NO115611B - - Google Patents

Description

Device for freezer boxes.

The present invention relates to freezers and similar refrigerated storage rooms accessible from above with a cooling element placed in the upper part of the storage room, which has the shape of a ring with a mainly vertical axis and is displaceable from its position in the storage room to a position in which the one for de-icing is located entirely outside the storage room.

The purpose of the invention is to make the construction cheaper, increase efficiency

the and facilitate the treatment of such cooled storage rooms. The main characteristic of the invention is that the cooling element, which is located at a distance from all the limiting surfaces of the storage space to enable free air circulation around the cooling element, is controlled by means of one or more vertical guides.

ger, which is arranged on the inside of the storage room. The cooling element, which can consist of a pipe-screw placed in a metal sleeve, is furthermore, according to the invention, articulately connected to a cooling unit located outside the storage space by means of cables, which have sufficient

equal suspension so that when the cooling element moves

gel up and down to be extended resp. is compressed like a coil spring.

To explain the invention, the

described in more detail in the following with reference to the attached drawing, which we

shows an embodiment of a freezer box according to the invention.

Fig. 1 shows a vertical section through the freezer box with a vertically movable

cooling element, which is shown in a lower position.

Fig. 2 shows on a larger scale a de-

waist of the vertical section in fig. 1 but with the cooling element in an upper position.

Fig. 3 shows the freezer box according to fig. 1 and

2 views from above.

The freezer box, which is shown in the drawing,

has the shape of a cylinder, whose wall and bottom are formed by an outer plate jacket 10 and an inner plate jacket 11, which is of self-supporting

they construction and which with the help of a mel-

A distance member 12 is placed around the bottoms of the mantles and a number of spacer members 13 distributed near the upper edges of the mantles around the circumference of the mantles are held in inter-

its distance, so that between mantle-

there is a space, which is filled with an insulating material 14, e.g. glass hole. The spacers 12 and 13 are likewise made of insulating material, e.g. three. The outer shell 10 is provided at its upper edge with a rolled-out bead 15, which partly stiffens the outer shell and partly serves as a support for the spacers 13. The space between the

rails 10 and 11 are closed at the top by means of a top plate 16 which is attached to the mantles 10 and 11 by means of screws, which likewise

maintains the spacers 13. As the sheaths are of self-supporting construction,

is the insulating layer located between the mantles only in a very few places interrupted by spacers. The box is covered by an insulated lid 17, which is attached to the box by means of hinges and which rests against the top plate 16 with an intermediate layer of suitable rubber gaskets.

The inner mantle 11 is outwardly

met with an extension, in which a cooling element 20 connected to a cooling unit (not shown) is located. This cooling element has the form of a ring, the inside of which lies flush with the non-expanded part of the inner jacket 11 and which is formed by an evaporation tube screw 21 consisting of a metal tube, in which a cooling medium expands while absorbing heat, and of an annular metal sleeve 22 surrounding the tube screw 21, with which the tube screw is heat-conductingly connected. The sleeve is suitably partially filled with a liquid, which at the lowest temperature occurring in the freezer box is still in a liquid state and which facilitates the heat transfer between the evaporation tube screw 21 and the sleeve 22 and absorbs heat during the cooling unit's standing periods. The cooling element is provided with a pair of holders 23, on which are attached pins 24, which are displaceably guided in vertical slots in each by a pair of diametrically opposite guides 25 attached to the inner side of the inner jacket 11 in its extended part. The cooling element 20 is thus vertically displaceable between a lower end position, in which the cooling element 20 is located entirely inside the freezer box and in which the tabs 24 lie against the bottom of the two vertical slots or the holders 23 lie against one between the expanded and non-expanded sides of the inner jacket 11 parts formed abutment 1a, and an upper end position, which is determined by horizontal slots in the guides 25, which join the vertical slots and into which the pins 24 can be inserted by turning the ring-shaped cooling element around its central axis, whereby the cooling element becomes - sliding door both upwards and downwards.

