EP3705796A1 - Heat pump unit, air guiding element for heat pump unit, and method for manufacturing an air guiding element - Google Patents

Abstract

The invention relates to a heat pump unit (100), in particular an external unit, for an air heat pump, with a housing (102), with an air outlet cross-section (104) for discharging an air flow from the heat pump unit (100) into an environment (1), and with a the air outlet cross section (104) forming the air guide element (200) having a conical guide section (202) for deflecting the air flow from an axial flow direction into at least one radial flow direction. The invention is characterized in that the air guide element (200) of the heat pump unit (100) has an outer circumference (204) which, together with the housing (102), defines the air outlet cross section (104), and that, preferably in the area of the air outlet cross section (104 ), an access protection (206) is arranged on the air guiding element (200), the access protection (206) spanning the air outlet cross-section (104) and preventing access to the interior of the heat pump unit (100). This creates a heat pump unit (100) that is improved and safer than the prior art.

Description

State of the art

The JP 2004278846 A shows an outdoor unit for an air conditioning system with a housing, an air intake opening, a heat exchanger, an axial fan, an air exhaust opening and a deflection element for deflecting an air flow from an axial direction. The deflecting element is held at a predetermined distance in front of the housing.

Disclosure of the invention

The invention relates to a heat pump unit, in particular an external unit, for an air heat pump, with a housing, with an air outlet cross section for discharging an air flow from the heat pump unit into an environment, and with an air guide element which forms the air outlet cross section and has a conical guide section for deflecting the air flow from a axial flow direction in at least one radial flow direction.

The invention is characterized in that the air guide element of the heat pump unit has an outer circumference which, together with the housing, defines the air outlet cross section, and that, preferably in the area of the air outlet cross section, an access protection is arranged on the air guide element, the access protection spanning the air outlet cross section and an access prevents into an interior of the heat pump unit. This creates a heat pump unit that is improved and safer than the prior art.

A heat pump unit is to be understood here in particular as a unit with a heat pump circuit and / or a refrigerant circuit, in particular for heat transfer from a heat source to a refrigerant or from a refrigerant to a heat sink. In particular, the heat pump unit can be designed for operation as an external unit set up in an external environment or as a unit connected to the external environment in a spatial environment. The unit can be designed to connect an air heat pump to an air source or to outside air in a heat transferring manner. Instead of an air heat pump, other thermal or air conditioning devices can alternatively be connected to the unit. A housing is to be understood in particular as a protective enclosure of the heat pump unit which encloses essential components of the heat pump unit. Components of the heat pump unit can be an air inlet opening and an air outlet opening for an air flow flowing through the heat pump unit, a heat exchanger for the heat transferring connection of the air flow and heat pump circuit or refrigerant circuit, and / or a fan, in particular an axial fan, for conveying the air flow. Corresponding to the air inlet opening and the air outlet opening of the heat pump unit, the housing has a housing inlet opening and a housing outlet opening. These components can be arranged at least partially, in particular essentially along a common longitudinal axis. An air guide element deflects the air flow to be diverted from the heat pump unit from an axial flow direction into at least one radial flow direction. The air guiding element is arranged in particular in the air flow direction downwards in front of the fan, a longitudinal axis of the air guiding element and a longitudinal axis of the fan preferably overlap essentially coaxially. At least one radial flow direction means in particular that the air flow to be diverted exits in at least one or more radial directions (radial to the longitudinal axis of the air guiding element), in particular over a full angle of 360 °, optionally over a partial area of the full angle. In addition to purely radial directions, the air flow to be diverted can also have tangential flow components. Under a cone-shaped guide section is a solid body or to understand a hollow body with a substantially conical shape. An essentially conical shape can be understood to mean a geometry which, at least in sections, has the shape of a cone, a truncated cone, a pyramid or a truncated pyramid. A jacket surface of the conical shape can in particular be curved concavely inward. The air flow to be diverted is at least partially deflected at the guide section. An outer circumference of the air guiding element can be an edge or surface running on the outside of the air guiding element. In particular, the outer circumference of the air guide element lies outside the housing. The fact that the outer circumference defines the air outlet cross section together with the housing means in particular that the air outlet cross section lies between the outer circumference of the air guide element and the housing. The air outlet cross-section borders in particular on an outer surface of the housing. The air outlet cross-section is the open area, in particular, at which the air flow exits from the heat pump unit into the environment. An access protection is arranged on the air guide element, in particular in the area of the air outlet cross section. Access protection is to be understood here in particular as a device that prevents access or reaching through or reaching into, for example, hands or falling, for example, objects into the interior of the heat pump unit. This eliminates the risk of injury, especially for children, but also for users and / or installers. The access protection covers in particular the entire air outlet cross-section. The access protection is preferably cylindrical. Alternatively, the access protection can also be designed in the shape of a cuboid. The access protection extends in the air outlet cross section from the outer circumference or from the outer edge of the air guiding element, preferably perpendicularly to the surface of the housing. Because the access protection is attached to the outer circumference or edge, the air passage openings can be larger than if the access protection were deeper, and they still develop their protective effect, since they are arranged further away from the fan. A cylindrical access guard fits a conical guide section and a round cover plate. A cuboid access protection fits a pyramid-shaped air guide element and an angular cover plate. However, a cuboid access protection can also match a conical air guide element and an angular cover plate. Of the Access protection has air passage openings for air to flow through. Possible protective elements on which the access protection is based can, for example, have a grid-like or net-like or web-like structure and include, for example, perforated, slotted or stamped sheets, networked or circumferentially arranged fibers or wires, or axially or circumferentially arranged web elements. The webs between the air passage openings ensure protection against reaching into the hands or objects falling into the interior of the heat pump unit. In particular, the access protection is arranged on the outer diameter or on the outer circumference of the air guide element. The access protection is therefore comparatively far removed from the inside and from the fan of the heat pump unit. The air passage openings, in particular their diameter or transverse dimension, can therefore be comparatively large and are nevertheless secure with regard to reaching into them. The fan does not need its own access protection. Due to its arrangement radially far outwards, the access protection also has a large circumferential surface in which many air passage openings can be arranged. A flow resistance of the access protection is therefore comparatively small. The external access protection is easily accessible and can be cleaned easily if objects such as leaves or dirt fall on it.

