KR101079243B1 - Apparatus for making insole for shoes and the insole made by it - Google Patents

Abstract

The present invention relates to a shoe insole molding machine and the insole, the injection port for supplying the external solid material (S) to the upper end is formed and the injection hole for injecting the molten liquid material (L) to the lower end to the outside A nozzle body 10 provided with 12; A melting part 20 disposed in the nozzle body 10 so that the supplied solid material S is melted in a liquid phase; A heating part 30 disposed on an outer circumferential surface of the melting part 20 to melt the solid material S in the melting part 20; A molding nozzle 100 including an air supply part 40 for supplying air into the injection hole 12 of the nozzle body 10 so that the liquid material L is injected to the outside; And a controller 200 that automatically controls the molding nozzle 100 based on data such as foot pressure and foot size of the wearer. Therefore, the controller automatically controls a plurality of molding nozzles using different materials based on the inputted foot pressure and foot size of the wearer, and the thickness and material of each part of the insole are differently shaped according to the input data. By allowing the insole to be manufactured, the insole can be manufactured easily and quickly, thereby improving the manufacturing efficiency and providing the optimum insole in response to the foot pressure of the wearer.

Shoe insole molding machine and its insole, molding nozzle, heating part, melting part, solid material

Description

Shoes insole molding machine and its insole {Apparatus for making insole for shoes and the insole made by it}

The present invention relates to a shoe insole molding machine and its insole, and more specifically, a plurality of moldings using different materials for the control unit based on data such as foot pressure and foot size of the wearer inputted in manufacturing a customized insole. The present invention relates to a shoe insole molding machine and its insole that allow the optimum insole to be manufactured by molding the thickness and material of each part of the insole according to the input data while automatically controlling the nozzle.

In general, a shoe insole refers to a protective pad for protecting the sole of the wearer by alleviating the repulsive force from the ground generated when walking or driving by placing on the inner bottom surface of the shoe.

Recently, such shoe insoles have been developed in various ways with customized insoles made for special wearers such as patients or athletes.

These custom insoles are made of special insoles with appropriate strength and cushioning to prevent damage to areas other than the affected area, for example, due to pressure concentration of the insensitive foot in the case of diabetic patients. In addition, even for athletes with a lot of movement, such as marathon runners, special customized insoles have been produced that have optimal repulsion force against the pressing force of each plantar portion for the purpose of improving the competition efficiency.

In the case of the customized insole is made of the same material, it is made of an integral disc structure having the shape of the sole of the wearer.

According to the load concentration distribution on the sole of the wearer based on the experimental input data, for example, the insole part of the wearer having a high load concentration level may be compared with other parts in order to alleviate the impact amount as much as possible. The thickness was increased to maximize cushioning force, or on the contrary, the insole was manufactured by thinning the thickness of the insole for low load concentration parts to cope with plantar load applied to the wearer.

However, since these insoles are manufactured through so-called injection molding methods for solidifying injection moldings using a predetermined mold, the entire insole is made of the same material, and thus does not correspond to the plantar load distribution of the wearer. When manufacturing the insole thickness according to the load concentration on the plantar foot, there were difficulties in manufacturing, such as the need to manufacture a variety of molds by type.

The present invention has been made to solve this problem, while in the manufacture of a customized insole, while the controller automatically controls a plurality of molding nozzles using different materials based on the input data such as foot pressure and foot size of the wearer. The purpose is to provide an insole molding machine for shoe and its insole that can make the optimum insole by molding the thickness and material of each part of the insole according to the input data.

Shoes insole molding machine of the present invention for achieving the above object is a nozzle body is provided with a supply port for receiving an external solid material on the upper end and the injection hole for injecting the molten liquid material to the lower end; A melting part disposed in the nozzle body to melt the supplied solid material into a liquid phase; A heating part disposed on an outer circumferential surface of the melting part to melt the solid material in the melting part; A molding nozzle including an air supply unit for supplying air into the injection hole of the nozzle body to spray the liquid material to the outside; And a controller for automatically controlling the molding nozzle based on data such as foot pressure and foot size of the wearer.

In addition, insole molding machine for shoes according to the present invention, it is preferable that the control valve in the injection port is further provided with an intermittent valve for automatically controlling the injection and blocking of the liquid material.

