RU2721383C1 - Method of making an elastic electric heater based on a resistive heating wire - Google Patents

Abstract

FIELD: electric heating.

SUBSTANCE: invention relates to the field of electric heating and can be used in manufacture of elastic electric heaters having low heat trains due to tight fitting to the object intended for heating of objects of complex shape. Elastic electric heater manufacturing method is based on a wire strip on a two-way elastic fabric base temporarily fixed with a paper water-soluble template glued thereto with applied trajectory of wire laying, two-piece zigzag-like suture on sewing machine of general purpose with the help of highly maneuverable lug, intended for laying and fixation of wire on template.

EFFECT: invention enables to obtain a flexible heating element allowing multiple stretching in two directions and twisting without damaging the heating element.

1 cl, 3 dwg

Description

The invention relates to the field of electric heating and can be used in the manufacture of flexible electric heaters with low heat loss due to tight fit to the object, designed to heat objects of complex shape.

Two main directions can be distinguished in the manufacture of flexible heaters: either by weaving conductive threads into the base (usually knitted weaving), or by fixing a resistive heating wire on a flexible basis.

The woven heating elements belonging to the first group have increased elasticity in one direction due to the properties of knitted weaving (for example, auth. Certificate of the USSR No. 729854, IPC Н05В 3/34 published 04/25/1980; aut. Certificate of the USSR No. 909801 MPK Н05В 3/34 published 02/28/1982; patent RU No. 2182406 C1 IPC Н05В 3/36 published May 10, 2002; patent RU No. 2371886 C1 IPC Н05В 3/34 published October 10, 2009; patent RU No. 2382528 C1 IPC Н05В 3/34 published 20.02 .2010). Moreover, such heating modules have the following disadvantages:

- the complexity of production (the inability to use high-performance sewing production);

- the inability to obtain electric heaters of complex shape and to provide different heating temperatures for various sections of the complex shape of the object, since woven heating elements provide uniform heating over the entire surface of the element due to the frequency of distribution of heating threads;

These disadvantages are absent in flexible heaters based on resistive wires, because the location (density of laying) of the wire based on can vary to achieve the required intensity of heating in different sections of the heater.

Most of these heating modules, which make up the second group, have an inelastic base, a flexible non-woven material or fabric, to which a resistive heating element is attached by sewing with a zigzag seam on a sewing machine or with glue (for example, author's certificate. USSR No. 421148 MPK Н05В 3 / 34 published March 25, 1974; patent RU No. 2402181 C2 IPC Н05В 3/20 published October 10, 2010; patent RU No. 25133 U1 IPC H05B 3/34 published September 10, 2002). However, the drawback of these methods is the inelasticity of the resulting flexible heating module, which does not allow it to be used for the manufacture of a heater that is closely adjacent to an object of complex shape.

Thus, existing methods of manufacturing flexible heaters do not simultaneously provide elasticity and different intensities of heating in different sections of the heater, in addition, none of the analogues considered has elasticity in two directions.

Reliable fastening of resistive heating elements on an elastic basis is possible while temporarily eliminating the elasticity of the base during the fixing process. A known method of joining water-soluble woven and non-woven materials to increase the mechanical strength of the base material to create chemical lace (patent JP 2003129383 A published 05/08/2003) using hot hot-melt water-soluble adhesive composition based on polyvinyl alcohol or polyamide, followed by joining materials by hot stamping, needle-punched or hydrodynamic method. The disadvantages of this method are the complex requirements for the structure and composition of the materials used, the decrease in the degree of elongation of the base to only 5%, the negative external effect on the materials (both mechanical and thermal) when connecting the materials, as well as the rather high dissolution temperature of the resulting base from such image of woven and non-woven materials.

The closest technical solution, selected as a prototype, is a flexible heating element (patent RU No. 2543966 C2 MPK Н05В 3/34 published March 10, 2015) based on a bundle of resistive wires made in the form of a bundle of enameled resistive microwire and reinforcing threads with bundle strapping glued to the base or sewn to it on a sewing machine in a zigzag seam.

