INSOLE

Abstract

An insole having, a base layer, a top layer fixedly secured to the base layer, a middle layer comprised of the base layer and the top layer positioned between the base layer and the top layer, a pressure projection extending upwardly from within the middle layer and extending past an upper surface of the upper layer, the projection including a disc fixedly secured within the middle layer, an annular ring fixedly secured atop the disc, a circular metal insert fixedly secured atop the disc within the annular ring, the circular metal insert having a horseshoe-shaped aperture therein. The insole may also include projections either positioned proximate an inside arch and/or positioned proximate an outside arch. The insole may also comprise a projection positioned proximate to a midfoot region.

Claims

1. An insole, comprising: a base layer; a top layer fixedly secured to said base layer; a middle layer comprised of said base layer and said top layer positioned between said base layer and said top layer; and, a pressure projection extending upwardly from within said middle layer and extending past an upper surface of said upper layer, said projection comprising: a disc fixedly secured to said base layer; an annular ring fixedly secured atop said disc; a circular metal insert fixedly secured atop said disc within said annular ring, said circular metal insert having a horseshoe-shaped aperture therein.

2. The insole recited in claim 1, wherein said base layer is a combination of polyurethane and polyamide.

3. The insole recited in claim 2, wherein said top layer is a combination of polyurethane and polyamide, wherein said top layer is arranged to cover said pressure projection thereby forming a bulge extending from said top layer.

4. The insole recited in claim 1, wherein said annular ring is comprised of zinc.

5. The insole recited in claim 1, wherein said circular metal insert is comprised of copper.

6. An insole, comprising: a base layer; a top layer fixedly secured to said base layer; a middle layer comprised of said base layer and said top layer positioned between said base layer and said top layer; a pressure projection extending upwardly from within said middle layer and extending past an upper surface of said upper layer, said projection comprising: a disc fixedly secured to said base layer; an annular ring fixedly secured atop said disc; a circular metal insert fixedly secured atop said disc within said annular ring, said circular metal insert having a horseshoe-shaped aperture therein; and, a pair of projections, one of said pair of projections positioned proximate an inside arch and one of said pair of projections positioned proximate an outside arch, said pair of projections proximate to a hindfoot region.

7. The insole recited in claim 6, wherein said base layer is a combination of polyurethane and polyamide.

8. The insole recited in claim 7, wherein said top layer is a combination of polyurethane and polyamide, wherein said top layer is arranged to cover said pressure projection thereby forming a bulge extending from said top layer.

9. The insole recited in claim 6, wherein said annular ring is comprised of zinc.

10. The insole recited in claim 6, wherein said circular metal insert is comprised of copper.

11. The insole recited in claim 6, wherein said inside projection and said outside projection form a wedge on said top layer.

12. An insole, comprising: a base layer; a top layer fixedly secured to said base layer; a middle layer comprised of said base layer and said top layer positioned between said base layer and said top layer; and, a pair of projections, one of said pair of projections positioned proximate an inside arch and one of said pair of projections positioned proximate an outside arch, said pair of projections proximate a hindfoot region.

13. The insole recited in claim 11, wherein said base layer is a combination of polyurethane and polyamide.

14. The insole recited in claim 12, wherein said top layer is a combination of polyurethane and polyamide.

15. The insole recited in claim 12, wherein said inside projection and said outside projection form a wedge on said top layer.

16. An insole, comprising: a base layer; a top layer fixedly secured to said base layer; a middle layer comprised of said base layer and said top layer positioned between said base layer and said top layer; a projection positioned proximate to an inside arch of a hindfoot region, said projection extending from said top layer; and, a projection positioned proximate to a midfoot region, said projection of said midfoot region extending from said top layer.

