CS261411B1 - Low voltage heating element for tapping machines - Google Patents

Abstract

The solution is to arrange a heating element for heating the working zone of basting machines used in the clothing industry for reinforcing clothing parts. Inside the supporting shell on the inner surface, a thermally conductive electrical insulating insert is longitudinally inserted, on which are successively placed: a resistance element, a thermally and electrically insulating insert, a fastening element and at least two pressure clips. The cross-section of the resistance element decreases in the longitudinal direction from the center of the element towards the ends so that the size of the cross-section of the resistance element at the ends of the element reaches at least 75% of the cross-section in the center of the resistance element.

Description

The solution is to provide a heating element for heating the working zone of the taping machines used in the garment industry to reinforce garment parts. A thermally conductive electrical insulating insert is inserted in the interior of the inner sheath on the inner flat, on which are successively placed: a resistance element, a thermal and electrically insulating insert, a fastening element and at least two pressure clips. The cross-section of the resistance cell decreases longitudinally from the center of the cell towards the ends so that the cross-sectional area of the resistance cell at the ends of the cell is at least 75% of the cross-section in the center of the resistance cell.

FIG.2

The invention relates to a low-voltage heating element for heating the working zone of taping machines used in the garment industry.

For reinforcing garment parts in ready-made garment production, taping machines are used, in which the reinforcement insert is bonded to the base material by applying adhesive with the aid of heat and pressure. Various heating systems are used to heat these machines and transfer heat to the products. For example, rod-shaped electric heating elements are known to be inserted in separate cells or in a common body. The disadvantage of such a solution is the heating of a large mass, which results in a high thermal inertia and slow reaction in temperature control, and further a lowering of the temperature at the edges of the cells or of the heating elements. Another disadvantage is the imperfect heat transfer. Also known are flat heating elements heated by a resistance wire. Their disadvantage is that in a given system it is not possible to control the temperature at the edges of the heating zone, where the heat dissipation is greater, which adversely affects adherence to the correct backing temperature and the quality of the glued joint. Low-voltage heating of the entire heating surface by means of a resistively heated thatch is also known, where the disadvantage is the inability to adjust the temperature at the edge to the center.

The above-mentioned disadvantages are largely eliminated by the low-voltage heating element for the glueing machines according to the invention, which is based on the fact that a thermally conductive electrical insulating insert is inserted on the inner flat longitudinally onto the inner flat sheath. , a fastening element and at least two pressure clips to resiliently press the individual parts against each other, the outer surface of the support jacket forming a heat transfer interface. It is also an object of the invention that the cross-section of the heating element, which determines the heat output to be transferred, decreases in the longitudinal direction from the center of the element towards the ends depending on the desired change in electrical power required to maintain uniformly distributed working temperature. wherein the cross-sectional area of the resistive cell at the cell ends is at least 75% of the cross-sectional area in the center of the cell. It is an advantage of the invention that, by means of the differently mounted individual cells, the temperature distribution according to the need of the material to be glued, the good heat transfer and the low losses can alternatively be selected. An essential advantage is the uniform temperature distribution over the entire width of the machine, which has a decisive influence on adherence to the technological parameters and thus on the quality of gluing. The heating element quickly rises to the operating temperature and reacts quickly to changes in temperature in both directions, due to the low weight of the support jacket. The advantage of the solution is also long-term and unlimited lifetime of the resistance cell and safety low-voltage power supply. The elastic connection and the pressure of the individual parts ensure the flatness of the heating element at different thermal expansion of the individual parts.

A low-voltage heating element for the adhesive machine is shown by way of example in the accompanying drawings, in which: FIG. 1 shows a section in longitudinal section, FIG. 2, 3 in cross-section and FIG. 4 in a sub-plan.

Inside a tubular shell or thin-walled open profile (for example aluminum), preferably of rectangular cross-section, this is not a requirement; a thermally conductive electrical insulating insert 2 formed, for example, of teflon glass fabric, is inserted on the inner flat 7. The following are successively stacked: a flat strip resistive member 3 made of a resistive material, a thermal and electrically insulating insert 4, made, for example, of an asbestos thatch, a fastening element 5 formed of a steel profile, and at least two resilient pressure clips 6. the side of the wall of the support sleeve 1 opposite the inner flat 7 forms the outer contact surface 11. The support sleeve 1 in the form of a tube or thin-walled profile ensures the flatness and rigidity of the outer contact surface 11; a functional area of the article, after which the conveyor belt with the garment parts to be processed (not shown in the drawing) is applied. The cross-section of the resistive cell 3 decreases from the center of the cell 8 to the ends of the cell 9, depending on the required electrical power required to maintain a uniformly distributed working temperature over the entire outer contact flat 11 of the support sheath 1. In the case of a resistive element 3, in the form of a flat strip, it is advantageous to vary the functional cross-section by changing the width of the strip. The functional area of the gluing machine consists of folding the individual cells side by side, according to the thermal regime requirements of the machine.

In operation, a low-voltage electric current is supplied to the leads 10 of the resistive element 3, thereby heating the resistive element 3 and transmitting thermal energy via the thermally conductive insulating insert 2 through the inner surface 7 of the support jacket 1 to the outer interface 11 that heats the conveyor belt. Separate. clothing parts. By varying the cross-section of the resistive cell 3, decreasing it from the center of the cell 8 towards the ends of the cell 9, an increase in heat output towards the ends of the cell 9 is achieved so that by covering the losses caused by greater heat dissipation at the cell edge, the working temperature is kept constant within the desired tolerance.

The elastic connection of the individual parts of the heating element ensures the flatness of the support jacket 1 so that during heating or β

the cooling of the machine did not deform the heating element due to the different thermal expansion of the materials.

Claims (2)

SUBJECT 1. Low-voltage heating element for glueing machines, consisting of a support sheath, a resistance element and thermally and electrically insulating inserts, characterized in that a thermally conductive electrically insulating insert (2) is inserted in a longitudinally disposed manner within the support sheath (1). to which the resistive element (3), the thermal and electrically insulating insert (4), the fastening element (5), and at least two pressure clips (6) for resiliently pressing the individual parts against each other are successively placed. 2. Low voltage heating element for BACKGROUND OF THE INVENTION according to claim 1, characterized in that the cross-section of the resistance cell (3), which determines the heat output to be transferred, decreases in the longitudinal direction from the center of the cell (8) towards the ends of the cell (9). Maintaining a uniformly distributed working temperature over the entire outer contact (11) of the support sheath (1) such that the cross-sectional area of the resistive element (3) at the ends of the element (9) reaches at least 75 ° / o ). 2 sheets of drawings 10 1 2 3 11 U 40 FIG.1 1 2 3 11 <t FIG.2