DE102017119022A1 - Fridge and / or freezer - Google Patents

Abstract

The invention relates to a refrigerator and / or freezer with a device body having heat-insulating walls that enclose an interior, and with a refrigerant circuit comprising as components a compressor, a condenser, a throttle and an evaporator, wherein the device is a cold air duct which is extended in a section to an evaporator chamber, wherein the evaporator is arranged in this evaporator chamber and wherein the air inlet opening and the air outlet opening of the evaporator chamber are below the level of the evaporator.

Description

The invention relates to a refrigerator and / or freezer with a device body having heat-insulating walls that enclose an interior, and with a refrigerant circuit comprising as components a compressor, a condenser, a throttle and an evaporator. The invention further relates to a method for producing such a refrigerator and / or freezer.

It is known to arrange individual components of a refrigerator and / or freezer on a common carrier in order to simplify the assembly and maintenance of equipment. Furthermore, it is known to install components of the refrigerant circuit at the bottom of the device, since on the one hand results in better ergonomics for the customer and a better stability of the device. Nevertheless, for reasons of natural convection in the interior of the device, according to which cold air sinks and warm air rises, the evaporator should rather be arranged in the upper region of the interior. If one wanted to arrange the evaporator and the remaining components of the refrigerant circuit down, one would be confronted with problems, which result from the opposite natural convection. For example, warm and humid air would have to be prevented from flowing upwards and condensing on non-dewatered cold surfaces. But flaps and the like should be avoided as possible, since they are expensive and maintenance-intensive.

The object of the invention is to provide an improved refrigerator and / or freezer, which overcomes the above-mentioned problems of the prior art.

Against this background, the invention relates to a refrigerator and / or freezer with a device body having heat-insulating walls, which enclose an interior, and with a refrigerant circuit comprising as components a compressor, a condenser, a throttle and an evaporator, wherein the Device has a cold air duct, which is extended in a section to an evaporator chamber, that the evaporator is arranged in this evaporator space, and that the air inlet opening and the air outlet opening of the evaporator chamber are below the level of the evaporator.

The evaporator is preferably arranged completely in the evaporator chamber. By arranging both the air inlet opening and the air outlet opening of the evaporator chamber below the level of the evaporator supply air and exhaust air are connected only from below and formed above the evaporator a bell. Any insufficiently cooled and warm air remains trapped in the bell and can thaw the evaporator. As a result, a defrost heater installed in the unit carrier and optionally in the evaporator section of the unit carrier can be supported. It is also possible to completely dispense with a defrost heater. In any case, the defrosting energy is used particularly efficiently.

In one embodiment, it is provided that the device body has a full vacuum insulation, wherein the interior is surrounded by a one-piece, box-shaped vacuum insulation body. The heat-insulating walls of the device body are in this embodiment sections of Wakuumisolationskörpers. It can be provided that the vacuum insulation body comprises a barrier film and a support material arranged in the core enclosed by the barrier film.

Furthermore, the device body can have a frame substructure, which extends over the entire height of the device and surrounds the region of the interior as well as forms a base region. The box-shaped vacuum insulation body can be used in this frame construction. The frame substructure can also serve to receive the unit carrier. It can also form the bottom of the device body. It gives the device body stability.

In order to protect the vacuum insulation body, it may be provided to completely hide it. On the one hand, it can be provided that a plastic inner container is inserted into the box-shaped vacuum insulation body. Furthermore, it can be provided that the outside of the frame substructure is boarded with wall panels and preferably wall panels. The connection between the wall panels, the inner container, the vacuum insulation body and the frame substructure can be made by gluing, screwing, latching and preferably a combination thereof.

In one embodiment, it is provided that all components of the refrigerant circuit are installed together on an aggregate carrier, which can be completely separated from the device body and removed from the device, wherein the cold air duct is also formed in the unit carrier.

It is thus provided that an aggregate carrier with all components of the refrigerant circuit can be separated from the device body as a whole. This also includes the piping and any other components of the refrigerant circuit such as dryers or collectors. This is particularly notable because both Components of the warm side of the refrigerant circuit, so compressor and condenser, as well as components of the cold side of the refrigerant circuit, so the evaporator, are installed together on an aggregate support, which can be removed from the device body altogether and removed from the refrigerator. Accordingly, in the composition of the device, these components can be installed in a single step by inserting the unit carrier in the device. A simplification also results when carrying out any repair work. These simplifications go beyond the achievable with the measures known from the prior art simplifications.