17. The insole recited in claim 16, wherein said base layer is a combination of polyurethane and polyamide.

18. The insole recited in claim 17, wherein said top layer is a combination of polyurethane and polyamide.

19. The insole recited in claim 16, wherein said inside projection and said projection of said midfoot region form a wedge proximate said midfoot region on said top layer.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0014] Various embodiments are disclosed, by way of example only, with reference to the accompanying schematic drawings in which corresponding reference symbols indicate corresponding parts, in which:

[0015] FIG. 1A is a top perspective view of a first embodiment of present invention;

[0016] FIG. 1B is a top view of the invention shown in FIG. 1;

[0017] FIG. 2 is a cross-sectional view taken generally along line 2-2 shown in FIG. 1B;

[0018] FIG. 3A is a top perspective view of pressure projection 20 of the present invention;

[0019] FIG. 3B is a top view of pressure projection 20 shown in FIG. 3A;

[0020] FIG. 3C is an exploded view of pressure projection 20;

[0021] FIG. 4A is a top perspective view of a second embodiment of the present invention;

[0022] FIG. 4B is a top view of the invention shown in FIG. 4A;

[0023] FIG. 5A is a cross-sectional view taken generally along line 5-5 shown in FIG. 4B;

[0024] FIG. 5B is a cross-sectional view taken generally along line 5-5 shown in FIG. 4B specifically illustrating inside arch projection 251a and outside arch projection 252a;

[0025] FIG. 6A is a top perspective view of a third embodiment of the present invention;

[0026] FIG. 6B is a top view of the invention shown in FIG. 6A;

[0027] FIG. 7A is a cross-sectional view taken generally along line 7-7 shown in FIG. 6B

[0028] FIG. 7B is a cross-sectional view taken generally along line 7-7 shown in FIG. 6B specifically illustrating inside arch projection 351a and outside arch projection 352a;

[0029] FIG. 8A is a top perspective view of the fourth embodiment of the present invention;

[0030] FIG. 8B is a top view of the invention shown in FIG. 8A;

[0031] FIG. 9A is a cross-sectional view taken generally along line 9A-9A shown in FIG. 8B; and,

[0032] FIG. 9B is a cross-sectional view taken generally along line 9B-9B shown in FIG. 8B.

DETAILED DESCRIPTION

[0033] At the outset, it should be appreciated that like drawing numbers on different drawing views identify identical, or functionally similar, structural elements. It is to be understood that the claims are not limited to the disclosed aspects.

[0034] Furthermore, it is understood that this disclosure is not limited to the particular methodology, materials and modifications described and as such may, of course, vary. It is also understood that the terminology used herein is for the purpose of describing particular aspects only and is not intended to limit the scope of the claims.

[0035] Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood to one of ordinary skill in the art to which this disclosure pertains. It should be understood that any methods, devices or materials similar or equivalent to those described herein can be used in the practice or testing of the example embodiments.

[0036] It should be appreciated that the term “substantially” is synonymous with terms such as “nearly,” “very nearly,” “about,” “approximately,” “around,” “bordering on,” “close to,” “essentially,” “in the neighborhood of,” “in the vicinity of” etc., and such terms may be used interchangeably as appearing in the specification and claims. It should be appreciated that the term “proximate” is synonymous with terms such as “nearby,” “close,” “adjacent,” “neighboring,” “immediate,” “adjoining,” etc., and such terms may be used interchangeably as appearing in the specification and claims.

[0037] The insole of the present invention, described herein, includes four (4) different embodiments where each embodiment is geared to assist a user based on different physical ailments.

[0038] The first embodiment of the insole generally comprises a base layer, a pressure projection and a top layer. The base layer and top layer are preferably made using Polyurethane and Polyamide (Nylon 66). The pressure projection comprises a preferably plastic or polymer comprised disc fixedly secured to the base layer, a zinc annular ring fixed secured atop the disc, and a copper circular metal insert with a horseshoe-shaped aperture fixedly secured atop the disc within the annular ring. The pressure projection is embedded within the base layer and the top layer, i.e., a middle layer positioned between the top and bottom layers. The base layer and the top layer are adhered with double sided adhesive tape in a preferred embodiment, however, alternative fixation means may be contemplated.

