CZ288460B6 - Electric heating element for injection moulding or injection tools - Google Patents

Abstract

The invented electric heating body, for injection moulding or injection tools, comprises a metallic jacketed tube (2) in which a heating conductor (3) is embedded in insulating material, whereby the jacketed tube (2) is in the form of a corrugated hose. The corrugated hose forming the jacketed tube (2) consists of adjoining segments formed by annular elements (10) of U-shaped cross-section disposed side-by-side to form a slot and joined at their free ends by especially rounded bridge portions (11).

Description

Electric heating element for injection molding or injection molding tools

Technical field

The invention relates to an electric heater for injection molding or injection molding in the form of a tubular heater comprising a metal sheathing tube in which at least one heating conductor is embedded in an insulating material, the sheathing tube being an annular wave hose.

BACKGROUND OF THE INVENTION

Heating elements of this type made of steel, in particular stainless steel, are known in the art. In many applications, especially when such heaters are formed into trough-selected contours of the steel plate of an injection-molding or injection molding tool, these heaters need to be pre-shaped according to the shape of the troughs, i.e. bent, which is possible only by machine. These pre-bent heating elements can then be inserted, pressed and optionally sealed into the trough contours. Since the contours in the corresponding steel plates are very different, an individual preforming of the tubular heater or heating cartridge is always required, which is costly and time consuming.

SUMMARY OF THE INVENTION It is an object of the present invention to provide an electric heater of the type mentioned above, which could also be readily adapted to the desired bending sequence and at the same time produced cheaply.

SUMMARY OF THE INVENTION

This object is achieved according to the invention by an electric heating element for injection molding or injection molding in the form of a tubular heating element comprising a metal sheathing tube in which at least one heating conductor is embedded in an insulating material, the sheathing tube being an annular hose. The corrugated tube is formed in one piece from the segments formed by the annular U-shaped cross-sections which are juxtaposed to form gaps and are connected at adjacent ends of the arms especially rounded material bridges.

Preferably, the length of the arms of the U-shaped annular elements is substantially equal to the width of their base. The length of the arms preferably corresponds substantially to one fifth of the diameter of the heater.

According to a further feature of the invention, the gap formed by the material bridges between adjacent arms of adjacent annular elements corresponds essentially to one fifth to one seventh of the length of the arms or the length of the base.

Preferably, the ring-shaped hose has a polygonal, preferably square, cross-section. The cross-sectional corners of the ring-shaped hose are preferably rounded.

According to a preferred embodiment of the invention, the casing tube is connected to a steel heating plate of a casting tool, in particular a hot channel tool, in which the receiving contour is received, the receiving contour being a curvilinear receiving channel, in particular with a flat abutment, wherein snap-in elements are located on the receiving trough, in particular in the form of snap-on noses, by means of which the jacket tube is connected to a steel heating plate, the cross-sectional shape

The receiving contour is adapted to the cross-sectional shape of the ring-shaped hose forming the sheath tube. Preferably, the annular wave hose having a square or rectangular cross section has two parallel sides of the cross section that are parallel to the plane of the steel heating plate.

This formed casing tube allows the heater formed therefrom to be manually plastically deformable in any direction, so that it can be easily adapted to the corresponding manual bending according to local conditions. For this purpose, no preforming or bending of the casing tube is required, but the bending can be done manually on site according to the conditions. Due to the internal filling of the jacket tube with insulating material, the jacket tube retains its cross-sectional shape.

BRIEF DESCRIPTION OF THE DRAWINGS

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a longitudinal central sectional view of an electric tubular heater of the invention; FIG. 2 is a plan view of a steel plate of an injection molding or injection molding tool with an inserted electric heating element; 3 shows a cross section 20 of the steel plate of FIG. 2, and FIG. 4 shows a cross section through an example of a tubular body.

