SE417131B - Heat insulated container - Google Patents

Abstract

A heat insulated container suitable for use as a heat accumulator comprises an outer mantle 10, 30 fully buried in the ground as well as a tank 14, 34 standing freely inside the mantle for a heat transport medium. The interspace 20, 41 between the tank and the mantle is closed in an air-tight manner and evacuated. The mantle 10 may be manufactured in sections and be lowered into the ground by use of sunk well technique, but may even be placed in an excavated pit, whereby adequate ground insulation 33 is provided around the mantle 30. The volume between the lid of the tank and the roof of the mantle may be filled with an insulating material 19 or be formed as a separate closed room 38 which is kept evacuated. Supply and tap pipes, respectively, 22, 23; 44, 47 inside the tank are adequately divided into manifolds ending at two different levels, whereby means 26, 27, 50 are adapted for sensing temperatures present, and introducing or tapping fluid, respectively, at corresponding levels in the tank. <IMAGE>

Description

790lælæ18-6 separate, closed room, which is kept evacuated.

Supply resp. the drain lines within each tank are suitably divided into branch lines closing at different levels, wherein means are arranged to sense the present temperatures, and to introduce or divert fluid at corresponding levels within the tank, respectively.

The invention will be described below with reference to the accompanying drawings, which show two different ones of the container according to the invention. 1 comprises an outer casing 10 of stainless steel, which in this embodiment The case shown in Fig. Is immersed in the surrounding ground 11 according to the sinking well principle, i.e. the jacket is made of cylindrical, annular elements 12, which are welded together by horizontal welding seams 13, in turn as the jacket sinks into the ground by excavating soil within the circumference of the jacket with a dozer in a known manner.

When the mantle has sunk deep enough, a bottom 15 is cast in it. The desired tank 1h is then placed on this bottom, which of course, depending on size and transport options, can also be manufactured by welding elements together on site. As initially indicated, the tank for a normal residential property should have a volume of 100-200 m3, and one can of course imagine larger units for the common needs of a couple of nearby properties.

The tank lid 16 extends beyond the perimeter of the tank and is welded to the inner wall of the jacket. The lid is suitably provided with bellows 17 or other expansion-permitting means. The space between the lid of the tank and the lid 18 of the jacket is filled with insulating material 19 of any kind. The space 20 between the jacket and the container is hermetically sealed and with the aid of a pump 21 the space 20 can be kept constantly evacuated, so that a good thermal insulation is obtained. 7904M8-6 Supply of heated water from solar energy catchers or other heat source takes place through a line 22, and hot water is drained from the tank via a line 23. Both of these lines are divided within the tank into branch lines 2ü, resp. 25, which end at different levels within the tankf Valves 26, resp. 27 determines which of the branch lines 2h is to introduce the heated water, and from which level hot water is to be taken out via one of the branch lines 25.

In a high narrow storage tank of the type shown here you can get a very good stratification of the water, and in order to make the best use of the stored heat, the hot water from the line 22 must be introduced at a level in the tank, which causes so as little circulation as possible within it, and in the same way water should be taken out with the temperature corresponding to the current need. The valves 26 and 27 are suitably controlled by thermostats or other sensor means.

The embodiment shown in Fig. 2, in principle constructed in the same way as described above, comprises an outer casing 30 of sheet metal, which is immersed in a shaft pit 31 in that shaft pit. ground insulation surrounding the ground 32. Before filling 33 around the outer wall of the mantle. The tank SO is free-standing within the jacket, and in this case the bottom 35 of the tank is extended outside the circumference of the tank and welded to the inner wall of the jacket 30, at a distance from the bottom thereof. The space 36 under the bottom of the tank can be filled with lightweight clinker balls or other insulation material, possibly a base or pillar of lightweight clinker block can be built to support the tank.

The lid 37 of the tank is welded to the inner wall of the jacket, so that a space 38 is obtained between this lid and the lid 39 of the jacket. As in the previous embodiment, there is a pump ÄO to keep the space H1 between the jacket and the tank evacuated, but here is another pump H2 which can keep the space 38 evacuated. This too is thus hermetically sealed, and the thermos bottle action is used for thermal insulation even above the tank. Here, too, water is initiated and diverted at different levels within the tank. A solar collector is schematically indicated at 43, a line 44 for hot water to the tank and line ü5 for water back to the solar collector. A heat consumer is schematically indicated at Ä6 and hot water is supplied from the tank via a line 1: 7, while another line A8 carries water back to the tank. A valve 50 controlled by a thermostat 49 is arranged to transfer the hot water directly from the line HH to the line 47 at suitable temperature conditions.

Devices for supplying and diverting water, and for controlling the flow of water, can be designed in many ways. What is shown here is intended only to illustrate possibilities and has nothing to do with the invention itself, which relates to the simple and efficient way of providing a well-insulated storage container for the water.

Claims (5)

15 25 7904418-6 PATENT REQUIREMENTS A heat-insulated container comprising an inner storage tank (10, 34) provided with conduits for supplying and dissipating a heat-transporting fluid and an enclosing outer jacket (10, 30), characterized in that the mantein (10, 30) is intact: immersed in the ground (11, 32), that the tank (1h, 34) has a smaller cross-sectional dimension than the jacket and is independent within it, and that the space (20, Lu) between the tank and the jacket is airtight tilisiutet and evacuated. Container according to Claim 1, in which the mantle (10) is 1111 - drawn therefrom, worked in sections and immersed in the soil by submersible well technology, the bottom (15) of the tank being cast within the lower part of the jacket (10). . Container according to claim 1, suitable for being placed in a shafted pit (31), in that the bottom (35) of the tank is extended outside the circumference of the tank and welded to the inner wall of the jacket (30), a distance from the lower edge of the jacket , the space under the widespread bottom being filled with insulating material (36). Container according to one of the preceding patents - that the space (38) claims, characterized by it, above the tank constitutes a separate closed space, which is kept evacuated. The container according to any one of the preceding patents - to be supplied resp. requirements, characterized therefrom, the drain lines (22, 23; hä, 47) within the tank are each divided into branch lines closing at different levels, wherein means (26, 27, 50) are arranged to sense existing temperatures and to introduce, respectively diverting fluid at corresponding levels within the tank.