The unit carrier detachably connected to the device body can be fastened by means of screw connections, for example. For example, it can also be provided that the unit carrier can be detached from the device body without tools and, for example, is only connected to it by means of latching connections.

In one embodiment, it is provided that the evaporator and the evaporator channel and preferably the unit carrier with evaporator and evaporator channel are installed in the lower region of the device body. The installation of heavy components of the refrigerant circuit in the lower area or base area of the unit results in a high level of stability. Furthermore, results from a deep installation better ergonomics for the customer, as more overhead compartments are more accessible and the less accessible area in the base area of the device is occupied by the unit carrier. Ultimately, any condensation water can easily drain down.

In one embodiment, it is provided that, in addition, one or more components selected from the group of a machine room fan, a refrigerator fan, a control unit, a condensate tray and a power supply unit with cabling are installed on the unit carrier. This leads to a further simplification in the composition of the device and to a simplification in the implementation of any repair work.

In one embodiment, it is provided that the unit carrier comprises a machine section and an associated evaporator section, wherein the compressor and the condenser are accommodated in the machine section and the evaporator and the cold air duct in the evaporator section. In this embodiment, it is therefore provided to distribute the components of the hot side of the refrigerant circuit and the components of the cold side of the refrigerant circuit to different sections within the one integral unit carrier. In the case of such a division, it may be provided that components such as a machine room fan, a control unit, a condensate tray or a power supply unit with cabling in the machine section and components such as a refrigerator fan are accommodated in the evaporator section.

It is furthermore conceivable for a heat insulation layer belonging to the device body to be arranged in a free space lying next to the connection between the machine section and the evaporator section. The thermal insulation layer may be a partial section of the full vacuum insulation. The connection can for example be formed by a running in the front region of the device web, which belongs to the machine section or the evaporator section or is formed by a separate intermediate piece.

In this case, the bottom of the cooled interior or the inner space forming portion of the vacuum insulation body and the inner container relative to the opening plane of the inner space may be set back slightly. The heat insulation layer is part of the device body and fills a release of the unit carrier between the machine section and evaporator section and next to the connecting element. The compound itself may also include insulating material to avoid the formation of a thermal bridge in this area.

In one embodiment, it is provided that the machine section of the unit carrier are accommodated in a base space of the device body and the evaporator section of the unit carrier in the lowest area of the inner space. In this case, the machine section is below the evaporator section. The machine section is preferably dimensioned such that it completely fills the base space of the appliance body and the evaporator section is dimensioned such that it completely occupies the lowermost region of the heat-insulated interior so that the bottom and the lowermost sections of the rear wall and optionally also of the side walls of the interior are complete be covered by the evaporator section. Preferably, the base space as well as the interior is open towards the front, so that the unit carrier can be pulled out of the body of the device in the event of disassembly forward and vice versa, can be inserted during assembly from the front into the body of the device.

It is preferred if the evaporator space is inclined with respect to the horizontal and gains in height in the flow direction of the air. Of the Evaporator can follow this course of the evaporator chamber and be inclined relative to the horizontal mounted in the unit carrier. As a result, the described effect of the efficient use of the defrost energy can be enhanced.

In a further embodiment it is provided that no electrically operated flaps and preferably no flaps are installed in the cold air duct. Dispensing with flaps leads to cost savings and reduced susceptibility to failure. The possibility of waiving flaps without loss of function results in particular in the above-described bell-like design of the evaporator chamber.

The invention further relates to a method for producing a refrigerator and / or freezer according to the invention with an aggregate carrier, on which all components of the refrigerant circuit are installed together, wherein the unit carrier is used as a whole in the device body. Preferably, the unit carrier is inserted from the front of the device body. Preferably, the unit carrier is inserted into a lower region of the device body.

It should be noted at this point that the terms "a" and "an" do not necessarily refer to exactly one of the elements, although this is one possible embodiment, but may also designate a plurality of the elements. Likewise, the use of the plural also includes the presence of the element in question in the singular, and vice versa, the singular also includes several of the elements in question.

