KR20100048515A - Foot-shape device - Google Patents

Abstract

The foot bone mechanism 1000 according to the present invention has a bottom member 100 and a front member 300 hinged to the bottom member 100. The rear member 500 is installed at the rear of the bottom member 100. A deformable member 710 such as a floral foam is disposed on the top surface of the bottom member 100, and a deformable member 730 such as a floral foam is disposed on the bottom surface of the front member 300.

Description

Foot-shape device

The present invention relates to a foot bone mechanism capable of measuring a foot bone and setting it up. Such a modeling mechanism is very useful for making shoes, for example, shoes. According to the present invention, very simple and easy to obtain a reliable copy and the customer can obtain a shoe that fits perfectly to their feet without necessarily going to a shoe shop.

For example, it is necessary to obtain a pattern of a foot for making shoes such as shoes. In other words, only the correct shape and dimensions of the foot can be produced shoes such as shoes that fit the foot, it is necessary to obtain a pattern of the foot accordingly.

In general, the method of obtaining such a pattern is to actually measure the size of the foot using a tape measure or the like. In other cases, the foot is placed on the floor to follow the shape of the foot and draw a picture.

However, measuring the size of a foot using a tape measure, etc., requires some expertise, and the measurement may be inaccurate. Drawing a foot on the floor and following the shape of the foot can be done in terms of various data such as the instep and the thickness of the toe. Lacking and inaccurate pictures.

Therefore, there is a need for a method that can obtain accurate dimensions for the shape of the foot. This method should be very simple, easy and reliable. The present invention satisfies this request.

It is an object of the present invention to provide a footing mechanism capable of measuring a bone of a foot which is very simple, easy and reliable, and further drawing the bone.

In accordance with the object of the present invention, the present invention is a model for generating a model using a deformation member whose surface is deformed in accordance with the shape of the pressure by the pressure, the bottom member disposed so that the deformation member is exposed toward the upper surface; ; A front member which is hinged to the front of the bottom member and pivots so as to cover or open the bottom member so that the deforming member is exposed toward its bottom surface; A rear member installed at the rear of the bottom member to block the rear portion thereof when the front member covers the bottom member so that the bottom member is sealed as a whole; At this time, if the foot is placed on the upper surface of the deformable member of the bottom member and the front member is pivoted toward the upper surface of the bottom member, the deformed member portion exposed to the upper surface of the bottom member is formed with a shape corresponding to the sole of the foot. A portion corresponding to the toe and the foot of the foot is formed at a portion of the deformable member exposed to the bottom of the front member; It provides an ankle mechanism comprising an ankle space portion on which the ankle is formed in the front member or the rear member.

According to the present invention, it is preferable that the deforming member of the front member is further exposed toward the rear surface of the front member.

According to the present invention, the rear member is preferably disposed so that the deformation member is exposed to the front.

According to the present invention, the ankle space portion is formed on the deformable member exposed toward the rear of the front member, and the deformed member exposed toward the front of the rear member and the first space portion having a semicircular cross section along the height direction thereof. It is preferable that the first space and the second space are communicated with each other to form a cylindrical shape as a whole when the front member and the rear member are in contact with each other. .

According to the invention, the rear member is preferably hinged to the pivoting movement with respect to the bottom member.

According to the present invention, the rear member is preferably coupled to the slide movement in the rear of the bottom member.

According to the invention, the deforming member is preferably a floral foam.

According to the invention, the deforming member is preferably artificial clay.

According to the present invention, it is preferable that the bottom member, the front member and the rear member are coupled to be detachable from each other by a detachable coupling means at the mutual contact surface.

According to the present invention, it is possible to obtain a copy very easily and comfortably. Particularly, according to the present invention, it is possible to obtain a precise foot bone, and at this time, it becomes possible to obtain the exact shape from the toe to the sole of the foot and even the heel.

In another aspect, when using the foot mechanism according to the present invention, a person who wants a custom shoe does not necessarily need to be heard in a shoe shop. That is, a shoe manufacturer delivers a copying apparatus according to the present invention to a consumer, and a consumer takes a copy thereof and delivers it to a shoe manufacturing company, and the shoe manufacturer receiving the copy obtains the copy of the consumer.

Preferred embodiments of the present invention will now be described with reference to the accompanying drawings.

First, referring to FIG. 1 showing the appearance of the bone mechanism 1000 according to an embodiment of the present invention and FIG. 2 showing its internal structure, the bone mechanism 1000 has a bottom member 100 and the bottom member 100. The front member 300 is hinged by the hinge 380 at its front. Accordingly, the front member 300 pivots with respect to the bottom member 100 and covers or opens the bottom member 100.

The rear member 500 is installed at the rear of the bottom member 100. The rear member 500 is basically the front member 300 is turned toward the bottom member 100, the bottom member 100 When the cover is closed to block the rear portion so that the bottom member 100 is sealed as a whole.

The rear member 500 may be fixedly installed on the bottom member 100, but as shown in the present embodiment, the hinge is coupled by the hinge 580 at the end of the bottom member 100 to allow pivoting movement. It is desirable to. In other cases, it may be coupled to be slidable from the rear of the bottom member 100 as described below.

