DE1551585B2 - THERMAL INSULATED DOUBLE WALL CONTAINER - Google Patents

Description

The invention relates to a thermally insulated double-walled container in which in the evacuated Isolation space between the two walls, alternately made of metallic and thermally insulating Layers of existing insulation is arranged.

The insulating effect of double-walled storage tanks for liquefied low-boiling gases is known to be improved in that a thermal insulation material is introduced into the space between the two walls will. From US Pat. No. 3,009,600 it is known to have the inner container on its Provide the outside with a multilayer insulation, consisting of alternating layers of fiberglass mats and aluminum foils, the glass fiber mats for thermal insulation and the metallic Layers serve as a heat radiation shield.

It is also known (USA. Patent 3,018,016), ^to: establish heat insulating material made of an aluminized plastic film, said plastic film surrounding the inner container as well as on all sides, but is wrinkled to reduce the heat transfer by conduction.

To reduce the heat conduction through gases present in the isolation room (mainly air and water vapor) it is also known to evacuate it. As the surfaces of the known Insulating materials always adsorb air and especially water vapor, is the achievement of a high Vacuum associated with difficulty.

It is known to heat the finished container in a large oven during pumping out. This has the advantage that the evacuation is accelerated and that during the evacuation The low pressure achieved is maintained over long periods of time because the surface of the insulating material releases most of the adsorbed gas molecules when heated. The heat supply to the However, the insulating space of double-walled containers from the outside by means of a furnace has considerable disadvantages. There the double-walled container to be heated is already fully insulated when it enters the furnace, penetrates the heat poorly into the isolation room. Moreover, it deteriorates with increasing evacuation of the insulating space, the heat transfer through the insulating space, so that the heating and Evacuation process with external heat supply takes a lot of time. In addition, the ovens are for Baking out large insulating containers correspondingly large and expensive.

After all, it is known that after the Eve

ao kuieren remaining small residual pressure thereby to further reduce that an adsorbent is attached in the isolation room, which, however, from time to time needs to be regenerated at time. From French patent specification 1264 607 it is known in Isolation space of a double-walled container to provide a secondary chamber at the bottom, which the Receives adsorbent, an electrical heating coil is designed in the adsorbent. While the new evacuation made from time to time, the adsorbent is through this heated by an electric heater, which means that the gases that were previously adsorbed to increase the vacuum are now desorbed and removed from the isolation room at the same time as the other gases. from The disadvantage of this known device is that a separate adsorber zone is provided in the isolation room and has to be equipped with its own electrical resistance heater.

Heating elements are also known which consist of a metal layer between the insulating Layers are introduced (German Auslegeschrift 1141737). Common wound capacitors are composed of metal layers and insulating layers that are wound up in a spiral.

The invention is based on the object to provide a device that enables the during the evacuation of the isolation room desired heating without the use of ovens or in the isolation room Especially effective for the purpose of heating installed electrical resistance heaters to undertake.

In the case of a container of the type mentioned at the outset, this object is achieved in that according to the invention at least one of the metallic layers is designed as an electrical resistance heater and is provided with electrical leads guided through the outer wall.

In the case of the container according to the invention, the heat required to bake out the insulating space is therefore used generated where it is needed, namely directly in the multilayer insulation itself has the advantage that, in contrast to that supplied from the outside through the outer wall of the container Heat that has to overcome a large and with progressive evacuation, which increases the heat transfer resistance of the isolation room Heat now directly on the surface of the insulating material to drive out adsorbed gases and

directly to the air to be pumped in this isolation room is transmitted. The heating and evacuation of the isolation room of double-walled containers is thus accelerated. In addition, a high vacuum has to be achieved in the isolation room in spite of the low thermal conductivity of the almost evacuated isolation room with advanced evacuation possible in a shorter time.

The container does not have to have its own electrical resistance heater for the purpose of heating the insulating space to be installed. According to the invention, the otherwise only used for radiation shielding metallic layers in the isolation room a further task in simple and inexpensive Way transferred.

The metallic layers designed as resistance heating are in spiral or for Container axis embedded concentric layers in the heat insulating layers, so that their Surfaces that are in direct contact with the metallic layers through the use of these released heat can be freed from the adsorbed gases in a short time. The amount of heat required can by means of electrical resistance heating, which is also unlike other types of heating has a high thermal efficiency, can be dosed precisely. This is at The heating of the insulating space of the container ensures a minimum of energy consumption.

With a concentric arrangement of the insulating layers, there is the possibility that only one or a few cylindrical metal foils are heated. In the case of a spiral arrangement of the metallic and the heat insulating layers, the entire metallic layers can be considered electrical Be formed resistance heating.

According to a further embodiment of the invention, they must be an electrical resistance heater formed layers do not extend over the entire length of the heat-insulating container, but need to encompass only one or more longitudinal sections of the container in a ring shape.

