KR100508731B1 - Shoe Bending Force Test Machine - Google Patents

Abstract

The present invention relates to a shoe bending force tester for measuring the bending force appearing when wearing the shoes.

Shoe fixing support (1) that can hold the shoe and the rotating plate (2) to bend the shoes at a certain angle, the fixed plate (3), the rotating plate fixed to the pressure sensor 100 for measuring the force required to bend the shoe to the bottom ( 2) is a shoe bending force tester, characterized in that composed of a speed controller (6) capable of controlling the speed.

Description

Shoe Bending Force Test Machine

The present invention relates to a shoe bending force tester for measuring the bending force of the shoes appearing when wearing the shoes, and more particularly, characterized in that the bending or bending force that is a soft or soft degree that appears when the shoes are bent during walking and exercise do.

In general, in the manufacture of sneakers, there are testers such as impact improvement test of the floor, tensile test, and compression test to improve athletic performance, but there is no tester to measure the bending force of shoes.

In the case of shoes, there is no data to measure the bending force of the shoe, but only the shoe sole is worn for the sake of fashion, and the shoe maker only estimates the bending force of the shoe based on the experience.

An example considering the bending of a conventional shoe is disclosed in Korean Utility Model Publication No. 20-0189512. According to the design of Korean Utility Model Publication No. 20-0189512, an elastic plate that prevents the shoe from being bent on the shoe is provided so that the sole is bent in a bow shape even when the shoe is worn for a long time to prevent the shoe from falling out. Announcing. The elastic body is inserted into the sole of a shoe and does not take into consideration the wearer's feeling.

The present invention relates to a shoe bending force tester for measuring the bending force of the shoes appearing when wearing the shoes, a bending force tester has not been developed to date.

The present invention provides a shoe bending force tester capable of measuring the bending force of the shoe appearing when wearing the shoe.

The present invention relates to a shoe bending tester for measuring the bending force of the shoe, to provide a shoe bending tester that can measure the shoe bending stiffness coefficient, which is the degree of ease of bending the shoe according to the movement of the foot when walking. .

The present invention relates to a shoe bending force tester for measuring the bending force of the shoe that appears during walking and movement of the shoe.

The shoe bending force tester of the present invention is characterized in that it can measure the bending stiffness coefficient of the shoe that feels hard or soft when the shoe is bent during buoyancy and exercise after shoe ignition.

Shoes that can measure the bending force of the shoe with the shoe bending force tester of the present invention can be applied to sports shoes, such as shoes, casual shoes, hiking shoes, chemistry, aerobic shoes, and sandals, slippers, indoor shoes.

The shoe bending force tester of the present invention is a shoe fixing support (1) for fixing the shoe to be measured is attached vertically in a state capable of moving back and forth of the rotating plate (2), the rotating plate (2) is a circular disk (5) It is fixed vertically, it characterized in that the circular disk 5 can be rotated at a constant speed by the speed controller 6 for maintaining a constant voltage at the motor end. The fixed plate 3 is attached to the lower portion of the load sensor 100 that can measure the load. The data measured by the encoder 20 connected in the axial direction of the circular disk 5 and the load sensor 100 attached to the bottom of the fixed plate 3 is transmitted to the computer 34 through the data transmission device 35.

The speed controller 6 applies a voltage to the motor 14 according to the speed set in the computer, and detects and feeds back the rotation speed of the rotating plate 2 in the encoder 20 to compare the set speed with the measured rotation speed. The speed of the rotating plate 2 is kept constant by changing the voltage applied to (14). The load detector 100 is attached under the fixed plate 3 on which the front part of the shoe is placed and used to measure the bending force required to bend the shoe. The number can be used from 1 to 6, and the most effective method of measuring the bending force of the shoe specimen is to place the two on the same straight line at a certain distance and obtain the respective loads from the two detectors. When the moment is obtained by multiplying the distance to the central axis of rotation, the moment is the bending force of the specimen shoe required to bend the specimen shoe. When only one load sensor 100 is used, the manufacturing cost of the shoe bending force tester is low, but it is difficult to balance the load pressing the fixed plate 3, so that accurate measurement of the bending force is difficult. If more than two load sensors 100 are used, it is easy to balance the load on the fixed plate 3 and the measurement accuracy can be increased, but it is appropriate to use 2-4 in consideration of economy and shoe shape. Do.

Pressure sensors that can be used as the load detector 100 include mechanical pressure sensors such as bourdon tubes, diaphragms, bellows, strain gauges, organic or inorganic piezoelectric elements, and electronic pressure sensors such as coil-type of LVDT inductive type. Piezoresistive, capacitive semiconductor pressure sensors can be used.

Referring to the embodiment for measuring the bending force of the adult shoes, to measure the bending stiffness coefficient of the shoe to be fixed to the shoe fixing support (1) and to fix the rotational speed of the rotating plate (2), 0 degrees Measuring the force applied to the load sensor 100 fixed to the bottom of the fixed plate (3) while deforming to 50 degrees. The measured data is represented by a real time graph receiving a time signal from the real time clock, an angle measured by attaching the encoder 20 to the rotating shaft 21, and a voltage signal transmitted from the load detector 100 from the main computer.

According to the present invention described above, the structure is simple and the operation is simple, and the bending stiffness coefficient according to the ignition of the shoe can be measured according to the bending angle.

1 is a perspective view of a shoe bending force tester for the present invention.

2 is a side view of the shoe bending force tester of the present invention.

3 is a diagram of a shoe bending tester according to the present invention.

4 is a detailed view of a shoe bending force tester for the present invention.

5 is a load diagram applied to the pressure sensor of the shoe bending force tester according to the present invention.

<Explanation of symbols for the main parts of the drawings>

1: shoe fixing support 2: rotating plate 3: fixing plate

4: motor 5: circular disk 6: speed controller

7 stop button 12 circular disc pulley 13 belt

14 reducer 20 encoder 21 rotation axis

22: bearing 1 23: bearing 2 31: support shaft

33 amplifier 34 computer 35 data transmission device

36 counter 37 central processing unit 38 gear box

50: shoe 60: last 70: last inserted shoes

80: hinge, white paper 100: load detector

Claims (4)

Shoe fixing support (1) for fixing the last shoe 70 is inserted, the rotating plate (2) attached to the shoe fixing support (1), the speed controller (6) for controlling the speed of the rotating plate (2), motor (14) ), The fixed plate (3), the load detector 100, The shoe fixing support 1 is vertically bound to the rotating plate 2, and the rotating plate 2 is connected to the motor 14 by a power transmission means, and a load sensor 100 is disposed below the fixing plate 3. Shoe bending force tester, characterized in that coupled to the speed controller (6) for controlling the speed of the motor (2). The pressure sensor which can be used as the load detector 100 in the lower part of the fixed plate 3 is a mechanical pressure sensor such as bourdon tube, diaphragm, bellows, strain gauge, organic or inorganic piezoelectric element, elevity. {LVDT} A shoe bending force tester characterized by being able to use an inductive coil type, an electronic pressure sensor such as a load cell, and a piezoresistive, capacitive semiconductor pressure sensor. The shoe bending tester according to claim 1, characterized in that a speed controller (6) is used to control the voltage applied to the motor (14) to control the speed of the rotating plate (2). The rotating plate 2 is vertically bound to the circular disk 5, and an encoder 20 is attached to the rear axis of the circular disk 5 to detect the rotation angle of the rotating plate 2. Shoe bending strength tester, characterized in that the one.