Accordingly, the front member 300 and the rear member 500 is pivoted with respect to the bottom member 100 to cover or open the bottom member 100.

In this embodiment, the front member 300 and the bottom member 100 is detachably coupled to each other by the clasp 310 and the clasp 130 as shown in the ratio shown. In addition, the front member 300 and the rear member 500 are also detachably coupled to each other by the clasp 350 and the clasp 530.

Accordingly, when the front member 300 and the rear member 500 covers the upper surface of the bottom member 100, when the clasps 310 and 350 are fastened to the clasps 130 and 530, they are as a whole. Is sealed.

According to the present invention, the deformation member 710 is disposed on the top surface of the bottom member 100, and the deformation member 730 is also disposed on the front member 300 and the bottom surface thereof.

In this case, the deformable member refers to a member whose surface is deformed in accordance with the shape of the pressure object by pressure, and according to the present invention, a foot pattern may be formed on the surface by pressure in contact with the foot. As such a material, for example, a material such as a floral form may be used.

As such floral foams, floral foams sold under the 'Oasis foot printing' brand from 'Smiths Oasis Co., Ltd.' can be used.

As the deforming member, artificial clay may be used in other cases. Regarding the artificial clay, for example, such as disclosed in Korean Patent No. 10-0831855 can be used.

In another case, it is possible to use silicon or alginate as the deformation member. They are used for special makeup or medical molding and are applicable to this case.

In addition, the rear member 500 is preferably disposed so that the deformation member 750 is exposed on the front surface. This is to allow the bone of the heel portion of the foot to be formed on the deformable member 750 exposed to the front surface of the rear member 500 as described below.

In the present embodiment, the bottom member 100 has a case shape in which the top surface thereof is open, and the deformation member 710 is disposed therein. In addition, the front member 300 is a case shape of the rear and bottom of the open side is the deformation member 730 is disposed here, the rear member 500 is the front and bottom of the open form here The deforming member 750 is disposed.

Accordingly, the deformation member 730 is exposed at the rear and bottom of the front member 300, and the deformation member 750 is exposed at the front and bottom of the rear member 500.

According to the present invention, the ankle mechanism 1000 is formed an ankle space portion on which the ankle is placed. This is a space that allows the ankle to be positioned when the user places the foot on the deformable member of the upper surface of the bottom member and covers the front member and the rear member, and may be formed in the front member or in the rear member. In other cases, it may be formed over these front and rear members.

In the present embodiment, the ankle space portion indicated by the reference numeral 800 and the first space portion 830 and the cross section of the semi-circular shape along the height direction to the deformation member 730 exposed toward the rear of the front member 300 and the The deformable member 750 exposed toward the front surface of the rear member 500 includes a second space portion 850 having a semicircular cross section along its height direction. At this time, the upper surfaces of the rear ends and the front ends of the front member 300 and the rear member 500, respectively, are formed in the corresponding semi-circular cutouts (330, 550).

Accordingly, when the front member 300 and the rear member 500 are closed and they are in contact with each other, the first space portion 830 and the second space portion 850 communicate with each other to form a cylindrical shape as a whole. .

According to the present invention, as shown in Figure 3, it is preferable that the inclined member 170 is disposed on the upper surface of the bottom member 100. This is for placing the foot relatively deeper from the big toe to the little toe when the foot is placed on the upper surface of the deformation member 710 of the bottom member 100. By doing so, the thickness and size of the toe of the human body decrease from the thumb toward the little toe, and the pattern is prevented from being relatively poor in the shape toward the little toe.

4A to 4C, the operation of the copying mechanism 1000 according to the present embodiment will be described.

First, the front member 300 and the rear member 500 is rotated in a direction away from the bottom member 100 to open them so that the deforming member 710 of the bottom member 100 is exposed. ((A) of FIG. 4A)

Next, the foot is placed on the deforming member 710 of the bottom member 100 and the front member 300 and the rear member 500 are pivoted to close it. 4B and 4C, the ankle is positioned in the ankle space 800.

In this case, first, the shape of the sole is stamped on the top surface of the deformable member 710 of the bottom member 100 by the weight of the user, and the toes on the bottom surface of the deformable member 730 exposed to the bottom of the front member 300. From the shape of the foot to the foot is taken and also the shape of the heel is stamped on the inner surface of the second space portion 850 formed in the rear member 500.

In particular, while the front member 300 and the rear member 500 is pivoting, the deformable members 730 and 750 generate a force that compresses the instep and the heel of the foot so that the foot is naturally floating.

If the rear member 500 is merely present for sealing, the deformable member 750 is not necessary and in this case a pattern with the shape of the sole from the toe to the instep and the sole will be obtained.