The disadvantage of such an electric heater is the inelasticity of the base; gluing the heating element to an elastic base will not provide sufficient reliability of the fixing of the heating element during bending and stretching of the base during operation; The method of sewing the heating element with a zigzag seam on a sewing machine without preliminary preparation of the base is not applicable to an elastic base of at least one direction, because will lead to excessive stretching and / or creasing of the elastic fabric when pricked with a needle, which may cause skipped stitches (lowering the reliability of fastening of the heating element) or cause warping of the base.

The objective of the invention is to provide reliable fastening along a predetermined path of the location of the heating wire on a stretch fabric, elastic in two directions (biflex), without violating the elasticity of the base material.

The technical result of the proposed method is to maintain the elasticity of the fabric base of the heating element in two directions with reliable fastening of the heating wire.

The technical result is achieved due to the hardening of the surface of the stretch fabric of the “biflex” type by gluing a water-soluble paper template onto it when the resistive heating wire is sewn to the fabric base with a sewing machine using a two-needle zigzag seam by means of a highly maneuverable “foot” with the possibility of positioning the heating wire strictly between the needle pricks with subsequent removal water soluble pattern.

The use of a paper template provides the following benefits:

- increasing the surface strength and bending stiffness of the fabric, which avoids deformation of the elastic fabric base when piercing with a needle and moving on the working table of the sewing machine;

- improving the accuracy of positioning the heating wire on a fabric basis by applying to the template the path of laying the wire.

To strengthen the woven base can be used patterns of various water-soluble non-woven materials, however, the use of a paper template (from paper tracing paper) provides several advantages.

Paper tracing paper is an affordable and cheap material widely used in sewing production; it is convenient to apply patterns of a woven base of a given shape to it, and the trajectory of the heating wire of any complexity. The paper template has good adhesion to the developed adhesive composition based on water-soluble food components, while connecting the template to a non-woven base does not require additional exposure to high temperatures (above 90 ° C), which are unacceptable for stretch fabric like biflex.

After bonding the woven base to the paper template with adhesive, a rigid fixation of the fibers of the woven base is achieved, i.e. the complete elimination of the elasticity of the material while maintaining the tensile strength when pierced by a needle (the degree of elongation of the fabric in any direction is 0%), which avoids the heterogeneity of machine stitches and improves the reliability of fixing the heating wire.

The water-soluble paper template is easily removed in the delicate washing mode in a household washing machine at 30 ° C, which avoids the negative impact on the fibers of the woven base (since the recommended temperature for washing the stretch fabric like “biflex” is not more than 40 ° C), not damaging the woven base and preserving all its original properties.

Thus, at all stages of creating a flexible heater according to the proposed method, the temperature regime is acceptable that is acceptable for stretch fabric type “biflex”, there is no negative chemical or physical effect (hot stamping, ultrasonic welding or preliminary chemical processing for adhesion) to the fibers of the woven base, i.e. its original strength and elasticity is maintained.

The highly maneuverable “foot” of the sewing machine is designed for joint laying and sewing of the heating wire in a zigzag seam.

A smooth wavy trajectory of the heating wire, excluding straight lines, and maintaining the elasticity of the woven base after fixing it, allows you to get a flexible heating element that allows multiple stretching in two directions and twisting without damaging the heating element.

Due to the hardening of the surface of the stretch fabric of the “biflex” type, the fastening of the flexible heating wire is increased, which makes it possible to obtain a heating element with high mechanical resistance and elasticity in two directions.

Therefore, the claimed invention meets the requirements of novelty.

The invention is illustrated in FIG. 1 (stretch fabric with a glued pattern), FIG. 2 (sewing process of a heating wire), FIG. 3 (stretch fabric with sewn heating wire after removing the template).

The following positions are indicated in the figures:

1 - stretch-fabric type "biflex" with elasticity in two directions;

2 - water-soluble paper template;

3 - the path of laying the heating wire;

4 - places for additional fixing of the heating wire;

5 - heating wire;

6 - two-needle zigzag seam;

7 - highly maneuverable “foot” of the sewing machine.