[0039] The second embodiment of the insole generally comprises a base layer, a pressure projection and a top layer. The base layer and top layer are preferably made using Polyurethane and Polyamide (Nylon 66). The pressure projection has two components. The first component comprises a preferably plastic or polymer comprised disc fixedly secured to the base layer, a zinc annular ring fixed secured atop the disc, and a copper circular metal insert with a horseshoe-shaped aperture fixedly secured atop the disc within the annular ring. The second component comprises two upwardly facing projections positioned proximate to the inside arch and proximate to the outside arch of the hindfoot region. The pressure projection having the metal insert are preferably embedded within the base layer and the top layer, i.e., a middle layer positioned between the top and bottom layers. Alternatively, both projections located proximate the inside arch and the outside arch may extend upwardly from the top layer, fixedly secure thereto or may be integrally formed with the top layer and middle and arranged to extend upwardly. Alternatively, both projections located proximate the inside arch and the outside arch may be embedded within the middle layer and arranged to extend upwardly past the surface of the top layer. The base layer and the top layer are adhered with double sided adhesive tape in a preferred embodiment, however, alternative fixations means may be contemplated. Both of the projections located proximate the inside arch and the outside arch are further arranged to form a wedge positioned on the top layer. Alternatively, both projections may be separate material extending from the middle layer and covered by the top layer thereon.

[0040] The third embodiment of the insole generally comprises a base layer, a pressure projection and a top layer. The base layer and top layer are preferably made using Polyurethane and Polyamide (Nylon 66). The insole also comprises two upwardly facing projections positioned proximate to the inside arch and proximate to the outside arch of the hindfoot region. Both projections located proximate the inside arch and the outside arch may extend upwardly from the top layer, fixedly secure thereto or may be integrally formed with the top layer and middle and arranged to extend upwardly. Alternatively, both projections located proximate the inside arch and the outside arch may be embedded within the middle layer and arranged to extend upwardly past the surface of the top layer. The base layer and the top layer are adhered with double sided adhesive tape in a preferred embodiment, however, alternative fixations means may be contemplated. Both of the projections located proximate the inside arch and the outside arch are further arranged to form a wedge positioned on the top layer. Alternatively, both projections may be separate material extending from the middle layer and covered by the top layer thereon.

[0041] The fourth embodiment of the insole generally comprises a base layer, a middle layer, and a top layer, where the middle layer positioned between the top and bottom layers. The base layer, projections and top layer are preferably made using Polyurethane and Polyamide (Nylon 66). Both projections may extend upwardly from the top layer, fixedly secure thereto or may be integrally formed with the top layer and middle and arranged to extend upwardly. Alternatively, both projections may be embedded within the middle layer and arranged to extend upwardly past the surface of the top layer. The base layer and the top layer are adhered with double sided adhesive tape in a preferred embodiment, however, alternative fixation means may be contemplated. Both of the projections located are further arranged to form a wedge positioned on the top layer, proximate the midfoot region. The projections may be embedded within the base layer and the top layer. Alternatively, both projections may extend upwardly from the top layer, fixedly secure thereto. Alternatively, both projections may be separate material extending from the middle layer and covered by the top layer thereon.

[0042] Adverting now to the figures, the following description should be taken in view of FIGS. 1A and 1B, specifically illustrating the first embodiment of the present invention. FIG. 1A illustrates a top perspective of the first embodiment of insole 100 with pressure projection 20 embedded therein and FIG. 1B illustrates a top view of the first embodiment of insole 100. Pressure projection 20 is embedded within the respective layers of insole 100, i.e., base layer 33 (shown in FIG. 2), middle layer 32, and top layer 31. Base layer 33 is adhered to top layer 31 via double-sided adhesive tape, although it should be appreciated that various other methods of binding the base layer and the top layer may be employed, e.g., heat lamination, or other suitable means. Middle layer 32 is located between top layer 31 and bottom layer 33. Top layer 31 includes bulge 20a which covers, or contains, pressure projection 20 within base layer 33 and middle layer 32. It should be appreciated that middle layer 32 is illustrated to depict the material between base layer 33 and top layer 31 (shown in greater detail in view of FIG. 2).