In addition, in the shoe insole molding machine according to the present invention, it is preferable that the heating portion has a coil structure that is continuously wound along the outer peripheral surface of the molten portion.

In addition, in the shoe insole molding machine according to the present invention, it is preferable that the air supply portion has a hose structure in which one end is connected to the inside of the injection hole and the other end is connected to an external pump to supply air.

In addition, in the shoe insole molding machine according to the present invention, it is preferable that a guide roller for guiding the solid material to be supplied to the supply port accurately outside the supply port adjacent to the nozzle body is further provided.

In addition, in the shoe insole molding machine according to the present invention, it is preferable that the molding nozzle is made of a plurality of automatically controlled by the control unit using different solid materials.

And, the insole of the present invention is based on data such as foot pressure and foot size of the wearer input to the control unit of the insole molding machine of claim 1 while the control unit automatically controls a plurality of molding nozzles using different materials input data It is characterized by being manufactured by molding the thickness and material differently for each part.

As described above, the shoe insole molding machine and the insole of the present invention is based on the input data such as foot pressure and foot size of the wearer, the control unit automatically controls a plurality of molding nozzles using different materials to the input data By making the insole by molding the thickness and material of each part of the insole differently according to each part of the insole, the insole can be manufactured easily and quickly, improving the manufacturing efficiency and providing the optimum insole in response to the foot pressure of the wearer. Effect such as being present.

Hereinafter, the present invention will be described with reference to the accompanying drawings.

As shown in Figures 1 to 3, the shoe insole molding machine according to the present invention, the nozzle body 10, the melted portion 20 disposed inside the nozzle body 10, and the melted portion 20 Automatic control of the molding nozzle 100 and the molding nozzle 100 including a heating unit 30 for heating and an air supply unit 40 for supplying air into the injection hole 12 of the nozzle body 10. The control unit 200 is configured to include.

The nozzle body 10 is a so-called cylinder having a supply port 11 for receiving an external solid material S at an upper end thereof, and an injection hole 12 for injecting a molten liquid material L to an outer end thereof. In a shape, a predetermined shape is injected by spraying the molten liquid material (L) through the injection hole 12 while being installed and installed in a robot arm (not shown) of the known technology moving in three dimensions in accordance with the control signal of the control unit 200 Insole 80 will be able to mold.

The molten part 20 is to allow the solid material S disposed and supplied inside the nozzle body 10 to be melted in the liquid phase by the heating part 30, and an upper end thereof communicates with the supply port 11. The lower end portion has a tubular shape in communication with the injection port 12.

The heating part 30 receives the external power through the power cable 32 in the state arranged on the outer peripheral surface of the melting part 20 and heats itself, thereby consequently solidifying the solid material S in the melting part 20. In the present invention, the coil structure is continuously wound along the outer circumferential surface of the melting section 20.

The air supply unit 40 is to supply the air into the injection hole 12 of the nozzle body 10 so that the liquid material (L) is injected to the outside, more specifically, the air supply unit 40 is one end of the injection hole ( 12) It is connected to the inside and the other end is connected to the external pump (P) to have a hose structure to receive air.

In addition, the injection port 12 is further provided with a solenoid control valve 50 for automatically controlling the injection and blocking of the liquid material (L) under the control of the control unit 200.

In addition, while the outer peripheral surface of the solid material (S) is automatically rotated in a state in which the outer peripheral surface of the solid material (S) is in close contact with both sides of the nozzle body 10, the solid material (S) is correctly supplied to the supply port (11). A pair of guide rollers (60) for guiding to further be provided.

In addition, in the present invention, the molding nozzle 100 is automatically controlled by the control unit 200 using different solid materials S, so that each of the parts of the insole 80 may be molded by different materials. It is preferable that it consists of.

The control unit 200 automatically controls a plurality of molding nozzles 100 using the different materials based on data such as foot pressure and foot size of the wearer, and the part of each insole 80 according to the input data. As a computer for molding the thickness and material differently for each type, in addition to controlling the molding nozzle 100, the power supply to the heating unit 30, the opening and closing of the control valve 50, and the rotation operation of the guide roller 60. And it will be preferable to be electrically connected to each of them so as to automatically control the operation of the pump (P) of the air supply unit 40 and the like.