• 1: seitliche Schnittansichten des unteren Bereichs eines Gerätekorpus eines erfindungsgemäßen Kühl- und/oder Gefriergerätes sowie eines zum Einsetzen in diesen Bereich bestimmten Aggregatträgers; und
• 2: eine seitliche Teilschnittansicht durch den unteren Bereich des durch Einsetzen des Aggregatträgers erhaltenen erfindungsgemäßen Kühl- und/oder Gefriergerätes.

Further details and advantages of the invention will become apparent from the embodiment illustrated below with reference to FIGS. In the figures show:

• 1 : sectional side views of the lower portion of a device body of a refrigerator and / or freezer according to the invention and of an intended for insertion into this area unit carrier; and
• 2 FIG. 2: a partial side sectional view through the lower region of the refrigerator and / or freezer according to the invention obtained by inserting the unit carrier.

The right picture of the 1 shows an assembly carrier of a refrigerator and / or freezer according to the invention, generally with the reference numeral 100 is marked. The left picture of the 1 shows a device body of a refrigerator and / or freezer according to the invention, generally with the reference numeral 200 is marked. The 2 shows a sectional view through the lower portion of a refrigerator and / or freezer according to the invention, in which the unit carrier 100 in the device body 200 is used. In the 2 are some in the 1 recognizable details not shown for reasons of clarity.

The device body 200 comprises a frame substructure, which in the lowest area a pedestal space 210 formed with the bottom of the device and in which in the area above a box-shaped vacuum insulation body is added, the interior 220 Are defined. The vacuum insulation body serves as heat insulation for the interior 220 and comprises a barrier film and a support material disposed in the core enclosed by the barrier film. It is laminated all around to protect the barrier film. In the interior opening of the vacuum insulation body, a plastic inner container is used. On the outside of the frame substructure is laminated with a ceiling plate, a rear panel and two side panels. The the interior floor 221 forming portion of the vacuum insulation body and the inner container are set back slightly compared to the opening plane of the interior.

The aggregate carrier 100 includes a machine section 110 and an associated evaporator section 120 , The machine section 110 forms the lower part of the aggregate carrier 100 Made and dimensioned to fit from the front into the socket space 210 of the device body 200 can be inserted and occupies this completely. The evaporator section 120 is on the engine section 110 put on and dimensioned so that it from the front to the lowest area of the heat-insulated interior 220 of the device body 200 can be inserted and occupies this completely, so that the bottom 221 and the lowermost sections of the side walls and the rear wall 222 of the interior 220 completely from the evaporator section 120 are covered. The machine section 110 and the evaporator section 120 are only based on a connecting bridge 130 connected, located in the front area of the unit carrier 100 located. Behind the connecting bridge 130 is in the unit carrier 100 between machine section 110 and evaporator section 120 a recess 140 provided in which the vacuum-insulated floor 221 of the device body 200 Can find space when the aggregate carrier 100 so from the front into the device body 200 is inserted, that the machine section 110 in the pedestal room 210 and the evaporator section 120 in the interior 220 of the device body 200 be pushed.

In the engine section 110 are a compressor 111 and a liquefier 112 arranged, whereby the compressor 111 in the rear area and the condenser 112 in the front area of the machine section 110 are located. Furthermore, in the front region of the machine section 110 in thermal contact with the condenser 112 a thawing bowl 113 arranged. The compressor 111 is with a spring-loaded suspension 114 in the rear area of the machine section 110 installed. At the front of the machine section 110 there is an aperture blinded with spoiler elements 115 for cooling air and several webs in the machine section 110 form a cooling air passage, through the cooling air from the opening 115 over the liquefier 112 with the associated condensation bowl 113 and the compressor 111 back to the opening 115 can flow. The backside 211 of the pedestal room 210 is through the wall section 211 locked. Also in the machine section 110 arranged are a cooling air fan and a control unit, which are not shown separately in the figure for reasons of clarity. Also one in the machine section 110 arranged electrical wiring with power supply by limiting the socket space 210 of the device body 200 can be connected to a power supply, is not shown in detail in the figure.

