SE517542C2 - Freezer box for temporary freezing of separate cooling elements - Google Patents

Abstract

The present invention relates to a freezer for temporary freezing of separate cooling elements (20) in the form of flexible plastic sheetings (21, 23). Said plastic sheetings enclose several separate, closed container spaces enclosing cooling medium, such as water, intended to be freezed in order to emit cold for cooling purposes in a utilization condition outside the freezer. The freezer is provided with a freezing-compartment (3) for storage and freezing of the cooling elements, wherein said freezing-compartment (3) is provided with, on the one hand, one or more suspension devices (19) for suspension of the cooling elements (20) which are spread out in the freezing-compartment and, on the other hand, a device (28) for outflow of refrigerant against the outside of the cooling elements in the freezing-compartment for freezing of said cooling elements. The suspension devices for each cooling element are arranged above the device for outflow of refrigerant.

Description

: rann 10 15 20 25 30 517 542 with the surroundings. The separate space 9 is thus delimited except by a portion of the bottom 4 and the partition wall 8 by an end wall 11 which, like other side walls, forms an outer wall in the box, and a portion 12 by the upper part 2. The freezing space 3 and the separate space 9 are normally separated from each other. in addition to the partition wall 8 of a sealing strip 13, which extends over the entire width of the freezer space and strives to keep a gap 14 between the partition wall 8 and the upper part 2 closed, but opens the connection between the freezer space 3 and the separate space 9 at overpressure 1 in case of overpressure. For example, the sealing strip 13 is made of an elastic material of the lip-sealing type which can be arranged at the upper side 15 of the partition wall 8 in order to abut with a lip part sealingly against the underside 16 of the upper part.

The strip 13 thus functions as an overpressure valve, which opens at a certain overpressure in the freezer compartment 3. The freezer box is thus not considered as a pressure vessel, which is subject to various regulations.

As best seen in Fig. 3, in the position of use, the upper part 2 is fixedly and tightly fitted to the lower part 1. In the example shown, the upper part 2 is hingedly arranged at the lower part 1 by means of a hinge device 17, more precisely at a side wall 6 at its upper part. Furthermore, the upper part 2 of, for example, its opposite side is provided with a locking device 18 for holding the upper part tightly against the lower part around its upper edges.

As can be seen from the drawings, the freezer box, more particularly its freezing space 3, is provided with suspension devices 19 for suspending cooling elements 20, two pieces of which are schematically indicated in Fig. 2. Also in Fig. 4 a cooling element 20 is indicated.

Examples of cooling elements are shown in fi g. 5 and 6.

The cooling elements 20 consist of flexible, relatively flat, sheet-like elements made of at least two plastic foils 21, 23 which are connected to each other over certain, spaced apart, intersecting connecting seams 24, 25. Over certain portions the plastic foils are separated and form container spaces 26, which are filled with refrigerant, for example water which is intended to be frozen to ice in the freezer box according to the invention. Through the connecting seams 24, 25, the cooling elements or cooling cassettes are flexible and articulated in each intermediate connecting seam in order to be able to be connected to a body part or other convex surface. In this way, the cooling cassettes can also be folded and hung in the suspension devices folded in a U-shape, whereby for instance a substantially central connecting seam and also the nearest connecting seams parallel thereto form folding joints for suspending the cooling cassettes to substantially U shape as indicated in Fig. 2. in the example shown, the cooling elements 20 are provided with fastening means 22 in the form of Velcro straps for fastening in e.g. a cold cover, e.g. a cooling vest, for cooling a human body. The cooling elements and their use in cooling envelopes are described in more detail in International Patent Application PCT / SE99 / 01353.

The suspension takes place in the simplest failure by arranging a suspension means extending transversely across the freezer compartment in the freezer space 3, for example a suspension rod 27 for each cooling cassette 20. In the example shown the suspension rods 27 are attached at a small distance from the underside of the upper part. the side walls 6, 7, more specifically, for example in that recesses are arranged at the upper edge of the side walls, the bars having a length which exceeds the width of the freezing space 3. The suspension rods 27 can be seen from their ends in Fig. 2 and over their entire extent in fi g. 4, while the rods are removed from the view in fi g. 1 for the sake of clarity.