Reference numeral 70 denotes a material supply reel in which the solid material S is wound, and 90 indicates a workbench in which the liquid material L is sprayed so that the insole 80 can be molded.

Looking at the process of molding the insole 80 through the shoe insole molding machine of an embodiment of the present invention according to such a configuration, first inputting data such as foot pressure and foot size of the wearer to the control unit 200, the control unit 200 ) Operates the auxiliary molding apparatus such as the molding nozzle 100 and the heating unit 30 to the guide roller 60 associated with the molding nozzle 100 based on the input data.

Then, the solid material S starts to be supplied from the material supply reel 70 to the supply port 11 of the nozzle body 10 by the rotation operation of the guide roller 60, and in conjunction with the heating part 30. Is operated to heat the solid material (S) introduced into the molten portion 20 through the supply port 11 to melt in the liquid phase, and the pump P of the air supply 40 is operated to melt into the liquid phase Then pressurized air to the liquid material (L) guided to the injection hole 12 of the nozzle body 10, the molding is performed while the liquid material (L) is injected to the work table 90 through the injection hole (12).

After the liquid material L is sprayed with a predetermined shape, the liquid material L is sprayed onto the solidified material surface again after a predetermined time until the injected liquid material L solidifies. Molding of the insole 80 is made through the phosphorus injection layer.

 On the other hand, the plurality of molding nozzles 100 are each optimally having a different thickness from the other material finally desired by the wearer by a robot arm, etc., each of which is automatically controlled separately through the control unit 200 using different materials. Insole 80 will be able to be molded.

1 is a schematic view showing the first half of the shoe insole molding machine according to an embodiment of the present invention.

 Figure 2 is a schematic diagram showing a molding nozzle of a shoe insole molding machine according to an embodiment of the present invention.

Figure 3 is a schematic diagram showing a process of laminating the insole through the shoe insole molding machine according to an embodiment of the present invention.

DESCRIPTION OF REFERENCE NUMERALS

10: nozzle body 11; Supply port

12: injection hole 20: melting part

30: heating part 32: power cable

40: air supply unit 50: intermittent valve

60: guide roller 70: material supply reel

80: insole 100: molding nozzle

200: control part L: liquid material

P: Pump S: Solid Material

Claims (7)

A nozzle body 10 having a supply port 11 receiving an external solid material S at an upper end thereof and having an injection hole 12 for injecting the molten liquid material L to the lower end thereof; A melting part 20 disposed in the nozzle body 10 so that the supplied solid material S is melted in a liquid phase; A heating part 30 disposed on an outer circumferential surface of the melting part 20 to melt the solid material S in the melting part 20; An air supply unit 40 supplying air into the injection hole 12 of the nozzle body 10 to allow the liquid material L to be injected to the outside; Molding nozzle 100 comprising a; And A controller 200 for automatically controlling the molding nozzle 100 based on data such as foot pressure and foot size of the wearer; Insole molding machine for shoes configured to include. The method of claim 1, Insole molding machine for shoe characterized in that the injection port 12 is further provided with an intermittent valve 50 for automatically controlling the injection and blocking of the liquid material under the control of the control unit 200. The method of claim 1, The heating unit 30 is a shoe insole molding machine, characterized in that the coil structure is continuously wound along the outer peripheral surface of the melting portion (20). The method of claim 1, The air supply unit 40 is a shoe insole molding machine, characterized in that the one end is connected to the inside of the injection hole 12 and the other end is connected to the external pump (P) to receive air. The method of claim 1, Insole molding machine for shoe characterized in that it further provided with a guide roller 60 for guiding the solid material (S) to be accurately supplied to the supply port 11 outside the supply port 11 adjacent to the nozzle body 10. . The method of claim 1, The molding nozzle 100 is a shoe insole molding machine, characterized in that consisting of a plurality of automatically controlled by the control unit 200 using a different solid material (S). The controller 200 automatically controls a plurality of molding nozzles 100 using different materials based on data such as foot pressure and foot size of the wearer input to the controller 200 of the insole molding machine of claim 1. Insole is characterized by being manufactured by molding the thickness and material differently for each part according to the input data.

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