 7 depicts the rear cushion pad 36. Said cushion pad 36 comprises a heel area 66 shaped to provide support under the central part of the calcaneals. In a preferred embodiment, it has an elongated and oval shape. However, a circular, square or other shape is also useful. Extending from the heel area is the extension 68 that extends along a part of the lateral face of the talus. Preferably, it extends more than about 30%
from the lateral part of the talus. The rear cushion pad 36 in the preferred embodiment has an elevated area 66 below the heel and a second raised area 72 below the talus. Said elevated zones are separated by a thinner part 74. Said zone allows the compression of the two raised zones and also provides a space to promote air circulation. The rear cushion pad 36 also comprises a plurality of steps 64 intended to promote air circulation in and out of said cushion pad.
Figure 8 presents an alternative embodiment of the present invention. In Figure 8, the template 80 comprises a base 22, a first anatomical centering device 32 and a second anatomical centering device 30. The device of the preferred embodiment also comprises a plurality of air passages 28. This form of embodiment differs from the embodiment of Figure 2 because the base defines four separate cavities intended to receive four cushion pads 82, 84, 86 and 88. The cushion pad 82 is shaped so as to provide a padded effect in the area of the joints between the metatarsals and the first phalanx. The cushion pad 84 is shaped to provide a padded effect along the area comprising at least a part of the fifth metatarsal. The cushion pad 86 is shaped to provide a padded effect along a side part of the talus side. The heel cushion pad 88 is shaped to provide a padded effect under the central part of the calcaneus.
Figure 9 illustrates the overlapping foot bones on a bottom view of a template that is not part of the present invention. In the heel of the foot is the calcaneus 90 and in front of the calcaneus is the talus 92. In front of the talus 92 in the medial side is the navicular 94 and in the lateral face is the cuboid bone 96. In front of the cuboid bone and from the navicular are the cuneiform 98. In front of the cuneiform 98 and the cuboid bone 96 are the metatarsals 100A to 100E. The first metatarsal 100A is disposed on the medial side of the foot and the fifth metatarsal 100E is located on the lateral side of the foot. In front of the metatarsals are the proximal phalanges 102. In front of the proximal phalanges 102 are the middle phalanges 104, and at the end of each finger are the distal phalanges
Figure 10 depicts a cross-sectional view of an air passage 28. The air passage has a conical shape that creates an elliptical opening 110 at the bottom of the base 22, and the air passage extends through the fabric layer 132 and the film 134 of the topsheet 26. In a preferred embodiment, a plurality of air passages are arranged in front of the front cushion pad facing the front in order to direct the air towards the previous part of the template. In a preferred embodiment, a plurality of air passages arranged between the rear of the anterior cushion pad, and in front of the midpoint of the arch is provided. Said air passages are preferably formed in order to orient the air towards the back of the template.
Figure 11A represents a perspective view of the medial anatomical centering device 32. Said device 32 has a curved surface. The back 120 generally has the shape of a "J" and the bottom part becomes wider as it approaches the arc. In the preferred embodiment, the lower part under the section of the arch 122 is shaped as a profile of the lower part of the arch of the foot. Figure 11B depicts a perspective view of the medial and lateral anatomical centering device 30. In a preferred embodiment, each anatomical centering device comprises a plurality of channels 130 provided on the outer surface. These channels provide good fit and good air circulation. The channels provide areas for compression of the outer wall of the footwear towards a part of the channel. Also, the channels provide a few steps for air to circulate above and below the template.
In a preferred embodiment, the topsheet 26 consists of a layer of nonwoven fabric 132 with a film applied in sheet form 134 to the back face. Said film serves as a barrier so that the liquid foam used in the molding of the base does not penetrate the fabric during the molding process. This same film will also act as a moisture barrier between the fabric and the foam during use. In one embodiment, the fabric is treated with an antibacterial agent, which in combination with the moisture barrier, reduces the smell that gives rise to the bacteria and fungi. Also, preferably the fabric has a low coefficient of friction in order to minimize the possibility of blisters. Suitable materials for the fabric layer include polyester and nylon. Suitable materials for the film include polyurethanes and acrylics.
The base of the insole is preferably molded from a foam with padding properties substantially the same as the natural leather pads found on the foot. Preferably, the foam consists of a polyurethane foam having a durometer (hardness) of preferably between about 75 and about 80 according to the Shore range "00". Preferably, the base has a thickness of approximately 0.160 inches in the area of the fingers and a thickness of approximately 0.380 inches in the area of the heel. Preferably the base provides a quilting value between approximately 14 and 17 (G-peak) with an Exeter Impact Tester. Also, in the form of
The preferred embodiment illustrates the molded foam on the upper surface such that the insole conforms to the natural shape of the foot.
