RU2652881C2 - Water walking device and a method of its manufacturing - Google Patents

Abstract

FIELD: manufacturing technology.

SUBSTANCE: invention relates to devices that enable a person to walk on the surface of water. Water walking device contains two rims, that are connected by a flexible plastic transparent tube with the formation of a pressurized volume symmetrical with respect to the axes of rims, the inner and outer surfaces of which have an elongated arcuate shape. For manufacturing the device on an existing inflatable gear that includes a coaxially positioned pipe, on which the rims are fastened after creating pressure in the gear, a flexible strong plastic tube is coiled along with a conductive, insulated plastic core insulation and after creating a core pressure in the tube, current is passed. After the insulation melt, the current is turned off and when the plastic solidifies, air is removed from the tube and gear, after that the gear is released to make the next device.

EFFECT: simplification of the device is achieved.

4 cl, 1 dwg

Description

The invention relates to devices that enable a person to walk on the surface of the water, based on the use of muscle energy.

A device for walking on water (see application No. 2017115607, publication date 07/06/2017, Bull. No. 12) containing ribs of a given surface shape that are evenly spaced at a certain distance from the axis and fastened on both sides by means of bundles passing through them holes, and the harnesses are fixed by rims, while the ribs on both sides are hermetically connected by a film, which forms an inter-film space pumped by air, and a coupling belt is attached to the outer surface of the device’s volume, containing stops with a spring-loaded rudders having the possibility of rotation around their axes, which are connected flexible links, are fixed in the device volume. The disadvantage of this device is the high cost of production.

The technical result of the invention is to simplify the device and reduce the cost of its manufacture.

Reducing production costs is achieved by the simplicity of the design, as well as by the fact that the device is made of a durable flexible plastic transparent section having a predetermined tube shape by winding it onto a predetermined rigid shape, followed by hermetically gluing its coils.

The device (see Fig. 1) contains a volumetric predetermined shape of a hollow structure made of a plastic tube 1 by simultaneously gluing its coils of molten plastic insulation 3 using a conductive core 2 when current passes through it. Rims 4 are fastened to the beginning and end of the screw tubular volumetric structure. 4. They have studs 5 for fixing the blades (oars) 6. The threaded plug valve 7 (valve in the plug) is used to pump air into the tube 1. The inner and outer surfaces of the device have an elongated arcuate shape.

The operation of the device consists in the fact that when a person moves along the inner surface of the device perpendicular to its axis, the device moves along the surface of the water. When a person is closer to the right edge of the device as a result of an increase in the contact surface of the right blades with water and a decrease in the contact surface of the left blades, the device rotates to the left side and vice versa, when a person is closer to the left edge of the device, the device rotates to the right side.

The device can be used in recreation areas, to move through swamps, during sporting events, and also as a life-saving tool in the event of accidents of marine vehicles. In case of submarine accidents, an airtight shut-off of the inlet is necessary, followed by inflation of balloon air as a function of the lifting speed.

A method of manufacturing the device consists in the fact that the snap-in must be an inflatable structure, the external surface of which must be inflated to correspond to the internal surface of the product. Coaxially with this design, a pipe is mounted on which the rims are fixedly mounted. After inflating the equipment, we make a spiral winding of a plastic tube and a conductive core with plastic insulation on it, after which we create pressure in the tube. When passing current through the core, the plastic insulation melts and under the action of the force caused by pressure, the tubular coils are hermetically glued. After turning off the solidification current of the melt, remove air from the product and accessories, unfasten the rim and remove the finished product.

Claims (4)

1. A device for walking on water, characterized in that it contains two rims connected by a flexible plastic transparent tube with the formation of a sealed volume symmetrical relative to the axis of the rims, the inner and outer surfaces of which have an elongated arcuate shape. 2. The device according to claim 1, characterized in that the blades are attached to the outer sides of the rims perpendicular to their axes. 3. The device according to claim 1, characterized in that the cavity of the plastic tube is connected with a cork valve. 4. A method of manufacturing a device, which consists in the fact that on an existing inflatable rig containing a coaxially arranged tube, onto which the rims are attached after creating pressure in the rig, a flexible flexible plastic tube is wound together with a conductive, insulated plastic insulation and even after creating a pressure in the tube current is passed through the core, after the insulation is melted, the current is turned off and when the plastic hardens, the air from the tube and the tool is removed, after which the tool is released for manufacturing next device.

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