FR2685602A3 - Electric heater for instantaneously heating water - Google Patents

Abstract

The invention relates to an electric heater for instantaneously heating water. The longitudinal rib and the passage tube are connected by an activated multilayer sheet (5) which is composed of at least one substrate (5a) made of a metal which is a good conductor of heat and brazing layers (5b) deposited on each side of the substrate. Object of everyday life.

Description

Instant electric water heater
The invention relates to an electric instantaneous water heater, in which an electric heating coil is helically wound around a passage tube, and a longitudinal rib, which can be heated by the heating coil, is brazed by one side flat to the passage tube.

 By European patent application 0 388 829, an electric instantaneous water heater of the type mentioned above is already known. In the known instantaneous water heater, the tubular envelope of the heating coil has, all along, a closed profile in omega, the foot of the profile forming part of a flat longitudinal rib welded by its lower side to the passage tube. The tubular casing is made of an aluminum alloy with a coefficient of expansion of 24 x 10 6. The passage tube, on the other hand, is made of chrome and nickel steel, whose coefficient of expansion is 16 x 10- 6 Due to the material constants of the tubular casing and the passage tube, there is created, when bringing to the brazing temperature (600 to 6200C), between the two parts to be brazed together, an interval of dilation, which can only be partially filled with solder. There remain spaces free of solder, which make the propagation of heat from the heating coil to the passage tube less efficient.

 The invention aims to improve the instantaneous water heater of the type mentioned above so as to prevent, in order to obtain better propagation of the heat, any space free of welding between the lower side of the longitudinal rib and the tube. passage.

 According to the invention, this is achieved by the fact that the longitudinal rib and the passage tube are connected by at least one winding deposited on the passage tube of an activated sheet with several layers, which consists of at least a support made of a metal which is a good conductor of heat and of brazing layers deposited on each side of the support, and by the fact that the support is connected to the longitudinal rib by one of the brazing layers and to the passage tube by the another layer of brazing.

Preferably
- Several windings of the multi-layer sheet are wound on the passage tube.

 - The sheet with several layers comprises several support layers between which are interposed respectively activated solder layers.

 - The multi-layered sheet has incisions which are directed along the passage tube, which depart offset relative to each other alternately from an edge of the sheet and from an edge parallel thereto, which are at least one millimeter shorter than the distance between the edges of the sheet and have a width of at least 0.5 mm.

 - The longitudinal rib is part of the tubular envelope of the heating coil, the tubular envelope having substantially a closed profile in omega.

 - The heating coil is threaded into a longitudinal cavity of a profiled bead on which the longitudinal rib is formed so as to roughly give a closed profile in omega.

 - The passage tube is made of stainless steel.

 If, in the subject of the invention, only one layer of the multi-layer sheet is used, it is also true that an expansion gap is formed between the longitudinal rib and the passage tube. But, thanks to the multi-layer sheet, the expansion interval is subdivided, and this into an interval between one of the brazing layers and the longitudinal rib, and in an interval between the other brazing layer and the tube of passage. Because of this subdivision, each of the intervals is half the length of the entire dilation interval. Thanks to this arrangement, each brazing layer has, when activated, a capillary rise height which is sufficient to completely fill the gap associated with it with brazing. By using several layers of the multi-layer sheet, can further increase the rise height by capillarity of the various layers of solder, as will be explained below.

Two embodiments of the object of the invention are shown in a purely schematic manner in the drawing, in which
- Figure 1 is a longitudinal sectional view of an instantaneous water heater, of which only the upper half has been shown
- Figure 2 is a sectional view as in Figure 1, but on a larger scale; and
- Figure 3 is a plan view of a sheet with several layers.

 In the drawing, 1 designates an electric heating coil. The reference sign 2 designates the tubular casing of the heating coil 1, which is arranged helically around the passage tube 3, which is advantageously made of stainless steel.

 A flat longitudinal rib 4, comprising at least one fin and in heat conduction connection with the heating coil 1, is brazed by its lower side to the passage tube 3. In the example shown, the longitudinal rib 4 has two fins and is formed by the fact that the tubular casing 2 of the heating coil 1 has a profile which resembles a capital omega, its beginning of hairline being connected in a straight line with its end of hairline and the connecting line forming the longitudinal rib 4 plane.