[0043] Insole 100 is defined by forefoot region 10, midfoot region 11, and hindfoot region 12. Specifically, forefoot region 10 is defined by the toes of the foot of the user, that is, the area where the toes will rest thereon, midfoot region 11 is defined by the arch of the foot of the user and where pressure projection 20 is preferably located, and hindfoot region 12, defined by the heal of the foot of a user, that is, the area where the heal will rest thereon. In a preferred embodiment, pressure projection 20 is embedded within midfoot region 11 and is further arranged to extend upwardly past the upper surface of top layer 31. Insole 100 includes two sides, inside arch 13 and outside arch 14, where inside arch 13 would be arranged proximate to the inside arch of a user's foot resting on insole 100 and where outside arch 14 would be arranged proximate to the outside arch of a user's foot resting on insole 100.

[0044] The following description should be taken in view of FIGS. 2-3C. FIG. 2 is a cross-sectional view of insole 100 taken generally along line 2-2 shown in FIG. 1B. FIG. 3A is a perspective view of pressure projection 20 removed from insole 100 and FIG. 3B is a top view of the same. FIG. 3C is an exploded view of pressure projection 20. Bulge 20a will have deformable properties such that when a user contacts their foot to insole 100, bugle 20a will collapse inwardly, that is, in the direction towards bottom layer 33, such that the sole of a user's foot will indirectly contact pressure protrusion 20. As shown in FIG. 2, pressure projection 20 is embedded within insole 100, specifically within middle layer 32 and preferably arranged proximate to top layer 31. It should be appreciated that annular ring 22 and metal insert 23 have a top surface that extends past top layer 31, that is, the respective top surfaces of annular ring 22 and metal insert 23 protrude past top layer 31 such that they are raised surfaces in relation to top surface 31.

[0045] Pressure projection 20 includes base 21, annular ring 22 and metal insert 23. Metal insert 23 comprises horseshoe-shaped aperture 24 that is preferably configured in a substantially central location within metal insert 23. When pressure projection 20 is fully assembled, annular ring 22 is fixedly secured to upper surface 21a of base 21, specifically annular ring 22 is fixedly secured to attachment location 21b of upper surface 21a. Base 21 preferably has an outer diameter that is greater than the outer diameter of annular ring 22, such that when annular ring 22 is fixed to base 21 an outer ledge is formed on upper surface 21a of base 21 that extends outwardly from the outer diameter of annular ring 22. When pressure projection 20 is fully assembled, metal insert 23 is fixedly secured to upper surface 21a of base 21 within inner edge 22a of annular ring 22, specifically metal insert 23 is fixedly secured to attachment location 21c of upper surface 21a where outer edge 23a of metal insert 23 is within inner edge 22a of annular ring 22. Metal insert 23 includes a substantially central located aperture, horseshoe-shaped aperture 24, where aperture 24 in a preferred embodiment comprises a U-like, or horseshoe-shaped, configuration. In a preferred embodiment, annular ring 22 is comprised of solid zinc. In a preferred embodiment, metal insert 23 is comprised of solid copper.

[0046] Adverting now to the second embodiment of the present invention, insole 200 is illustrated in FIGS. 4A-5B. FIG. 4A illustrates a perspective view of insole 200 and FIG. 4B illustrates a top view of insole 200. FIGS. 5A and 5B illustrate a cross-sectional view of insole 200 taken generally along line 5-5 in FIG. 4B. Pressure projection 20 is embedded within the respective layers of insole 200, i.e., base layer 233 (shown in FIGS. 5A and 5B), middle layer 232, and top layer 231. Base layer 233 and middle layer 232 are adhered to top layer 231 via a double-sided adhesive tape, although it should be appreciated that various other methods of binding the base layer and the top layer may be employed, e.g., heat lamination, or other suitable means. Top layer 231 includes bulge 20a which covers, or contains, pressure projection 20 within base layer 233 and middle layer 232. It should be appreciated that middle layer 232 is illustrated to depict the material between base layer 233 and top layer 231 (shown in greater detail in view of FIGS. 5A and 5B). Pressure projection 20 and bulge 20a of insole 200 are of the same construction as that of insole 100, as described supra, and shown in greater detail in view of FIGS. 3A-3C.