In the evaporator section 120 is a cold air duct 121 formed, extending from a suction port 122 up to an outlet opening 123 extends. The intake opening 122 is located at the front end of the evaporator section 120 and adjoins in the installed state of the unit carrier 100 to the inside of a device body 200 hinged door 300 , The outlet opening 123 is located at the rear end of the evaporator section 120 and adjoins in the installed state of the unit carrier 100 to the back wall 222 of the device body 200 , In the area near the outlet opening 123 is the cold air duct 121 expands and forms a fan room 124 out, in which an evaporator fan 125 is arranged. The rear end piece of the upper veneer 126 the fan room 124 shows vertically upwards and does not reach all the way to the rear end of the evaporator section, so that in the installed state of the unit carrier 100 between the rear end piece of the upper veneer 126 the fan room 124 and the back wall 222 of the device body 200 a vertical channel portion is formed in a vertical air duct 223 in the upper area of the rear wall of the 222 empties.

Between the intake opening 122 and the fan room 124 is a section of the cold air duct 121 of the evaporator section 120 to a bell-shaped evaporator space 127 extended, in which an evaporator 128 is arranged. The evaporator room 127 is slightly inclined in the evaporator section 120 and increases in the flow direction of the air in height. The evaporator 128 follows this course of the evaporator room 127 and is correspondingly slightly inclined in the evaporator section 120 installed. The cold air duct 121 is shaped so that both the air inlet 127a as well as the air outlet 127b of the evaporator room 127 below the level of the evaporator. The cold air duct 121 is thus shaped so that during operation of the refrigerator and / or freezer, the air, starting from the suction port 122 to the air inlet opening 127a below the level of the evaporator 128 sinks, then in the evaporator room 127 slowly rises while keeping the evaporator 128 happens, and then again below the level of the evaporator 128 sinks before entering the fan room 125 arrives.

Not shown in detail in the figure for reasons of clarity, a likewise in the evaporator section 120 built-in condensate line. The evaporator fan 125 is based on a likewise not shown wiring with the control unit and the power supply in the machine section 110 in connection. The evaporator 128 is based on not shown in detail refrigerant piping with the remaining, in the machine section 110 arranged components of the refrigerant circuit in connection. The corresponding wiring and refrigerant pipes run through the connecting bar 130 ,

Claims (10)

A refrigerator and / or freezer with a device body having heat-insulating walls, which enclose an interior, and with a refrigerant circuit comprising as components a compressor, a condenser, a throttle and an evaporator, characterized in that the device comprises a cold air duct which is extended in a section to an evaporator space, wherein the evaporator is arranged in this evaporator space and wherein the air inlet opening and the air outlet opening of the evaporator chamber are below the level of the evaporator. Cooler and / or freezer after Claim 1 , characterized in that the device body has a full vacuum insulation, wherein the interior is surrounded by a continuous, box-shaped vacuum insulation body. Cooling and / or freezing appliance according to one of the preceding claims, characterized in that all components of the refrigerant circuit are installed together on an aggregate carrier, which can be removed from the device body and removed from the device, wherein the cold air duct is also formed in the unit carrier. Cooling and / or freezing appliance according to one of the preceding claims, characterized in that the evaporator and the evaporator channel and preferably the unit carrier with evaporator and evaporator channel are installed in the lower region of the device body. Refrigerated and / or freezer according to one of Claims 3 to 4 , characterized in that further comprises one or more components selected from the group of a machine room fan, a refrigerator fan, a control unit, a condensate tray and a power supply unit with cabling are installed on the unit carrier. Refrigerated and / or freezer according to one of Claims 3 to 5 , characterized in that the unit carrier comprises a machine section and an associated evaporator section, wherein the compressor and the condenser in the machine section and the evaporator and the cold air duct are accommodated in the evaporator section. Cooler and / or freezer after Claim 6 , characterized in that in a lying next to the connection space between the machine section and the evaporator section associated with a device body heat insulation layer is arranged. Cooler and / or freezer after Claim 6 or 7 , characterized in that the machine section is accommodated in a base space of the device body and the evaporator section in the lowermost region of the interior. Refrigerating and / or freezing appliance according to one of the preceding claims, characterized in that the evaporator chamber is inclined relative to the horizontal and gains in height in the flow direction of the air. Cooling and / or freezing appliance according to one of the preceding claims, characterized in that no electrically operated flaps and preferably no flaps are installed in the cold air duct.

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