The anterior cushion pad and the rear cushion pad can be molded in situ or separately. Preferably, for the sake of construction, the cushion pads are molded separately and glued into the cavities in the molded base. Preferably the cushion pads are made from a polyurethane foam. The cushions of the thickest part have a thickness of approximately 0.220 inches, the front part of the foot of the base has a thickness of approximately 0.120 inches and the areas of the reduced thickness pad have a thickness of approximately 0.060 inches. Each of the cushion pads has a plurality of 120 to 500 perforations. These steps serve to increase the flow of air in and out of the pads. In a preferred embodiment each conduit has a diameter of between about 0.030 inches and 0.020 inches, and is separated from each other, between 0.090 and 0.100 inches. Likewise, the air flow inside the pad and around the template is facilitated by the ports directed for the circulation of air that are molded in the base of the template and arranged in the front and the back of the pad previous shock absorber Said air circulation ports have a truncated conical shape as illustrated in Figure 10, which illustrates a cross section of the air passages. Said air passages in front of the cushion pad preferably have an opening that communicates with the upper part of the template and passes through to the upper sheet (if used). The conical shape results in a conduit that extends as a channel to the front part from the top of said openings. The air circulation ports behind the front cushion pads have openings in the top sheet and channels formed in the bottom of the base that extend backward from the holes. The lower opening of the air passage has an elliptical shape. The upper opening has a diameter of between about 0.060 and about 0.080 inches, and the elliptical opening at the bottom has a long axis from about 0.4 to about 0.5 inches in length and a short axis of about 0.14 to 0.15 inches in length.
The anterior cushion pad in the preferred embodiment comprises an extension on the side face that extends backward to provide a padded effect on the impact zones of the cuboid and the fifth metatarsal. In a preferred embodiment, the anterior cushion pad has a durometer (hardness) of approximately 70 to 75 according to the "00" range of Shore, and has a thickness of approximately 0.134 inches in the thickest part and approximately 0.045 inches in The thinnest part.
In addition to the air passages, the beveled perimeter of the cavities and the cushion pads allows increased air flow in and out of the pad by providing a channel for air flow. With each step the foot pushes the air through the air passages provided in the upper surface and in the lower part of the template through the elliptical outlet ports. The elliptical shape of the air passages directs the air in the lower part of the base both forward and backward that, in addition to facilitating the flow of air in and out of the cushion pads, also contributes to cooling the foot and dissipating moisture .
In a preferred embodiment, the rear cushion pad is made of the same material as the previous cushion pad, or of a similar material. This pad can be molded separately and then pasted into the cavity of the molded base. Typically, the rear cushion pad is thicker than the previous cushion pad in order to contribute to the padded effect against the extreme force of heel impacts. In one embodiment, the rear cushion pad has a durometer (hardness) of approximately 65 to 70 according to the Shore range "00" and a thickness of approximately 0.220 inches in the thickest part and approximately 0.110 inches in the thinnest part . Like the anterior cushion pad, the rear cushion pad comprises an expansion type joint at the edge and beveled sides to allow the material to expand during impact. This property contributes to the performance of the different materials that are used for the pads and the base that preferably have different densities to expand, and is very useful in the absorption and dispersion of impact energy. The back cushion pad, in addition to providing the padded calcaneus effect, also includes an additional area that focuses on the talus load.
The two anatomical centering devices are provided on each side of the back of the template. The lateral anatomical centering device starts at a point between the cuboid and the talus joint and follows around a part of the heel, and preferably extends around to about the midpoint of the back of the heel. The medial anatomical correction device begins at the heel and preferably extends from the back of the heel through the arch and ends along the side of the first metatarsal. A space between the medial and lateral anatomical correction devices is provided in order to facilitate the fit of the insole in the footwear of different size and design.
Preferably, the anatomical centering devices are made of a rigid material that has a certain stiffness. In a preferred embodiment, the anatomical centering devices have a durometer (hardness) of between approximately 90 and 100 according to the "00" range of Shore, and a thickness in the thickest part of
approximately 0.100 inches and approximately 0.070 inches in the thinnest part. Therefore, channels 130 have a depth, preferably, of about 0.030 inches. Although the material is rigid, it is still flexible. Preferably, ribs are provided on the outside of the anatomical centering device. The space 40 between the anatomical centering devices is preferably between about 0.2 and 0.5 inches. This provides areas where parts of the footwear can be compressed within the spaces to provide and allow their fit into the different footwear. Preferably, the anatomical correction devices are injection molded in the form of an inverted J or J, depending on the side of the template. The shape and rigidity of the anatomical correction device are transferred up and into the base of the insole thus creating a heel seated, like a cup, in an elevated arc area. The characteristic of the
10 cup of the heel of the anatomical correction device helps to stabilize the foot and keep it centered and contained on the back cushion, or the heel. It also provides support for the arch area and is designed to lift and support the brevis muscles, ligaments and tendons of the foot.
Preferred materials for the various components are: 15 Part 1 Material
Upper sheet of fabric
Although the present invention has been described in relation to the preferred embodiments, the detailed description does not limit the invention and other modifications will become apparent to the person skilled in the art.