[0047] Insole 200 is defined by forefoot region 210, midfoot region 211, and hindfoot region 212. Specifically, forefoot region 210 is defined by the toes of the foot of the user, that is, the area where the toes will rest thereon, midfoot region 211 is defined by the arch of the foot of the user and where pressure projection 20 is preferably located, and hindfoot region 212, defined by the heal of the foot of a user, that is, the area where the heal will rest thereon. In a preferred embodiment, pressure projection 20 is embedded within midfoot region 211. Insole 200 includes two sides, inside arch 213 and outside arch 214, where inside arch 213 would be arranged proximate to the inside arch of a user's foot resting on insole 200 and where outside arch 214 would be arranged proximate to the outside arch of a user's foot resting on insole 200.

[0048] Insole 200 also comprises inside arch projection 251 and outside arch projection 252. Both arch projections 251 and 252 have a substantially semicircular configuration, a semi-domed configuration, or a combination thereof. Inside arch projection 251 and outside arch projection 252 are preferably located in insole 200 proximate to hindfoot region 212 and partially within midfoot region 211 of insole 200.

[0049] Arch projections 251 and 252 could be integral with top layer 231 and middle layer 232, as shown in FIG. 5A. Alternatively, inside arch projection 251a and outside arch projection 252a could be separate components that are affixed to top layer 231, as shown in FIG. 5B.

[0050] The difference between insole 100 and insole 200 is the presence of inside arch projection 251 (or 251a) and outside arch projection 252 (or 252a), discussed supra. Inside arch projection 251 and outside arch projection 252 are preferably positioned in between the midfoot region 211 and hindfoot region 212, where inside arch projection 251 is configured on inside arch 213 and outside arch projection 252 is specifically configured on outside arch 214, thereby contacting the inside arch and outside arch of a user's foot that is resting on insole 200. Inside arch projection 251 (or 251a) and outside arch projection 252 (or 252a) form wedge 260, which is a combination of top layer 231, inside arch projection 251 (or 251a) and outside arch projection 252 (or 252a). The benefits imparted by the configuration of wedge 260 are described in greater detail, infra.

[0051] Adverting now to the third embodiment of the present invention, insole 300. The following description should be taken in view of FIGS. 6A-7B. FIG. 6A illustrates a perspective view of insole 300 and FIG. 6B illustrates a top view of insole 300. FIGS. 7A and 7B illustrate a cross-sectional view of insole 300 taken generally along line 7-7 in FIG. 6B. Base layer 333 and middle layer 332, are adhered to top layer 331 via a double-sided adhesive tape, although it should be appreciated that various other methods of binding the base layer and the top layer may be employed, e.g., heat lamination, or other suitable means. It should be appreciated that middle layer 332 is illustrated to depict the material between base layer 333 and top layer 331 (shown in greater detail in view of FIGS. 7A and 7B).

[0052] Insole 300 is defined by forefoot region 310, midfoot region 311, and hindfoot region 312. Specifically, forefoot region 310 is defined by the toes of the foot of the user, that is, the area where the toes will rest thereon, midfoot region 311 is defined by the arch of the foot of the user and hindfoot region 312, defined by the heal of the foot of a user, that is, the area where the heal will rest thereon. Insole 300 includes two sides, inside arch 313 and outside arch 314, where inside arch 313 would be arranged proximate to the inside arch of a user's foot resting on insole 300 and where outside arch 314 would be arranged proximate to the outside arch of a user's foot resting on insole 300.

[0053] Insole 300 also comprises inside arch projection 351 and outside arch projection 352. Both arch projections 351 and 352 have a substantially semicircular configuration, a semi-domed configuration, or a combination thereof. Inside arch projection 351 and outside arch projection 352 are preferably located in insole 300 proximate to hindfoot region 312 and partially within midfoot region 311 of insole 300.

[0054] Arch projections 351 and 352 could be integral with top layer 331 and middle layer 332, as shown in FIG. 7A. Alternatively, inside arch projection 351a and outside arch projection 352a could be separate components that are affixed to top layer 331, as shown in FIG. 7B.