Next, when the front member 300 and the rear member 500 are opened, bones corresponding to the feet are formed on the deforming members 710, 730, and 750. ((D) of FIG. 4B)

Thereafter, the front member 300 and the rear member 500 are closed and the clasps 310 and 350 hang on the clasps 130 and 530 to be sealed as a whole, and then through the ankle space 800 A material that hardens after a period of time, such as high liquid, is provided therein. ((E) of FIG. 4C)

Then, a material such as a plaster solution is cured while filling the corresponding shape of the foot formed on the deformation members 730, 750, 710 disposed on the front member 300, the rear member 500, and the bottom member 100. The form will float as it is.

Then, the clasps 310 and 350 may be released from the clasps 130 and 530, and the front member 300 and the rear member 500 may be opened to obtain gypsum formed in the form of a foot.

Of course, it may not necessarily be necessary to float the gypsum or the like, that is, the shoe manufacturer surveys the pattern of the foot formed on the deformable members 710, 730, and 750 and accordingly measures shoes such as shoes. It can also manufacture.

According to the present invention, the rear member 500 may be slidably coupled with respect to the bottom member 100.

For example, referring to FIGS. 5 and 6, side plates 101 and 101 are spaced apart from each inside of each of the side surfaces 103 and 103 of the bottom member 100, and these 101 are provided. A groove H is formed between the 103, and the rear member 500 has an inlet member 518 fitted into the groove H. At this time, a stopper 5189 is formed in front of the drawing member 518. Accordingly, the rear member 500 is opened and closed in a slide manner with respect to the bottom member 100.

In this case, in the state in which the front member 100 and the rear member 500 are open, the foot is placed on the deformable member 710 of the upper surface of the bottom member 100, and then the front member 100 is pivotally closed and the When the rear member 500 is pushed and closed toward the closed front member 100, each of the deformable members 710, 730, and 750 is stamped with the shape of the foot and the heel from the soles and toes.

Thus, according to the present invention, it is possible to obtain a copy very easily and comfortably. Particularly, according to the present invention, it is possible to obtain a precise foot bone, and at this time, it becomes possible to obtain the exact shape from the toe to the sole of the foot and even the heel.

In another aspect, when using the footing mechanism according to the present invention, a person who wants a custom shoe does not necessarily need to stop by the shoe store. That is, a shoe manufacturer delivers a copying apparatus according to the present invention to a consumer, and a consumer takes a copy thereof and delivers it to a shoe manufacturing company, and the shoe manufacturer receiving the copy obtains the copy of the consumer. In this respect, the present invention can be very useful for making and selling customized shoes and the like online.

It will be appreciated that this has been achieved the object of the present invention.

Although the present invention has been described with reference to the embodiments, the present invention is not limited thereto, and the scope of the present invention is defined by the following claims according to the spirit of the present invention.

1 is a view showing the appearance of the bone mechanism according to an embodiment of the present invention;

2 is a view showing the internal structure of the bone mechanism according to an embodiment of the present invention;

3 is a view showing that the inclined member is disposed on its bottom member in the apparatus according to the embodiment of the present invention;

4a to 4c show examples of the use of the bone mechanism according to the embodiment of the present invention;

5 and 6 show another embodiment of the rear member according to the present invention.

Claims (9)

An apparatus for spinning a model using a deformable member whose surface is deformed in accordance with the shape of a pressure object by pressure, (a) a bottom member disposed to expose the deforming member toward an upper surface thereof; (b) a front member which is hinged to the front of the bottom member and pivots so as to cover or open the bottom member so that the deformable member is exposed toward its bottom; (c) a rear member installed at the rear of the bottom member to block the rear portion when the front member covers the bottom member to seal the bottom member as a whole; At this time, if the foot is placed on the upper surface of the deformable member of the bottom member and the front member is pivoted toward the upper surface of the bottom member, the deformed member portion exposed to the upper surface of the bottom member is formed with a shape corresponding to the sole of the foot. A portion corresponding to the toe and the foot of the foot is formed at a portion of the deformable member exposed to the bottom of the front member; (d) an ankle mechanism comprising an ankle space portion on which an ankle is formed on the front member or the rear member. The method of claim 1, And the deformable member of the front member is also exposed toward the rear of the front member. The method of claim 2, And the rear member is disposed such that the deforming member is exposed to the front side thereof. The method of claim 3, The ankle space portion is a cross-section along the height direction of the first member and the deformation member exposed toward the front surface of the rear member and the first space portion having a semicircular cross-section along the height direction to the deformation member exposed toward the rear of the front member. The semi-circular second space portion, when the front member and the rear member is in contact with each other, the first space portion and the second space portion is in communication with each other to form a cylinder as a whole. The method according to any one of claims 1 to 4, And the rear member is hinged to pivot with respect to the bottom member. The method according to any one of claims 1 to 4, The rear member is a foot mechanism characterized in that it is coupled to the slide movement in the rear of the bottom member. The method according to any one of claims 1 to 4, The deformable member is characterized in that the floral foam mechanism. The method according to any one of claims 1 to 4, The deformable member is an artificial bone, characterized in that the artificial clay. The method according to any one of claims 1 to 4, And the bottom member, the front member and the rear member are detachably coupled to each other by a detachable coupling means at a mutually contacting surface.

Images