DETAILED DESCRIPTION OF THE INVENTION

In the embodiment according to FIG. 1, the jacket tube 2 of the heater 1 is formed by a flexible hose with annular waves. Inside the casing tube 2 is insulating material 4 and a heating conductor 3. The tubing forming the casing tube 2 is formed of one piece of material from segments in the form of annular U-shaped elements 10 which are juxtaposed when defining the gaps, the lengths of the arms of the U-shaped annular elements 10 are approximately equal to the width of the base of the U-shaped annular elements. The length of the arms corresponds approximately to one fifth of the total diameter of the heating element J. The adjacent annular elements 10 formed by the material bridges 11 correspond to approximately one-fifth to seventh of the length of the arms or the length of the base.

Such a heater 1 can be simply inserted into the corresponding bearing contour 8 of the steel heating plate 9 as shown in FIG. 2, where the flexible wave hose is not indicated and the jacket tube 2 is only outlined. The casing tube 2 can be easily shaped by hand according to the mounting contour 8 of the steel heating plate 9, whereby a substantially flat bearing surface adjacent to the mounting contour 8 of the steel heating plate 9 of the tool is achieved due to the presence of U-shaped segments 40.

The electric heating element 1 for injection-molding or injection-molding tools has a metal jacket tube 2 in which the heating conductor 3 in the form of a heating coil is embedded in an insulating material 45, for example magnesium oxide. The sheath tube 2 is a flexible ring-shaped hose, which may be made of stainless steel or other suitable materials, such as titanium. In order to be able to insert such heating elements 1 or heating cartridges into the corresponding receiving contour 8 of the heating plate 9 for the injection molding or injection tool, the tubular heating element 1 formed with the jacket tube 2 as an annular wave hose 50 is insertable while monitoring of the receiving trough in the heating plate 9 and in the case of a flat continuous contact with the trough and preferably with snap elements, in particular in the form of snap-on noses, by means of which the jacket tube 2 is connected to the steel heating plate 9. In the case of a preferred rectangular or square cross-sectional shape of the ring-shaped hose, the mounting contour 8 in the heating plate 9 can also be made rectangular or square.

This arrangement and arrangement allows a simple fit with a tight fit, as well as a light fit into the curvilinear parts of the heating troughs 9 of the steel heating plate 9.

Claims (8)

PATENT CLAIMS Electric heating element for injection-molding or injection molding tools, in the form of a tubular heating element (1), comprising a metal jacket tube (2) in which at least one heating conductor (3) is embedded in an insulating material, the jacket tube (2) ) is formed by a ring-shaped hose, characterized in that the ring-shaped hose forming the jacket tube (2) is formed in one piece from segments formed by U-shaped annular elements (10) which are arranged side by side when forming and at the adjacent ends of the arms are connected in particular by rounded material bridges (11). Electric heater according to claim 1, characterized in that the length of the legs of the U-shaped annular elements (10) is substantially equal to the width of their base. Electric heater according to claim 1 or 2, characterized in that the length of the arms corresponds essentially to one fifth of the diameter of the heater. Electric heater according to any one of claims 1 to 3, characterized in that the gap formed by the material bridges (11) between adjacent arms of adjacent annular elements (10) corresponds essentially to one fifth to one seventh of the length of the arms or the length of the base. Electric heating element according to any one of claims 1 to 4, characterized in that the ring-shaped hose has a polygonal, preferably square, cross-section. 6. The electric heating element according to claim 5, characterized in that the cross-sectional corners of the ring-shaped hose are rounded. Electric heating element according to any one of claims 1 to 6, characterized in that the jacket tube (2) is connected to a steel heating plate (9) of a casting tool, in particular a tool with a hot channel, in which its receiving contour (8) is arranged. the contour (8) is formed by a curvilinear receiving trough, wherein the casing tube (2) is inserted into the trough in particular with a flat abutment while monitoring the course of the receiving trough, whereby the retaining trough is provided with snap elements, particularly in the form of snap noses the casing tube (2) is connected to the steel heating plate (9), the cross-sectional shape of the receiving contour (8) being adapted to the cross-sectional shape of the ring-shaped hose forming the casing tube (2). Electric heating element according to claim 7, characterized in that the annular wave hose forming the jacket tube (2) has a square or rectangular cross-sectional shape, wherein two parallel sides of the cross-section are parallel to the plane of the steel heating plate (9).