The electrical lines necessary for the resistance heating are through the outer wall of the double-walled container passed through and connected to the poles of a power source, whereby the metallic layers of the insulation heat up. At the same time a vacuum pump is switched on connected to a nozzle attached to the outer wall of the container and through the electrical resistance heating pumped heated gas out of the isolation room.

It is not recommended to end the evacuation of the isolation room before the heating is switched off is. Heating desorbs gas from the heat-insulating layers and pumps it out as long as the insulation is hot.

With the appropriate dimensioning of the foils, the electrical resistance heating can be used safely be operated with low voltage and high currents. Also, for security reasons the outer and inner walls of the double-walled container through the inside of the The outer wall and the outer side of the inner wall lining the heat-insulating film also electrically be isolated. The heating temperature can be regulated automatically with a temperature control switch if z. B. the heat-insulating layers do not exceed a certain maximum temperature to be allowed to.

The outer wall of the container with only one vacuum-tight passage point is advantageous provided electrical leads through which the power supply and the power return line, against each other electrically isolated, are passed through. Will be several separate sections of the insulating container is heated, the electrical leads associated with each heating section each separately by several passages or advantageously collected and one below the other electrically insulated only passed through a passage through the outer wall will.

A particular advantage of electrical resistance heating, which is made of reflective metallic Foil consists is that the resistance heating as in the known arrangement after the bakeout of the isolation room acts as a heat radiation shield.

As a heat-insulating material, substances with a low coefficient of thermal conductivity can be used, e.g. B. Asbestos, heat-resistant plastics or fiberglass paper. Has the use of fiberglass paper the particular advantage that it is gas-permeable and that a filled with this thermal insulation material Isolation room can therefore be evacuated very easily. In addition, fiberglass paper is heat-resistant and not flammable; it withstands higher temperatures than z. B. Plastic, which is why higher heating temperatures permissible and thus a faster evacuation is possible.

Substances with a low radiation number are mainly used as the metallic layer, i.e. H. high reflectivity, into consideration, preferably aluminum.

Plastic foils coated with aluminum on one side can also be used as insulating material. The plastic serves as a heat insulating layer; the evaporated aluminum film serves both as a radiation shield and as an electrical resistance heater.

The invention is explained in more detail with reference to the exemplary embodiment shown schematically in the figure explained.

The figure shows a cross section of a double-walled container with an electrical Resistance heating is equipped according to the invention. A cylindrical inner wall 1, which is a liquefied, Can absorb low-boiling gas is concentric to the container axis of an outer wall 2 surrounded. The inner wall 1 is alternating with a glass fiber mat 3 and with a Aluminum foil 4 wrapped in a spiral, the walls through the glass fiber mat 3 electrically are insulated, which rests on the inner wall 1 and the outer wall 2 of the insulating space 5 is facing. Between the outer wall 2 and the outer edge of the insulating material there is an annular one Gap 6 to facilitate evacuation of the isolation room 5.

The outer wall 2 is provided with a vacuum-tight passage point 7 through which two electrical Leads 8 are passed, which during the evacuation of the isolation room 5 with the Poles of a power source not shown are connected. The electrical supply lines 8

are connected to the insulating material in such a way that the entire spirally wound aluminum foil 4 is traversed by electric current and heated.

The mode of operation of the invention is illustrated using a numerical example

The calculation refers to an aluminum foil with the following technical data:

Film length L - 100 m film width B = 100 mm film thickness D = 0.010 mm

specific electrical resistance of aluminum

ρ = 2.76 · ΙΟ " ⁵ Ω mm. This results in an ohmic resistance

R =

B-D

= 2.75 Ω.

The heating output is obtained when using a voltage Ό = 24 volts

N = - ^ - 210 watts δ 180 kcaMi.
R.

The two-layer insulation in the insulating space of a double-walled container should have a total weight m = 50 kg and a specific ίο heat c - 0.20 kcal / kg grad and should move from temperature t _t = 20 ° C to temperature t ₂ = 300 ° C. This results in a heating-up time for the heating output N - 160 kcal / h that is released

ζ =

Tn-C- (T ₂ -I

= 15.5 hours.

The heating time can be increased by using two or more heating foils and increasing the so tension can be further shortened.

1 sheet of drawings

Claims (4)

Patent claims: 1. Heat-insulated double-walled container, in which in the evacuated isolation room between the two walls, one made of alternating metallic and heat-insulating layers existing insulation is arranged, characterized in that at least one of the metallic layers (4) designed as an electrical resistance heater and with through the outer wall (2) is provided with electrical leads (8). 2. Container according to claim 1 with a spiral arrangement of the metallic and the heat-insulating "layers, characterized in that the spirally arranged metallic Layer (4) is designed as an electrical resistance heater as a whole. 3. Container according to claim 1, characterized in that as an electrical resistance heater formed metallic layers (4) extend only over one or more longitudinal sections of the container. 4. Container according to one of claims 1 to 3, characterized in that the electrical leads (8) are provided with a temperature control switch.