RU2416770C2 - Refrigerating device without frost buildup - Google Patents

Abstract

FIELD: personal use articles.

SUBSTANCE: refrigerating device without frost buildup comprises an evaporator, which is mounted on a carrier, which separates the evaporator space from the refrigerating chamber, with a wall, where a hole is provided, through which a fan-circulated air passes. At the outer side of the wall there is a protruding rib, which forms a limiting wall of the air channel, which is connected to the inner space of the carrier through the hole. The rib is formed as integral with the wall.

EFFECT: using this invention makes it possible to create a mounted evaporation module quickly and simply.

10 cl, 5 dwg

Description

Technical field

The present invention relates to an evaporation module for a refrigeration apparatus without freezing frost (hereinafter - refrigeration apparatus).

State of the art

Such a module usually contains a case-type carrier, on which a plate evaporator is supported, which is forcedly blown by a fan located on the carrier through the air inlet and outlet to first blow air through the air channel, and then into the air channel through which air enters the refrigeration refrigerator apparatus.

In the known evaporation module on the rear side of the casing there is a window in which a plate is inserted, made with the possibility of vibration damping and connected to the rear wall of the casing by means of flexible rubber tongues extending around the perimeter. A casing air outlet is made in the plate, and a fan is mounted above the air outlet. The wall of the air channel connected to the air outlet is fixed in the grooves of the rubber tongue.

Disclosure of invention

The objective of the present invention is to provide a quick and easy mounted evaporative module.

The problem is solved by means of a refrigerating apparatus containing an evaporator, which is mounted on a carrier separating the space of the evaporator from the refrigerating chamber, with a wall in which the passage is located. The air circulated by the fan flows through this passage. A protruding rib is made on the outer side of the wall, which forms the bounding wall of the air channel, which connects through the passage to the internal space of the carrier, and this rib is formed integrally with the wall. The integral implementation of the ribs with the wall and, thus, with the carrier, firstly reduces the number of parts of the assembly, which leads to simplified installation, and secondly, simplifies the positioning of the supporting element, which, for example, carries a fan and at the same time forms part of the air duct, moreover, the bearing element with its open side facing the passage complements the wall of the air channel.

Preferably, the fan is mounted on this enclosure.

Preferably, the rib and the wall of the tray form a labyrinth seal, and thus the air flow driven by the fan reaches the refrigeration chamber of the refrigeration apparatus substantially without loss.

To speed up the assembly, the rib and wall of the shell — which may also be the aforementioned wall forming the labyrinth seal — are equipped with mating latches.

The blade wheel and the fan motor are preferably located on opposite sides of the base of the shell, and thus the heat given off by the motor cannot directly enter the air flow circulated by the fan.

Brief Description of the Drawings

Other features and advantages of the invention result from the following description of embodiments with reference to the accompanying drawings. They show the following.

Figure 1: a schematic section along the upper region of a refrigeration apparatus, which is equipped with an evaporation unit according to the present invention.

Figure 2: axonometric projection of a fragment of the carrier of the evaporation unit and the supporting element that the fan carries.

Figure 3: the carrier and the supporting element in the assembled state.

Figure 4: internal view of the supporting element.

Figure 5: external view of the carrier without a fan motor.

The implementation of the invention

Figure 1 shows a schematic section along the upper region of a refrigerator according to the present invention. The refrigerator has a housing 1 and a door 2, which are implemented, as usual, in the form of hollow bodies filled with a heat-insulating layer 3 of foam. The inner space of the housing 1 is also divided by means of a heat-insulating separation wall 4 into the evaporation chamber 5 and the refrigeration compartment 6. The separation wall 4 is formed by the base of the carrier 7 for the evaporation unit, on which the known plate evaporator 8 is mounted itself. The housing type carrier 7 is located at a distance from the ceiling of the housing 1 and together with the side walls of the housing 1 limits the evaporation chamber 5. The carrier 7 also has an inlet 9 for air on its side facing d Veri 2, and the air outlet 10 on its side facing the rear wall of the housing 1. In the rear region of the evaporation chamber 5, behind the outlet 10 of the carrier 7, there is a fan 11 with a blade wheel 12 and an engine 13 that draws air from the evaporator chamber 5 and pumps it into the air channel 14.

In an exemplary sectional view of FIG. 1, the air channel 14 passes only through the partition wall 4 and flows into the refrigerating compartment 6 lying directly below it. Alternatively, the air channel 14 can also be provided inside the rear wall of the housing 1 and provided with many through holes to the refrigerating compartment 6, through which cold air flowing in the air channel 14 is evenly distributed along the height of the refrigeration compartment 6. Further, a valve can be provided in the air channel 14 that supplies a flow of cold air different branches of the air duct at choice in one of several branches of the refrigerating appliance, such as refrigerating compartment 6 and not shown in the freezer compartment.

Figure 2 shows in axonometric projection the rear region of the carrier 7, made essentially of plastic by injection molding, and mounted on it is made in the form of a shell of the supporting element 15. In the rear wall 16 of the carrier 7, which is essentially flat, there is a round outlet hole 10 for air. Concentrically to the hole 10 from the rear wall 16 is separated by a rib 17, curved in the form of an arc of a circle. The supporting element 15 has a flat, vertically oriented base 18 and a wall 19 spaced from the base 18 at right angles to the circumference, which, in the assembled state of the carrier 7 and the supporting element 15 shown in FIG. 3, covers the rib 17 with a small gap or without a gap.