According to the invention, the freezer box is provided with a freezing device, comprising an injection device 28 for a refrigerant. The injection device is connected via a hose 29 (which is shown in part br g. 2) partially broken or connectable to a refrigerant source, for example a pressure container for refrigerant, such as carbon dioxide, which container is suitably placed outside the freezer box. The connection hose 29 suitably has such a length that it allows placement of the refrigerant container in a suitable place in the vicinity of the freezer box and connects to a refrigerant loop 30 included in the injection device 28 which in the example shown extends into the freezer compartment 3 and with one end extends through the partition wall 8. and has an inlet end 31 in the separate space 9, where the hose 29 is connected to the inlet end of the loop. The hose extends to the environment of the freezer box for connection to the refrigerant source through a recess 32 in the upper edge of one of the walls of the freezer box 11. Hereby the hose can be disconnected from the refrigerant container during transport and rolled up or folded and placed as a whole in the separate space 9 for transport purposes. In the example shown, the loop 30 is located centrally in the freezer box and is suitably made of a bent rigid tube of cold-resistant plastic which is laid in serpentine mold so that the loop extends over the entire width of the freezing space 3 as well as its entire length. The loop extends in the example shown in a relatively central, horizontal plane. in the example shown, mainly at half the height of the freezer compartment. The loop in the example shown is supported by the opposite side walls 6, 7 and in the example shown resting on a support consisting of a ledge 33 in each wall which is obtained by the wall below the ledge being slightly thicker than above the ledge, whereby the loop can be easily laid there during assembly and with suitable dimensioning, something is clamped between the opposite walls. Due to the design of the loop, gaps 35, 36 are formed between which the cooling cassettes 20 can hang down.

The freezing space 3 is suitably dimensioned in relation to the dimensions of the cooling cassettes that the cooling cassettes hang at least a distance below the cooling coil and can hang all the way to the bottom of the freezer box, i.e. the inside 37 of the bottom.

Preferably, the freezer box is otherwise dimensioned so that the width of the freezer compartment 3 only slightly exceeds the width of the cooling elements or possibly constitutes a multiple of their width so that two or more cooling elements can hang side by side over the same suspension rod 27.

The loop does not consist of a cooling loop in the traditional sense and is therefore not provided with any return part but is closed at its distal end 38. The loop is provided with a number of outlet openings 39-46 for the refrigerant. In the example shown, the outlet openings 39-46 are provided with an opening for each straight loop portion 47, 48 between the curved loop portions 49, 50, i.e. between the two opposite walls 6, 7 of the freezer box. In the example shown, the openings are arranged mainly in the middle of the straight portions, i.e. in the middle of the freezer compartment 3. The openings are schematically shown as slit-shaped openings, but experiments have shown that the openings can advantageously be circular and, for example, with a diameter of 0.3 mm. Furthermore, the openings are arranged on the upper side of the cylindrical mantle surface of the loop, i.e. facing upwards, towards the suspension devices 19 and the upper part 2.

Otherwise, the freezer box according to the invention can advantageously be provided with a carrying handle 51, which is advantageously arranged on the upper side of the upper part 2 and with u va. s 15 15 20 25 30 517 542 advantage is of the fold-down type to give a flat stackable top. In addition, the box advantageously has feet 52 which, for example, in each corner project below the underside of the bottom 4, thereby creating a space 53 communicating with the environment when placed on a substrate 54. This allows discharge of refrigerant and cooled air through the outlet opening 10 in the downward direction. prevent cold damage to people in the vicinity of the freezer.

The freezer box according to the invention is used and operates in the following manner. The box is advantageously in a standby position loaded with cooling element 20, which takes place by the upper part 2 or the lid being opened by releasing the lock 18 and the lid being swung, the suspension devices 19 and the freezing space 3 being accessible from above.

The freezing elements 20 are suitably double-folded or folded down and lowered one at a time over the suspension rods 27 so that they become suspended in the manner indicated in Figs. 2 and 4. The cooling elements are suspended on either side of a straight loop portion 47, 48 of the refrigerant loop 30 or tube loop . In the most advantageous case where the width of the freezing space is intended for suspending a cooling element per suspension rod and has a height which essentially corresponds to half the length of a cooling element, the outlet opening has ended up centrally, i.e. mainly in the middle of each cooling element viewed both over its width and its suspension length. Each cooling element will substantially delimit a space 55, 56 in which the outlet opening will be centrally located. During transport and handling, the refrigerant loop 50 will also form a mechanical support for the cooling elements so that they are prevented from swinging sharply during the transport of the freezer box. This is especially true if the box is not completely filled with cooling elements.

