CS264180B1 - Heating element - Google Patents

Abstract

The solution concerns a heating element for flat irons of textiles, the essence of which lies in the fact that a heating resistance wire is wound on one side of the beam, the distances of the individual turns form a Gaussian error distribution curve with its peak in the center of the beam, while on the side of the heating resistance wire it is provided with an insulating plate and on the opposite side along its longer sides there are insulating strips connected together with the beam and the insulating plate by rivets. The peak turn of the heating resistance wire is doubled, while one turn of the heating resistance wire is placed on one side and its second turn on the other side of the peak of the Gaussian error distribution curve in the center between its peak and the next turn of the heating resistance wire. The advantages of the heating element solved in this way consist in a uniform temperature distribution on the ironing surface of the flat iron of textiles, lower consumption of electrical insulating material, saving of electrical energy and simpler production.

Description

The present invention relates to a heater of flat irons of a fabric formed by a beam, a heating resistive conductor and an insulating plate.

For heating larger surfaces, especially flat ironers, it is desirable to evenly distribute the temperatures to avoid overheating of the heat-sensitive textiles and thereby reduce their lifespan or damage.

Currently, in order to ensure uniform temperature distribution on the flat iron, it is in part achieved by bulky and complex heating elements with uniform winding over the entire length, respectively with uniform winding and at both ends with double the number of turns, to increase the temperature at the edges of the ironing surface.

The disadvantage of such heating elements is the high demands on production, assembly, material consumption and considerable thermal differences in individual places of the ironing surface.

These disadvantages are substantially reduced by the heating element of the flat iron fabric according to the solution, which is based on the fact that a heating resistive conductor is wound on a single-sided beam, the spacing of the individual threads forming a curve of Gaussian error distribution with its apex in the center of the beam. The conductor is provided with an insulating plate and from the opposite side on its longer sides are placed insulating strips connected with the beam and the insulating plate by threads. The top coil of the heating resistive conductor is doubled, with one coil of the heating resistive conductor located on one side and its other coil on the other side of the peak of the Gaussian error distribution curve centered between its apex and the next coil of the heating resistive conductor.

The advantage of the heater according to the solution lies in the uniform temperature distribution on the flat iron flat iron, less consumption of electrical insulating material, energy saving and simple production.

The accompanying drawings show an example of a flat iron heater for the fabric of the present invention. Fig. 1 schematically shows a cross-section of a flat iron fabric. Fig. 2 shows the location of the heating elements of the ironing portion of the flat iron. Fig. 3 shows a partial cross-section of the heater. Fig. 4 is a cross-sectional view of the heater of FIG. 3. FIG. 5 shows a detail of the fixing of the heating resistance conductor to the beam of FIG. 3

The heating element 10 according to the solution consists of a beam 11, on which a heating resistive conductor 14 is wound on one side. On the side of the heating resistive conductor 14, an insulating plate 12 is placed on the beam 11 and insulating strips 15 are placed on the opposite side. The insulating strips 15, the beam 11 with the heating resistive conductor 14 and the insulating plate 12 are joined together by threads 16. The beam 12 is provided on both long sides with vibrations 17 for fastening the heating resistance conductor 14. Part of the winding of the heating resistance conductor 14 is through the vibrations 17 The spacing of the individual threads of the heating resistive conductor 14 is such that they form a Gaussian error distribution curve with a vertex in the center of the beam 11. The vertex thread passing through the center of the beam 11 is doubled and spaced from both. slope in the middle between the peak of the Gaussian ro the electrically insulating plate 22, which together with the heating element 10 are resilient with the elastic strips 23 pressed against the ironing flat 21. The outlets 18 of the heating resistor conductor 14 are connected and its second outlets 19 are connected to the heating element 10. they are connected to the power supply via a control thermostat not drawn. Through the flow of electric current through the heating resistor conductor 14 of the heating element 10 its intensive heating and hence the heating of the ironing surface 21 of the flat iron to the textile 20 occurs. whose distances of the individual turns of the heating resistor 14 form a Gaussian error distribution curve. In the center of the soleplate 21 is a non-drawn thermostat that senses its temperature and, when the temperature rises above a predetermined value of the soleplate 21, switches off the power supply to the heater 10. When the soleplate 21 drops below the desired value, heater 19, whereby the temperature of the ironing surface 21 is maintained at a desired value.

The heating element solution can be advantageously used for large heating and ironing surfaces where high uniformity of temperature distribution is required.

Claims (2)

264180 PREDMET 1. A flat iron heater is characterized in that a heating resistor conductor (14) is wound onto the beam (1i-sided), the distances of which are formed by a Gaussian distribution curve with its apex in the center of the beam (11), the beam ( 11) is provided with an insulating plate (12) on the side of the heating resistor conductor (14) and insulating strips of the invention (15) connected to the beam (11) and the insulating plate (12) on the opposite side of the longer sides thereof rivets (16). 2. The heater according to claim 1, characterized in that the top thread of the heating resistor conductor (14) is doubled, wherein the heating resistor conductor (14) is disposed on one side and the other on the other side. the apex of the Gaussian error distribution curve in the middle between its top and the subsequent thread of the resistance wire (14). 2 sheets of drawings