To create an elastic heater, a basis is used from a textile knitted fabric, elastic in two directions, and a wire made from dacron threads with resistive spraying of metals.

To increase the surface strength of the stretch fabric (item 1) and to ensure that the foot is pressed firmly against the conveyor of the sewing machine without wrinkling, when piercing the fabric with a needle, a template (item 2) made of water-soluble paper with a zero stretch factor is glued onto the surface of the elastic fabric base.

To ensure the accuracy of the positioning of the heating wire, the path of laying the wire (position 3) and the place of fastening the wire with additional stitches (position 4) are pre-applied to the template. The template is made by printing on any plotter. Using this technology, you can easily vary the density of the heating wire on the stretch fabric in the manufacture of a single modular unit, which will ensure the necessary heating temperature for various parts of the heated object.

The stretch fabric prepared for the step of sewing on the wire (item 1) with a water-soluble paper template adhered (item 2) is shown in FIG. 1.

To glue a stretch fabric with a paper template, a water-soluble, non-destructive fabric, hypoallergenic adhesive composition with good adhesive properties with a fabric based on food, water-soluble components (starch, sugar) is used. The developed adhesive composition is easily washed with water and is safe for humans in contact with skin, which allows the use of the obtained elastic electric heaters to create electrically heated clothes worn directly on the human body.

After the stage of air drying of the adhesive joint of the stretch fabric with the paper template is completed at room temperature, the heating wire is patched. The heating wire is sewn (position 5) to the stretch fabric (position 1) with a paper template glued on it (position 2) in accordance with the applied path for laying the wire (position 3) using a two-needle zigzag seam (position 6) on a general-purpose sewing machine using highly maneuverable presser foot (key 7), designed for laying and fixing the wire on the template. The process of sewing the heating wire (key 5) to the stretch fabric (key 1) with a glued paper template (key 2) is shown in FIG. 2.

Removing the adhesive composition and the water-soluble template (item 2) from the surface of the stretch-tactnie (item 1) is done by delicate washing in general-purpose washing machines. The stretch fabric (item 1) with a sewn heating wire (item 5) after removing the water-soluble template is shown in FIG. 3.

The technical and economic efficiency of the proposed method for manufacturing an elastic heating element based on stretch fabric with a resistive heating wire consists in ensuring reliable fastening of the heating wire (with a given path, density and length of the wire) to the woven base without losing its elasticity, as well as the possibility of using high-performance sewing production based on standard equipment (general-purpose sewing and washing machines).

Technical result: reliable fastening of a flexible resistive wire to stretch fabric of “biflex” type, which allows stretchable elastic material without creating a tensile force to the heating wire, which makes it possible to manufacture elastic heaters that fit snugly to the heated object of complex shape, which increases the efficiency of heat energy use heating wire.

This invention can be applied in light industry for the manufacture of electric heaters based on elastic fabric, for example, for the manufacture of clothing or protective covers with electric heating. In the industrial application of this method of manufacturing a flexible heating element, only standard equipment is required (sewing and washing machines), there are no additional requirements for the preparation of the premises for sewing production (no use of harmful, chemically active substances).

The new technical solution is industrially reproducible using standard sewing equipment, has shown positive results in implementation and is characterized by the compliance with the Industrial Applicability criterion; it is advisable to protect exclusive rights with a patent for its creation and use.

Claims (1)

A method of manufacturing an elastic electric heater, characterized in that the flexible resistive wire is secured by a machine seam along a path excluding straight lines on an elastic / stretchable in two directions woven base, while temporarily eliminating the elasticity of the woven base (achieving zero degree of elongation of the fabric in any direction) a water-soluble paper template is attached to it using a water-soluble, highly environmentally friendly, fabric-friendly, hypoallergenic adhesive and the resistive heating wire is sewn on a general-purpose sewing machine using a highly maneuverable foot designed to lay and fix the wire on the template and then remove the water-soluble template at 30 ° With no damage to the fibers of the elastic woven base, which allows for accurate positioning and reliable fastening of the heating wire with elasticity of the electric heater in two directions.

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