[0055] The difference between insole 100 and insole 300 is the presence of inside arch projection 351 (or 351a) and outside arch projection 352 (or 352a), and the absence of pressure projection 20, discussed supra. Inside arch projection 351 and outside arch projection 352 are preferably positioned in between the midfoot region 311 and hindfoot region 312, where inside arch projection 351 is configured proximate to inside arch 313 and outside arch projection 352 is specifically configured proximate to outside arch 314, thereby contacting the inside arch and outside arch of a user's foot that is resting on insole 300. Inside arch projection 351 (or 351a) and outside arch projection 352 (or 352a) form wedge 360, which is a combination of top layer 331, inside arch projection 351 (or 351a) and outside arch projection 352 (or 352a). The benefits imparted by the configuration of wedge 360 are described in greater detail, infra.

[0056] Adverting now to the fourth embodiment of the present invention, insole 400. The following description should be taken in view of FIGS. 8A-9B. FIG. 8A illustrates a perspective view of insole 400 and FIG. 6B illustrates a top view of insole 400. FIGS. 9A and 9B illustrate a cross-sectional view of insole 400 taken generally along lines 9A-9A and 9B-9B in FIG. 8B, respectively. Base layer 433 and middle layer 432, are adhered to top layer 431 via a double-sided adhesive tape, although it should be appreciated that various other methods of binding the base layer and the top layer may be employed, e.g., heat lamination, or other suitable means. It should be appreciated that middle layer 432 is illustrated to depict the material between base layer 433 and top layer 431 (shown in greater detail in view of FIGS. 9A and 9B).

[0057] Insole 400 is defined by forefoot region 410, midfoot region 411, and hindfoot region 412. Specifically, forefoot region 410 is defined by the toes of the foot of the user, that is, the area where the toes will rest thereon, midfoot region 411 is defined by the arch of the foot of the user and hindfoot region 412, defined by the heal of the foot of a user, that is, the area where the heal will rest thereon. Insole 400 includes two sides, inside arch 413 and outside arch 414, where inside arch 413 would be arranged proximate to the inside arch of a user's foot resting on insole 400 and where outside arch 414 would be arranged proximate to the outside arch of a user's foot resting on insole 400.

[0058] Insole 400 also comprises inside arch projection 451 and is arranged to have a substantially semicircular configuration, a semi-domed configuration, or a combination thereof. Inside arch projection 451 is preferably located in insole 400 proximate to hindfoot region 412 and partially within midfoot region 411 of insole 400.

[0059] Arch projection 451 could be integral with top layer 431 and middle layer 432. Alternatively, inside arch projection 451a could be a separate component that are affixed to top layer 431, as shown in FIG. 9B.

[0060] Insole 400 also includes midfoot projection 470. Midfoot projection 470 has a quadrilateral-like shape and has toe end 471 and midfoot end 472. Arranged proximate to midfoot end 472 is midfoot slope 474. Midfoot slope 474 has a straight configuration such that it bifurcates insole 400 within midfoot region 411. Arranged proximate to toe end 471 is toe slope 473. Toe slope 473 has a curved arrangement, unlike midfoot slope 474, where the curve juts outwardly in a substantially central position horizontally and the jut is proximate to forefoot region 410. Midfoot projection may be arranged to extend upwardly from top layer 431 or could be a protrusion extending from middle layer 432 that is covered by top layer 431.

[0061] Arch projection 451, midfoot projection 470, and top layer 431 collectively create wedge 480. Wedge 480 is preferably arranged proximate inside arch 413 and within midfoot region 411. The benefits imparted by the configuration of wedge 480 are described in greater detail, infra.

[0062] The following description should be taken in view of all of the aforementioned figures. The first and second embodiments of the present invention, insoles 100 and 200 are configured to enhance physical and mental performance, via frequency imparted through the foot of user contacting either insole 100 or 200. This frequency stimulates nerve centers to intensify muscle tone, stability, and mobility. A constant stimulation to the nervous system allows the human brain to create new neural pathways. Feedback from the skin of a person's foot is a primary source of sensory input. This sensory input is supplied to the brain from approximately 100,000 to 200,000 receptors in the sole of each human foot. Limiting the sensory inputs from human feet has been shown to introduce issues of maintaining stability and balance. Pressure projection 20 of insoles 100 and 200 are arranged to provide sensory feedback through a user's foot through constant contact with pressure projection—resolving the issue of losing sensory input that could hinder maintaining stability and balance.

