RU2159571C1 - Towel electrical drier - Google Patents

Abstract

FIELD: electrical household devices; applicable in drying of towels in bath rooms. SUBSTANCE: towel electrical drier has frame of metal pipe bent to form contour arbitrary composed from many number of straight, S-shaped sections with horizontal location of straight parts of sections with waterproof electrical insulation and with specific heat release of 15-40 W/ru.m of drier pipe. Heating member is used in form of wire with resistivity of 100-1000 Ohm/run. m. Wire presents conductor from stainless steel, nichrome or any other material with similar electrical and mechanical properties, wound on bundle of glass fiber threads and enclosed in insulating shell from organosilicon rubber. EFFECT: safe towel electrical drier for use without special supervision in hospitals and institutions for young children, without hazard of burning. 4 dwg

Description

 An electric towel dryer (EPS) is an electrical appliance designed for drying towels in bathrooms.

 Known water towel rails (for example, a radiator-dryer according to the patent of the Russian Federation for industrial design N 44392), the disadvantage of which is the constant need for hot water.

The use of household electric heating devices (for example, an electric convector according to the RF patent for industrial design N 42207) as towel warmers is impossible for the following reasons:
- Electroconvectors are designed to work in dry rooms, and in bathrooms - high humidity;
- towels hung on the convector make it difficult to remove heat, which will inevitably lead to overheating of the convector.

 The closest analogue of the claimed device is EPS according to the application of Germany N 3908141 class. A 47 K 10/06 of 09/20/90, however, its disadvantage is the difficult to manufacture, and therefore expensive heating element, the electrical resistance of which increases with increasing temperature.

When designing the EPS, the goal was to create a fireproof device (i.e., with an outer surface temperature of 40-60 ^o C in a stationary mode with reduced heat dissipation, when most of the EPS are covered with towels) to make it safe for use without special supervision in hospitals and in institutions for young children.

 An electric towel rail characterized by the presence of a frame made of a metal pipe bent so that a contour is formed arbitrarily composed of any number of rectilinear S-shaped or U-shaped sections with a horizontal arrangement of rectilinear sections of sections, with moisture-proof performance of electrical insulation, specific heat emission of 15-40 W / running m of electric towel rail, while a heating element with a wire with a specific electrical resistance of 100-1000 Ohm / pog freely placed along the entire length of the electric towel rail is used as a heating element. m, which is a conductor made of stainless steel, nichrome or any other material with similar electrical and mechanical properties, wound on a bundle of fiberglass yarns and enclosed in an insulating sheath made of organosilicon rubber.

 The electric towel rail is a frame made of metal (painted or chrome) pipe with a diameter of 25 mm and with a wall thickness of 1 mm. The goal set in the design of the EPS is achieved at a heat release level of 15-40 W / pog. m pipe EPS. Such a relatively low heat emission in EPS made it possible to use a special wire in an insulating sheath with a specific electrical resistance of 100-1000 Ohm / pog as a heating element. m, freely placed in the EPS tube along its entire length from the inlet end to the plugged end and back, so that heat exchange between the wire and the metal pipe is carried out both at the points of contact and through the air through natural convection.

Structurally, the heating element of the claimed EPS is as follows (Fig. 1): on a bundle consisting of a bundle of fiberglass filaments 1 and having a diameter of approximately 1 mm, a conductor 2 made of stainless steel, nichrome or any other material with similar electrical and mechanical properties, diameter conductor 0.05-0.1 mm, the distance between the turns is approximately 0.1 mm. This design is placed in a shell 3 of organosilicon rubber (outer diameter of approximately 3 mm), which serves both for inter-turn insulation and for insulation between the conductor and the metal of the EPS tube. Such a heating element bends easily like a conventional stranded wire. Silicone rubber insulation is characterized by increased resistance to mechanical stress. The operating temperature of the outer surface of the shell in stationary mode does not exceed 120 ^o C, which is significantly lower than the maximum working temperature of 200 ^o C, upon reaching which there is a deterioration in the mechanical and electrical insulation properties of silicone rubber. The material of the conductor should be selected taking into account its specific electrical resistance so that, by varying the diameter and pitch of the winding of the conductor, it is possible to obtain the integral characteristic of the heating element - electrical resistance per unit of its length - in the range from 100 to 1000 Ohm / pog. m

 EPS forms are determined by practical functionality; it is desirable to have horizontal sections of EPS tubes suitable for placing towels or other items intended for drying. Therefore, the EPS circuit can have the following varieties: a) a linear circuit, b) S - shaped (Fig. 2) or U-shaped contour (Fig. 3) with a bending radius of 150 mm, c) an arbitrary combination of any number of sections according to . a) and b), and these sections can be located both in the same plane, and in different planes. When choosing the shape of the EPS circuit, it should be taken into account that for convenience of use, linear sections of pipes are preferably arranged horizontally. When arranging according to item c), it may be necessary to straighten or, conversely, bend the end sections of some sections (Fig. 4 shows an example of the EPS circuit from series-connected S- and U-shaped sections, and the end section of the S-shaped section bent, and in the U-shaped - straightened).

 EPS power supply is carried out using a three-wire cable (the third wire is used to ground the EPS housing), which is connected to the wire of the heating element at the inlet end of the EPS pipe. The junction, as well as the other end of the EPS pipe, are filled with an insulating compound. The power that the S-shaped EPS with the overall dimensions of 0.6 mx 0.6 m consumes from the network is 40-100 watts.

 The proposed version of the technical solution of EPS is simple, reliable and relatively cheap.

Claims (1)

 An electric towel dryer, characterized by the presence of a frame made of a metal pipe, bent so that a contour is formed arbitrarily composed of any number of rectilinear, S-shaped or U-shaped sections with a horizontal arrangement of rectilinear sections of sections with moisture-proof performance of electrical insulation, specific heat dissipation 15 - 40 W / running m of electric heated towel rail, while a heating element with a wire with a specific electrical resistance of 100 - 1000 Ohm / linear m, which is a conductor made of stainless steel, nichrome or any other material with similar electrical and mechanical properties, is used as a heating element wound on a bundle of fiberglass yarns and enclosed in an insulating sheath of organosilicon rubber.

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