The pipe screw 21 of the cooling element 20 is connected to the cooling unit by means of metal pipe screws 26 and 27 serving for the supply and discharge of the cooling medium, which are partly indicated schematically with dotted lines in fig. 2. These tube screws extend helically along the inner side of the inner casing 11 between this casing and the guides 25 and have sufficient elasticity so that, when the cooling element is displaced in the vertical direction, they are stretched out and compressed like coil springs. The pipes 26 and 27 are controlled in their movement by means of the guides 25 and the mantle 11.

As is clear from fig. 1, there is a free space between the cooling element 20 in its lower position and the inner side of the inner jacket 11 as well as the guides 25 and pipes 26 and 27 placed on it, as well as between the cooling element and the attachment, through which the air in the freezer can freely circulate around the cooling element. By the fact that the cooling element is located at the very top of the freezer box and by the fact that the air in the freezer box is given the opportunity to self-circulate around the cooling element in the manner explained at the outset, a very good degree of efficiency is achieved with the freezer box according to the invention.

In order to prevent the liquid refrigerant, which collects in the evaporation tube screw 21 during the cooling unit's idle periods, when the cooling unit is started up again, not to be sucked forward too quickly, so that the liquid cooling medium reaches the cooling unit, the supply line 26 is connected to the evaporation tube screw 21 at some distance from the end of the pipe screw 21, so that a pocket or bag 28 is formed, in which the liquid cooling medium is collected and from which it is sucked away only little by little.

In that the cooling element 20 is vertically displaceable in the manner described above,

the cooling element can be de-iced by moving it to its upper end position. A bowl 30, which is suitably two-parted, so that it can tightly wrap around the holders 23 and cover the entire opening of the freezer box, is then placed under the cooling element, so that it rests on the top disc 16, possibly under the interposition of a rubber gasket. This bowl now serves to collect defrost water draining from the cooling element and as a lid for the freezer box, so that the temperature in it is kept down. During the defrosting process, the temperature in the freezer box does not need to be raised above the freezing point, and this means that the risk of moisture ingress into the insulation is substantially reduced, which is also contributed to by the fact that the cooling element is not in a heat-conducting connection with the inner jacket 11 .

Ventilation of the insulation can also be achieved by arranging openings 31 in the inner jacket 11. With the simplified de-icing method, which is made possible by the invention, the de-icing involves so little difficulty that it can be carried out often without inconvenience, whereby the freezer becomes more economical to operate, as an ice-free cooling element; produces more efficient cooling of the surrounding air than an ice-coated one.

A further advantage of the device according to the invention is that it is possible to provide a temporary increase in the volume of the freezer box in a simple way. This can be done by placing a loose, insulated wall section on top of the top plate 16, where the guides 25 are appropriately provided with a number of transverse slots between both

terminations for the cooling element, so that

this is stopped in a number of intermediate positions

in order to always be able to set the cooling element in such a height position that it is as high up in the freezer's storage space as possible, which is necessary for effective self-circulation

of the air must take place.

The articulated connection between the cooling unit and the cooling element to enable the cooling element to move up and

down does not necessarily have to be performed

in the manner shown here in the form of screw-shaped pipes, but a hose of some sort

suitable plastic material can serve the same

purpose. Instead of the metal casing 22 can

there must be vertical angle rails

on the cooling element in such a way that each

if one flange of the rails is perpendicular

on the evaporation pipe screw forming

pipe and the other flange is located on

the outer side of the cooling element, as these last-mentioned flanges form a casing wall, which

is either continuous or has several

parallel to each other, around the cooling element

distributed columns.

Claims (3)

1. Device for freezer boxes and similar accessible from above cooled storage room with a cooling element placed in the upper part of the storage room, which has the shape of a ring with a mainly vertical axis and is displaceable from its position in the storage room to a position in which it is completely outside the storage room for de-icing. characterized in that the cooling element (20), which is located at a distance from all the limiting surfaces of the storage space to enable free air circulation around the cooling element, is controlled by means of one or more vertical guides (25), which are arranged on the inside of the storage space . 2. Device according to claim 1, characterized in that the cooling element (20) is articulated with a cooling unit located outside the storage space by means of lines (27, 28), which have sufficient springing so that when the cooling element moves up and down, it extends resp. . is compressed like a coil spring. 3. Device according to any one of the preceding claims, characterized in that the cooling element (20) consists of a tube screw (21) placed in a metal sleeve (22).