At the place of use, for example a fire place, the cooling elements for use are prepared just before use by opening the upper part 2 and connecting the connecting hose 29 with its connecting end to a refrigerant container, usually a pressure container, ensuring that the hose extends through the recess 32 and the upper part is subsequently closed. By opening a valve on the hose or the refrigerant container, the refrigerant is supplied, which is fed under pressure through the hose and into the refrigerant loop 30. In this case the refrigerant flows out through all outlet openings 39-46 and is subjected to a high degree of temperature reduction 5 25 541 due to the pressure drop after the outlet openings in the freezer compartment. In the case of refrigerant of the compressed carbon dioxide type, in everyday speech also called carbon dioxide, the refrigerant flows out in a form which is usually called carbon dioxide snow at a temperature of approximately -80 ° C. Because the outlet openings 40 are facing upwards, the refrigerant flows out in the upward direction in the space 55, 56, along the inside of the cooling elements up to the suspension rods, i.e. the middle part of the cooling elements and turns there to flow down along the sides of the cooling elements towards the bottom 37 of the freezer bottom 4 in Fig. 4. The valve is kept open for a short time adapted to the amount of water to be frozen to ice. For example, the valve is kept open and the outflow or outflow of refrigerant takes place for about one minute at a weight of water of up to about 2 kg. A small overpressure is built up in the freezer compartment, but is relieved by the sealing strip 13 giving way and opening, whereby excess pressure is released via the separate space 9 and the opening 10. The discharge is protected as mentioned above by the outlet taking place downwards via a small space under the box and then out into the surroundings.

The invention is not limited to the embodiments described above and shown in the drawings, but can be varied within the scope of the appended claims.

For example, it is conceivable for the cooling elements to be suspended in another way, for example with some form of clamp, whereby they can hang without double folding but thereby have a length adapted to the height of the freezing space, such as half the length shown. Furthermore, the refrigerant loop may have a different design and stretch such as a parallel-connected nozzle array instead of, as in the example shown, a series loop. In this case, a supply line can be arranged on each side and show T-shaped projecting portions. For example, every other party can protrude from one side so that they alternately protrude from each side. Furthermore, the pressure relief valve can be designed in another way and the separate space 9 is omitted. The lid can be completely detachable without a guide device.

Claims (9)

10 15 20 25 30 517 542 7 a nu nu: PATENTKRAV Freezer box for temporary freezing of separate cooling elements (20) in the form of flexible plastic foils (21, a number of closed container spaces (26) enclosing coolant, such as water, intended to be frozen in order to emit cooling for cooling purposes outside the box, which box is provided with a freezing space (3) for storage and freezing of the cooling elements, characterized in that in the freezing space (3) are arranged partly one or more 23) which enclose separate, hanging devices (19) for hanging the cooling elements (20). ) distributed in the freezing space and on the one hand a device (28) for outflow of refrigerant towards the outside of the cooling elements in the freezing space for freezing them, the suspension devices for each cooling element being arranged above the device for outflowing refrigerant. Device according to claim 1, characterized in that the refrigerant outflow device has a pipe loop (30) with a number of outlet openings (39) for the refrigerant distributed in the freezing space (3) and that the pipe loop is connectable to a temporary refrigerant source. supply of refrigerant. Device according to claim 2, characterized in that the suspension devices (19) are arranged to hang the cooling elements (20) hanging between the outlet openings (39) and that these are facing upwards, towards the suspension devices. Device according to claim 3, characterized in that the suspension devices (19) consist of rods (27) extending at the top of the freezer box above the freezer compartment (3). Device according to claim 4, characterized in that the pipe loop (30) extends in the serpentine form over the freezing space (3) and forms spaces (35, 36) between which the cooling elements (20) can hang. Device according to claim 1, characterized in that between a lower part (1) and an openable upper part (2) is located a gap (14) which is normally sealed by a sealing strip (13) which is arranged to open to the environment in the event of overpressure in the freezer compartment (3). Device according to claim 6, characterized in that the sealing strip (13) is located on the upper edge (15) of a partition wall (8) which separates a separate space (9) which via an opening (10) stands in connection with the surroundings. Device according to claim 7, characterized in that said opening (10) from the separate space (9) opens downwards towards the underside of the freezer box. Device according to claim 7, characterized in that the pipe loop (30) extends through the partition wall (8) and has an inlet end (31) located in the separate space (9) and that a connecting hose (29) is connected to the inlet end of the loop and extends through a recess (32) between the upper part (2) and the lower part (1) and is connectable with its other end to a refrigerant container, whereby the hose, disconnected from the container, can be stored in the separate space (9).