NO326111B1 - Apparel by dress element - Google Patents

Abstract

Device for cooling element arranged for connection to a cooling unit, and intended to be mounted with an open, exposed underside, in particular for use with a cooling device which emits cooled air to an underlying amount of cooling material. A number of generally parallel plate-shaped cooling fins 15 are arranged next to each other so that passage slots for air to be cooled are delimited. The cooling pipes 14 are arranged in groups18. Under each such group a longitudinal collecting chute 19 is arranged which is arranged to catch condensate water from the cooling pipes and carry it out to its one end 13. At the end of the collecting chutes 19 to which collected condensed water is supplied, a transverse chute 16 is arranged for a total discharge of condensed water at 17.

Description

Device at cooling element

The invention relates to a device as stated in the introduction to patent claim 1, in the case of a cooling element which is intended to be suspended with an open, exposed underside.

Background

There are known cooling elements intended for mounting, for example suspension, with an open and exposed underside. Such cooling elements can be intended for special cooling racks or for mounting above the goods to be cooled, with free space down to them. In such cases, condensation water formed on the cooling plates will tend to drip down and deposit water on goods and equipment which should either be dry or which require water supply in the form of water mist.

From US patent 2,178,396, a cooling element with collection plates placed below the cooling slats so that they cover a significant part of the passage zone for cold air is known. This is not satisfactory in those cases where an efficient air flow is desired.

From US patents 2,210,725, 2,238,543 and 6,435,265, various cooling systems with collection channels are known which have not been satisfactory in cases where the cooling element was to be used suspended above the refrigerated goods.

Purpose

The main purpose of the invention is therefore to create a cooling element that stays dry in the sense that it does not emit moisture uncontrolled in the form of drops to the area below. A more specific purpose is to create a cooling element that is particularly suitable for placement above the goods to be cooled, with free space down to them, with an effective cooling effect without the formation of condensation droplets.

The invention

The invention is stated in patent claim 1. It comprises a cooling element which is arranged for connection to a cooling unit, and which is intended to be mounted with an open, exposed underside, in particular for use with a cooling device with cooling pipes, which emits cooled air to an underlying quantity refrigerated goods. Here, a number of generally parallel plate-like cooling lamellas are placed next to each other so that passage slots for air to be cooled are defined. There are also longitudinal collection gutters designed to collect condensation water from cold surfaces. At one end of the collection channels, a transverse, underlying outlet channel is arranged. The central new feature of the invention is that the collection channels are arranged integrated in the unit of cooling slats.

With this design, it has become possible to achieve a significant increase in cold transfer and lowering of the temperature of air flowing down from such a cooling element.

In patent claims 2 - 6, particularly favorable details of the invention are indicated. Several longitudinal collection channels can be arranged in the area of the cooling fins, as these are assigned to separate groups of cooling tubes. They cross the cooling fins, so that a plurality of spaces are formed between the collection channels for the flow of air between them.

It is particularly advantageous if the cooling pipes are arranged in vertical rows. Furthermore, it is advantageous if the collection channels are routed through slots in the cooling fins. The slots in the cooling fins can form lateral point systems against the collection channels.

In a favorable embodiment, a second V-shaped collection channel is arranged under the bottom of each of the first collection channels.

More details about this will emerge from the subsequent example description.

Example

The invention is described below in more detail with reference to the drawings, where

Figure 1 shows a plan view from above of an embodiment of the invention, with a cooling element with lamellas on cooling pipes,

Figure 2 shows an end view of the cooling element in Figure 1,

Figure 3 shows a side view of a lamella for the cooling element in Figure 1, while

Figure 4 shows an enlarged section of Figure 3.

Figure 1 shows a cooling element 11 which is built up between two end elements 12 and 13. Between the end elements 12 and 13 extends a series of cooling pipes 14 which are connected for the flow of coolant. The cooling pipes 14 carry a number of cooling fins 15. The cooling fins 15 extend to the full height of the cooling element 11, and are attached to the cooling pipes 14. The distance between the cooling fins can be 9 millimetres.