[0063] Pressure projection 20 of insoles 100 and 200 provide constant sensory input to a user's nervous system. The constant stimulation of pressure projection allows a user's brain to create new neural networks to resolve poor postural habits that may be introduced from sensory input deprivation. Pressure projection 20 works by: [0064] 1. The signal, or sensory input, from the skin of a user's foot travels to their brain through channels known as the ascending sensory pathways; [0065] 2. The signal arrives in a user's sensory cortex of the brain, located in your parietal lobe; [0066] 3. The signal is then transmitted to the motor cortex located in the frontal lobe; [0067] 4. The frontal lobe is the center where a user's brain plans the execution of movement; and, [0068] 5. Pressure projection 20 has a configuration that optimizes the signal to provide for accurate movement and proper alignment.

[0069] In a study conducted on Mar. 10, 2022, force plate measurements were taken of a member of a law enforcement organization. The measurements were taken of both the right and left feet. The test was conducted with the person wearing insoles without pressure projection 20 and subsequently wearing insole 100. The following chart illustrates the benefits imparted on the law enforcement personal via pressure projection 20 of insole 100. Shown below are the differences measured by the force plate of the law enforcement personal without insole 100 and with insole 100:

[0070] Blood Pressure & Grip Strength:

TABLE-US-00001 Without Insole 100 With Insole 100 Blood Pressure 158/105 138/100 Grip Strength 151 lbs. 154 lbs.

[0071] Foot Posture (Weight Distribution %) without Insole 100:

TABLE-US-00002 Left Foot Right Foot Overall 52.3% 47.7% Toes 27.7% 18.4% Heel 24.6% 30.0%

[0072] It should be noted that a perfect foot posture will distribute the overall weight evenly across the left and right feet, i.e., 50% and 50%, and the respective distribution between the toes and heel of perfect foot posture will be distributed evenly across the toes and heel of the respective foot, i.e., 25% and 25%.

[0073] Foot Posture (Weight Distribution %) with Insole 100:

TABLE-US-00003 Left Foot Right Foot Overall 51.6% 48.4% Toes 22.9% 23.3% Heel 28.8% 24.4%

[0074] In the second, third, and fourth embodiments of the present invention, insoles 200 and 300, and 400 all include inside arch projection 251 (or inside arch projection 251a), and outside arch projection 252 (or outside arch projection 252a). In the second and third embodiments of the present invention, insoles 200 and 300 include inside arch projections 251 and 351 and outside arch projections 252 and 352, respectively. If a user of insoles 200 or 300 have his or her rear-foot (heel) poorly stimulated, the user's foot sole receptors are missing vital information from sensory inputs, as described supra, which could result in poor activation of the user's posterior chain. When a user has a rearfoot stimulation deprivation, a common indicator is a forward center of mass of the user. The forward center of mass leads to an array of compensations by the body and brain, thereby requiring the user to expend greater energy in order to stay upright against gravity.

[0075] It should be appreciated that inside arch projection 251 and outside arch projection 252, referenced herebelow, should also be taken in consideration of inside arch projection 351 (or 351a) and outside arch projection 352 (or 352a) of insole 300. Inside arch projection 251 (or inside arch projection 251a), and outside arch projection 252 (or outside arch projection 252a) of insoles 200 collectively form wedge 260 (or wedge 360 of insole 300). Wedges 260 is arranged to stimulate the receptors in a user's rear-foot that is contacting insole 200 as wedge 260 imparts a deep pressure and stretch to the rear-foot of a user, as follows: [0076] 1. The signal, or sensory input received from the skin of a user's foot travels to the user's brain through ascending sensory pathways; [0077] 2. This signal arrives in the user's sensory cortex of their brain, located in their parietal lobe; [0078] 3. The signal is then transmitted to the motor cortex located in the frontal lobe. [0079] 4. The frontal lobe is the center where a user's brain plans the execution of movement; and, [0080] 5. The improved signal allows the user's brain to command proper tonicity of the user's posterior chain—encouraging a neutral center of mass and optimal joint mechanics of movement.