The rib 17 contains in places flat thickenings 20, the response to which are holes 21 made in the wall 18, into which the thickenings 20 in the assembled state of FIG. 3 are engaged. The grooves 22, which divide the wall 19 into many sections, help to ensure that the wall 19, when mounted on the rib 17, is fed radially outward until the bulges 19 are fixed in the holes 20. In the locked state, a horizontal side 23 that reinforces the rigidity of the rear wall 16 and through it connects it to the cross member 17, passes through the grooves 22.

The rear wall 16, the rib 17, the base 18 and the wall 19 define a flat cylindrical chamber 24, which is open downward, and which accepts the fan wheel 12 of the fan 11, which is not shown in FIG. 2. the casing section 25 of the air channel 14. The wall 19 and the rib 17, which touch each other or pass at a small distance from each other, form a labyrinth seal. To enhance the effect of such a labyrinth seal, an unshown jumper, which is concentrically spaced from the wall 16 to the rib 17, can limit the groove into which the wall 19 engages, or the wall 19 can be double and, thus, the rib 17 engages into the groove between the two walls of the carrier 15.

Figure 4 is a perspective view of the carrier 15 in front, which shows the blade wheel 12. The blade wheel 12 has a circular plate 26 located on the base of the carrier 15, from which a plurality of spiral ribs 27 are spaced. By rotating the blade wheel 12, air is admitted in the axis direction the blade wheel 12 through the air outlet, accelerates radially outward and flows downward through section 25. The blade wheel 12 together with the supporting element 15 forms a centrifugal fan, The carrier element 15, together with the camera 24, forms a spiral casing. In this case, the blade wheel 12 of the fan 11 is mounted on the side of the ribs 17, and the engine 13 is mounted on the side of the supporting element 15 facing away from it.

FIG. 5 is a perspective view of a carrier-like tray 15 made without a fan 11 mounted thereon. U-shaped bracket 28 is spaced from the outside of the base, the rigidity of which is reinforced by a rib 29 spaced horizontally. Open upward groove 30 in the bracket 28 carries a bearing 31, which serves to suspend the shaft of the engine 13. At the base 18 of the bearing element 15 there is a wedge-shaped tapering groove 32 toward the center of the base. At the lower end of the groove 32, at the center of the base, the groove 32 enters a device in which a second bearing 33 for the engine 13 is attached. Thus, the blade wheel 12 and the engine 13 are separated by a dividing wall 18, in which at least a part of its height is a groove 32, which continuously extends from the bottom up to a smaller th least on one side, and the bottom has a receiving device located in front of the groove 32.

When assembling the evaporator assembly, two bearings 31, 33 are first mounted on the shaft of the engine 13, and then the front section of the shaft with the bearing 33 is inserted into the upper region of the groove 32. Due to the fact that the engine now moves down along with the bearings 31, 33, the bearings 31, 33 fall into their positions shown in figure 5, and the engine 13 is held between them. Next, the blade wheel 12 is mounted on a section of the shaft protruding into the tray 15.

Claims (10)

1. A refrigeration apparatus without freezing frost, containing an evaporator (8) that is mounted on a carrier (7) that separates the space of the evaporator from the refrigerator, with a wall (16) in which there is an opening (10) through which a circulating fan (11) flows ) air, characterized in that a protruding rib (17) is made on the outer side of the wall (16), which forms the bounding wall of the air channel (14), which is connected through the hole (10) to the interior of the carrier (7), and this rib is formed target but with a wall. 2. The refrigeration apparatus according to claim 1, characterized in that the rib (17) limits the chamber (24) of the air channel (14) in which the blade wheel (12) of the fan (11) is located. 3. The refrigeration apparatus according to claim 1, characterized in that the rib (17) is curved in the form of an arc of a circle and is located concentrically relative to the hole (10). 4. The refrigeration apparatus according to one of claims 1 to 2, characterized in that the air channel is also limited by a supporting element (15), the side wall (19) of which together with the rib (17) form a labyrinth seal. 5. The refrigerator according to claim 4, characterized in that the latches (20, 21) reciprocal to each other are made on the side wall (19) and the jumper (17). 6. The refrigerator according to claim 5, characterized in that the fan (11) is mounted on the supporting element (15). 7. The refrigeration apparatus according to claim 6, characterized in that the blade wheel (12) of the fan (11) is mounted on the side of the rib (17), and the engine (13) is mounted on the side of the supporting element (15) facing away from it. 8. The refrigeration apparatus according to claim 7, characterized in that the blade wheel (12) and the engine (13) are separated by a dividing wall (18), in which a groove (32) is located at least on a part of its height, which continuously expands from the bottom up at least on one side, and at the bottom has a receiving device located in front of the groove (32). 9. The refrigerator according to claim 8, characterized in that the dividing wall is an integral part of the supporting element (15). 10. The refrigeration apparatus according to claim 8 or 9, characterized in that the receiving device serves to mount the support element (33) for the engine (13).

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