1. Template, comprising:
5 a base (22) of foamed material defining the shape of the template (20) and having an upper face and a lower face;
a first anatomical centering element (32) positioned along the medial side of said base (22) from approximately the anterior part of the arch to the posterior part of the heel;
10 a first cushion pad (38) defining a way to provide a padded effect to the area of the metatarsal joints (100A-E) and the proximal phalanges (102) and to an extended part of the fifth metatarsal (100E) and placed on said lower face of said base (22); Y
15 a second anatomical centering element (30) placed along the lateral face of said base (22) that extends along the side of the talus (92) and the calcaneus (90), the second centering element being extended anatomical (30) around a part of the heel and being separated from the first anatomical centering element (32) in order to define a compression zone (40).
A template according to claim 1, further comprising a second cushion pad (36) that defines a shape to provide a padded effect to the area of the central part of the calcaneus and that extends along the lateral part of the talus and is placed on the underside of said base (22).
3. Template according to claim 2, wherein the second cushion pad (36) has a shape
25 generally oval and a part that protrudes forward from the generally oval part along the lateral face of the talus.
4. Template according to claim 1 or 3, wherein said base (22) of foamed material defines the shape of a template and has an upper face and a lower face and further defines a first point (48) intended to receive
30 a first cushion pad (38), and a second point (42) intended to receive a second cushion pad (35) and further defines a plurality of air passages directed through said base.
5. Template according to any of claims 1 or 4, wherein the first cushion pad (38) has a generally oblong shape with a long dimension transversely oriented below the
35 joints of the metatarsals and proximal phalanges and presents a part that protrudes back below the fifth metatarsal.
6. Template according to any of claims 3 to 5, wherein said second cushion pad (36)
defines a plurality of steps to facilitate the flow of air into and out of said second buffer pad 40.
7. Template according to any of the preceding claims, wherein said first cushion pad
(38) defines a plurality of steps to facilitate the flow of air into and out of said first pad
shock absorber Four. Five
8. Template according to claims 4 to 7, wherein said first cushion pad (38) is sized such that said first cushion pad is smaller than said first point (48) to provide an expansion joint with each other.
Template according to claim 4 or 8 wherein said second cushion pad (36) is sized such that said second cushion pad is smaller than said second point (42) to provide an expansion joint with each other.
10. Template according to any of the preceding claims, wherein the first cushion pad 55 comprises a foamed material.
11. Template according to any of claims 2 to 10, wherein the second cushion comprises a foamed material.
ES03770707.2T 2002-12-23 2003-10-14 Template with enhanced padding effect and anatomical centering device Active ES2521617T3 (en)
US10/330,045 US7107705B2 (en) 2002-12-23 2002-12-23 Insole with improved cushioning and anatomical centering device
US330045 2002-12-23
ES2521617T3 true ES2521617T3 (en) 2014-11-13
ES03770707.2T Active ES2521617T3 (en) 2002-12-23 2003-10-14 Template with enhanced padding effect and anatomical centering device
EP (3) EP1619972B1 (en)
AU (1) AU2003279214A1 (en)
HK (3) HK1079060A1 (en)
PT (1) PT1619972E (en)
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2002-12-23 US US10/330,045 patent/US7107705B2/en not_active Expired - Fee Related
2003-10-14 DK DK03770707T patent/DK1619972T3/en active
2003-10-14 EP EP03770707.2A patent/EP1619972B1/en not_active Expired - Fee Related
2003-10-14 EP EP14003009.9A patent/EP2829190A1/en not_active Withdrawn
2003-10-14 AU AU2003279214A patent/AU2003279214A1/en not_active Abandoned
2003-10-14 EP EP14003008.1A patent/EP2829189A1/en not_active Withdrawn
2003-10-14 WO PCT/US2003/032075 patent/WO2004060095A1/en active Application Filing
2003-10-14 DE DE20321738U patent/DE20321738U1/en not_active Expired - Lifetime
2003-10-14 ES ES03770707.2T patent/ES2521617T3/en active Active
2003-10-14 PT PT03770707T patent/PT1619972E/en unknown
2006-02-14 HK HK06101886A patent/HK1079060A1/en not_active IP Right Cessation
2015-07-10 HK HK15106629.9A patent/HK1205887A1/en unknown
2015-07-10 HK HK15106628.0A patent/HK1205886A1/en unknown
EP2829190A1 (en) 2015-01-28
EP1619972A1 (en) 2006-02-01
AU2003279214A1 (en) 2004-07-29
HK1079060A1 (en) 2014-12-12
EP1619972B1 (en) 2014-09-17
PT1619972E (en) 2014-12-23
DE20321738U1 (en) 2009-04-09
US20040118017A1 (en) 2004-06-24
US7107705B2 (en) 2006-09-19
DK1619972T3 (en) 2015-01-05
HK1205886A1 (en) 2015-12-31
HK1205887A1 (en) 2015-12-31
EP2829189A1 (en) 2015-01-28
WO2004060095A1 (en) 2004-07-22
AU2008298868B2 (en) 2012-08-30 Triple density gel insole
US7434338B2 (en) 2008-10-14 Insole construction for footwear
RU2322938C2 (en) 2008-04-27 Ready-fitted insole and weighted footwear