The cooling element 11 in the example is shown with vertical slot orientation, with gravity-controlled air flow. The cooling element in accordance with the invention can also be used in fan-controlled cooling systems. It gives greater freedom with regard to the orientation.

The cooling element 11 in accordance with the invention can be used for various cooling purposes, both technically and in homes and offices. It is, for example, suitable for cooling elements that are to be placed free-standing above the goods to be cooled.

In Figure 2, it is shown how an inclined collection channel 16 for condensed water is arranged under the cooling element 11, at one end of it, under the end element 13. The collection chute 16 opens into a chamber 17 with a level-controlled pump for pumping out condensed water.

Figure 3 shows a side view of a cooling fin 15, with an enlarged side view in Figure 4. The cooling tubes 14 are arranged in vertical rows 18 with four cooling tubes 14 in each. Up to each such row 18, a longitudinal condensation collection channel 19 is arranged.

The condensation collection channels 19 have a flat, longitudinal main part 20 which is mounted obliquely with the lower part below the cooling pipes 14, an upper narrow bend 21 at right angles directed obliquely downwards, and a lower bend 22, also at right angles to the main part 20, which forms a V-gutter 23 to drain away condensed water.

The condensation collection channels 19 are led through S-slits 24 in the cooling fins 15 and in the end elements 12, 13, which are adapted to the cross-sectional shape of the condensation collection channels. Each slot 24 is wider than the thickness of the sheet material and has lugs that extend into the sheet material to form abutment against it:

- an upper cam 25 and a lower cam 26 towards the underside of the plate material,

- a knob 27 towards the bottom of the chute 23 and

- a knob 28 which presses against the upper side of the plate material at its upper side edge.

In this way, condensation water that forms on the cooling pipes will drip onto the condensation collection channels 19 and collect there together with condensation that forms on the upper side of the condensation collection channels. Condensation water that forms on the underside of the condensation collection gutters 19 will seep down to the lower edge of the gutter 23 and from there drip onto a V-gutter 29 placed below the condensation collection gutter 19, parallel to it. The V-gutter 29 is led through V-slots 30 in the end elements 12 and 13, with corresponding knobs 31, 32, 33 as for the condensation collection gutter.

With this arrangement, all condensation that forms on the cooling element 11 will be collected and led down into the channels 23 and 29 and out at one end of the cooling element 11 for collection.

In this way, droplet formation at the cooling element is avoided in accordance with the invention. This is particularly advantageous for cooling elements that must be open downwards, towards the cooled product, so that condensation water should not be allowed down.

Claims (6)

1. Device for a cooling element designed for connection to a cooling unit, and intended to be mounted with an open, exposed underside, in particular for use with a cooling device with cooling pipes, which emits cooled air to an underlying amount of refrigerated goods, where a number of generally parallel plate-shaped cooling slats ( 15) are placed next to each other so that passage slots for air to be cooled are defined, and where there are arranged longitudinal collection channels (19) which are designed to collect condensation water from cold surfaces, as a transverse , underlying outlet chute (16), characterized in that the collection chute (19) is arranged integrated into the unit of cooling slats (15). 2. Device in accordance with patent claim 1, characterized in that several longitudinal collection channels (19) are arranged in the area of the cooling fins (15) assigned to separate groups of cooling tubes (14), and so that they cross the cooling fins, so that a plurality is formed space between the collection channels (19) for the flow of air between them. 3. Device in accordance with patent claim 2, characterized in that the cooling pipes (14) are arranged in vertical rows (18). 4. Device in accordance with one of the patent claims 1 to 3, characterized in that the collection channels (19) are led through slots (24) in the cooling slats (15). 5. Device in accordance with patent claim 4, characterized in that the slits (24) in the cooling slats (15) form lateral point systems (at 25, 26, 27, 32, 33) against the collection channels (19). 6. Device in accordance with patent claim 1, characterized in that a second V-shaped collection channel (29) is arranged under the bottom of each of the first collection channels (19).