 However, it is also possible to thread the heating coil into a longitudinal recess in a cord, for example made of aluminum having the profile described above. The profiled bead is shaped, with the heating coil 1 threaded, in a helix which surrounds the passage tube 3. In FIG. 2, a circle is shown in phantom, which indicates the inner side of the tubular casing 2 The circle in solid lines drawn in FIG. 2 represents both the outer periphery of the heating coil 1 and the cavity of the profiled cord in which the heating coil is threaded 1. But the profiled cord can, as shown in the figure 1, also form the tubular casing 2 of the heating coil 1.

 As well in the example of FIG. 1 as in that of FIG. 2, the passage tube 3 and the planar longitudinal rib 4 are connected by an activated sheet with several layers 5. This sheet 5 is made up, as shown Figure 2, at least one support 5a of a metal which is a good conductor of heat and solder layers 5b deposited on each side of the support 5a. The support 5 is connected to the longitudinal rib 4 by a layer of solder 5b, while it is connected to the passage tube 3 by the other layer of solder 5b.

 In FIG. 2, only one winding of the multi-layer sheet 5 has been shown. However, it is also possible to wind the multi-layer sheet 5 several times around the passage tube 3. For "n" windings of the multi-layered sheet 5, the number of intervals is equal to n + l. This means that for two windings of the multi-layer sheet, three intervals are obtained, each of them representing only a third of the expansion interval which would occur if there were no layer sheet. multiple. The height of rise of the solder by capillary action is greater the smaller each interval.

 Instead of a multi-layer sheet 5 with only one support 5a, one can also use a multi-layer sheet with several supports, which are connected together by an activated solder layer (not shown).

 In order to provide compensation for expansion when activating the multi-layer sheet 5, it is advisable to provide the multi-layer sheet 5 with incisions 5c which extend in the longitudinal direction of the passage tube 3 , which start alternately from an edge of the sheet and an edge which is parallel to it, and which are at least one millimeter shorter than the distance between the edges of the sheet (Figure 3). The incisions 5b advantageously have a width of at least 0.5 mm to be effective.

Claims (7)

 1. Instantaneous electric water heater in which: a) an electric heating coil is helically wound around a passage tube, b) a longitudinal rib, which can be heated by the heating coil, is brazed by one side flat to the passage tube, characterized in that c) the longitudinal rib (4) and the passage tube (3) are connected by at least one winding deposited on the passage tube (3) with a sheet of several layers ( 5) activated, which consists of at least one support (5a) made of a metal which is a good conductor of heat and of brazing layers (5b) deposited on each side of the support; d) the support (5a) is connected to the longitudinal rib 4 by one of the brazing layers (5b) and to the passage tube (3) by the other brazing layer (5b).  2. Instantaneous water heater according to claim 1, characterized in that several windings of the multi-layer sheet (5) are wound on the passage tube (3).  3. Instantaneous water heater according to claim 1, characterized in that the multi-layer sheet (5) comprises several support layers between which are interposed activated solder layers respectively.  4. Instantaneous water heater according to any one of claims 1 to 3, characterized in that the multi-layer sheet (5) has incisions (5c) which are directed along the passage tube (3), which leave offset from one another alternately from an edge of the sheet and an edge parallel to it, which are at least one millimeter shorter than the distance between the edges of the sheet and which have a width of at least 0.5 mm.  5. Instantaneous water heater according to one of claims 1 to 4, characterized in that the longitudinal rib (4) is part of the tubular casing (2) of the heating coil (1), the tubular casing (2 ) having a substantially closed omega profile.  6. Instantaneous water heater according to one of claims 1 to 4, characterized in that the heating coil (1) is threaded into a longitudinal cavity of a profiled bead on which the longitudinal rib (4) is formed so to give roughly a closed profile in omega.  7. Instantaneous water heater according to one of claims 1 to 6, characterized in that the passage tube (3) is made of stainless steel.