JPH08117083A - Automatically slipper inverting apparatus - Google Patents

Abstract

PURPOSE: To enable automatic inversion of the direction of slippers taken off by a method wherein a rotary plate is lowered by the weight of a man to compress a spring while a disc is turned with a curved bar having the rotary plate and the disc linked and the disc lowered is stopped with a stopper mechanism to turn the rotary plate. CONSTITUTION: A hollow bar 2 and a stopper mechanism 3 are provided on a base bottom part 1 and a disc 4 is inserted into the hollow bar 2 free to turn. Protruded parts are made at two points on the disc 4, the protruded parts and a stopper are made of a magnet and the end of a bar 5 curved on a metal ware is mounted on the top surface of the disc 4. A spring 6 is mounted on the base bottom part 1 and a circular plate 7 is provided on the top surface thereof. The other end of the bar 5 curved is mounted on a metal ware provided on the undersurface of the rotary plate 8 and a central bar of the rotary plate 8 is inserted into the hollow bar 2. When a man rides on the rotary plate 8, the rotary plate is lowered and the disc 4 turns by 180 deg. with the bar 5 curved beyond the stopper 3. When the man gets off, the rotary plate 8 rises and the stopper mechanism and the magnets prevent the disc 4 from moving, so that the rotary plate 8 turns.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention is a machine that automatically reverses the direction of a slipper that has been taken off by using the weight of a person. Generally, changing to slippers in a toilet or the like is widely performed. However, it is difficult to change the direction of the slippers that have been taken off so that the next person can use them easily after use, even if it is known. The present invention is intended to be solved by a mechanical device. Hereinafter, it will be explained. (A) The hollow rod 2 is attached to the base 1.

(B) Attach the stopper mechanism 3 to the base 1. The stopper mechanism is composed of a triangular prism stopper and a spring, and a fulcrum of the stopper.

(C) Insert the hollow portion of the donut-shaped disc 4 into the hollow rod 2. The disc 4 is allowed to rotate freely around the rod 2 so that the disc 4 does not descend.
It should be noted that triangular protrusions are formed on the disc 4 at two positions of 180 °. It should be noted that both the convex portion and the stopper of this triangle are magnets, or one is a magnet and one is iron.

(D) A freely rotatable metal fitting is attached to an appropriate position on the upper surface of the disc 4, and the end of the curved rod 5 is attached to the metal fitting.

(E) Attach a plurality of springs 6 to the base 1. A donut-shaped circular plate 7 is attached to the upper surface of the spring. The spring 6 and the circular plate 7 are located outside the mounting position of the rod 5 on the rotary plate 8 and do not prevent the movement of the rod 5.

(F) A freely rotatable metal fitting is attached to the lower surface of the rotary plate 8 at an appropriate position, and the other end of the curved rod 5 is attached to the metal fitting.

(G) Insert the central rod of the rotary plate 8 into the hole of the hollow rod 2. Although configured as described above, the operation thereof will be briefly described below. The rotating plate is bent and the spring is compressed by the weight with which a person rides. At the same time, disk 4
Rotates 180 °. When a person takes off the slippers and descends from the rotating plate, the weight is lost, the spring is restored, and the rotating plate rises. Since the disc 4 cannot rotate in the opposite direction due to the stopper mechanism, and is adhered by magnetic force,
The rotating plate will rotate. As a result, the slippers that have been taken off are turned over, making it easier for the next person to wear. This movement will be described in detail. (A) A person wearing a slipper rides on the rotary plate 8 in a slipper. The weight causes the rotating plate to descend.

(B) At the same time when the rotary plate 8 descends, the spring 6 is also compressed.

(C) Since the curved rods 5 are connected, the disc 4
Rotates 180 °. This is because the rotating plate 8 and the circular plate 4 are connected by the curved rod 5, and the circular plate 4 cannot descend any further, so that the circular plate 4 cannot be descended for the descended distance. This is to keep that distance by rotating. Naturally, the curved rod 5 must be made of a material that does not deform. In order to reduce the descending distance, the mounting position of the curved rod 5 should be as close as possible to the center of the disc 4, that is, the radius should be small, and the mounting position of the rotary plate 8 should be opposite. Then, set to a position with a large radius. Further, in order to obtain the rotation of 180 °, the hollow rod 2 becomes an obstacle, so that it is necessary to wrap around the rod 2. Therefore, it becomes necessary to bend the rod 5.

(D) The disc 4 rotates 180 ° and goes over the stopper 3.

(E) The rotary plate 8 hits the outer peripheral wall of the base portion 1 and stops. Therefore, the length of the center rod of the rotary plate 8 and the length of the hollow rod 2 are set so as not to hinder this movement in the middle.

(F) A person takes off the slippers and gets off the rotating plate.

(G) By eliminating the weight, the compressed spring is restored and the rotary plate 8 rises.

(H) Since the length of the curved rod 5 does not change, a movement that attempts to bring the attachment position closer is generated by the amount of the increased distance. However, since the disc 4 cannot be moved from that position due to the stopper mechanism and the magnet, the rotary plate 8 rotates. The degree of this rotation is always 180 °.

(I) As a result of the above, the slippers that have come off are automatically inverted. The above is the description of the operation. In addition, as a supplement, even when a person wears slippers and gets off the rotating plate, the person rotates. This is a wasteful movement, but does not interfere with the purpose of this machine. In addition, as for the contact surface between the circular plate 7 and the rotary plate 8,
Make sure there is no friction, and if necessary, attach rollers etc. Further, a cloth or the like may be attached to the upper surface of the rotary plate to increase the friction so that the slipper does not move during rotation. The shape of the rotary plate does not have to be circular.
Also, the shape of the base does not have to be circular. Also,
It is also possible to connect a plurality of these machines. Further, the spring 6 can be changed to another material such as rubber as long as it has a restoring force, and the shape can be a donut shape. As for the material of the other parts, any material may be used as long as it has appropriate strength. The machine is not limited to slippers and can be used for footwear in general, and may be used at the entrance. Further, it is also possible to rotate by using a motor such as electricity without using the restoring force of a spring or the like.

[Brief description of drawings]

FIG. 1 is a sectional view of the product of the present invention.

FIG. 2 is a schematic diagram of a rotation mechanism of the product of the present invention.

FIG. 3 is a schematic diagram of a stopper mechanism.

[Explanation of symbols]

 1, a base 2, a hollow rod 3, a stopper mechanism 4, a disc 5, a curved rod 6, a spring 7, a circular plate 8, a rotating portion 9, a support rod of the stopper mechanism 10 is a spring of the stopper mechanism 11 is a stopper

Claims (1)

[Claims] 1. A machine for automatically reversing the direction of a slipper that has been taken off.