[0081] Insole 400 includes inside arch projection 451 and midfoot projection 470, which collectively create wedge 480. Common ailments such as rounded shoulders, tight traps, or the occasional tension headache can be commonly addressed and resolved through engaging the sensory receptors in the foot, particularly the midfoot. When the arches of the foot are poorly stimulated, the individual's receptors are necessarily missing essential signaling information that should be communicated to the brain, which in turn means the brain cannot orchestrate proper alignment, specifically in the individual's lower extremities and pelvis. Other ailments include knocked knees and protruding abdomens, i.e., anterior tilt. Wedge 480 resolves these issues by: [0082] 1. The signal, received from the skin of a user's foot travels to the user's brain through ascending sensory pathways; [0083] 2. This signal arrives in the user's sensory cortex of their brain, located in their parietal lobe; [0084] 3. The signal is then transmitted to the motor cortex located in the frontal lobe; [0085] 4. The frontal lobe is the center where a user's brain plans the execution of movement; and, [0086] 5. The improved signal provided by wedge 480 allows the user's brain to optimize knee alignment while encouraging a neutral pelvis tilt—inducing a positive, less detrimental, impact on the user's joints.

[0087] It should be appreciated that the embodiments as shown are only one of a variety of possible embodiments of the claimed invention.

[0088] It will be appreciated that various aspects of the disclosure above and other features and functions, or alternatives thereof, may be desirably combined into many other different systems or applications. Various presently unforeseen or unanticipated alternatives, modifications, variations, or improvements therein may be subsequently made by those skilled in the art which are also intended to be encompassed by the following claims.

TABLE-US-00004 REFERENCES NUMERALS  10 Forefoot region  11 Midfoot region  12 Hindfoot region  13 Inside arch  14 Outside arch  20 Pressure projection of insole 100 and 200  20a Bulge  21 Base of pressure projection 20  21a Upper surface of base 21  21b Attachment location of annular ring 22  21c Attachment location of metal insert 23  22 Annular ring of pressure projection 20  22a Inner edge of annular ring 22  23 Metal insert of pressure projection 20  23a Outer edge of metal insert 23  24 Horseshoe-shaped aperture of metal insert 23  31 Top layer  32 Middle layer  33 Bottom layer 100 Insole (first embodiment) 200 Insole (second embodiment) 210 Forefoot region of insole 200 211 Midfoot region of insole 200 212 Hindfoot region of insole 200 213 Inside arch of insole 200 214 Outside arch of insole 200 231 Top layer of insole 200 232 Middle layer of insole 200 233 Bottom layer of insole 200 251 Inside arch projection of insole 200 251a Inside arch projection of insole 200 252 Outside arch projection of insole 200 252a Outside arch projection of insole 200 260 Wedge 300 Insole (third embodiment) 310 Forefoot region of insole 300 311 Midfoot region of insole 300 312 Hindfoot region of insole 300 313 Inside arch of insole 300 314 Outside arch of insole 300 331 Top layer of insole 300 332 Middle layer of insole 300 333 Bottom layer of insole 300 351 Inside arch projection of insole 300 351a Inside arch projection of insole 300 352 Outside arch projection of insole 300 352a Outside arch projection of insole 300 360 Wedge of insole 300 400 Insole (fourth embodiment) 410 Forefoot region of insole 400 411 Midfoot region of insole 400 412 Hindfoot region of insole 400 413 Inside arch of insole 400 414 Outside arch of insole 400 431 Top layer of insole 400 432 Middle layer of insole 400 433 Bottom layer of insole 400 451 Inside arch projection of insole 400 451a Inside arch projection of insole 400 470 Midfoot projection of insole 400 471 Toe end of projection 470 472 Midfoot end of projection 470 473 Toe slope of projection 470 474 Midfoot slope of projection 470 480 Wedge of insole 400