An advantageous embodiment of the heat pump unit is characterized in that the air guide element protrudes at least in sections from the housing or is arranged outside in front of the housing, the guide section having an end section with a large diameter, the air guide element being arranged on the heat pump unit in such a way that the end section with a large diameter is in the area a side of the air guiding element facing away from the heat pump unit or from the housing is arranged, the access protection being arranged in the region of an outer circumference of the end section with a large diameter. The air guiding element is arranged at least partially or entirely outside the housing, so it is partially or completely not enclosed or covered by the housing. Another section or part of the air guiding element can pass through the housing outlet opening to behind the surface of the housing reach back into its interior and up to the front of the fan. The conical shape of the guide section comprises an end section with a large diameter, which is in particular the larger, in particular circular base area of the cone, and an opposite end section with a small diameter, which is in particular the smaller, in particular circular base area. An annular outer edge of the large-diameter end section represents, in particular, a trailing edge for the air flow, on which the access protection is arranged.

Another advantageous embodiment of the heat pump unit is characterized in that the air guiding element protrudes at least in sections from the housing or is arranged outside in front of the housing, the air guiding element having a cover plate, the air guiding element being arranged on the heat pump unit in such a way that the cover plate is in the area of a is arranged from the heat pump unit or from the housing facing away from the side of the air guiding element, wherein the access protection is arranged in the area of an outer circumference of the cover plate. The air guiding element is arranged at least partially or entirely outside the housing, so it is partially or completely not enclosed or covered by the housing. Another section or part of the air guiding element can extend back through the housing outlet opening to behind the surface of the housing in its interior and to in front of the fan. The cover plate is in particular circular and essentially flat and has a diameter approximately as large as the diameter-sized end section of the conical guide section or larger than this. The cover plate preferably adjoins the large-diameter end section of the guide section concentrically. The cover plate covers the air guiding element to the outside and, in addition to an air guiding function, can also be designed as a design element. An annular outer edge of the cover plate in particular represents a trailing edge for the air flow, on which the access protection is arranged.

Another advantageous embodiment of the heat pump unit is characterized in that the access protection has at least one air passage opening, in particular a multiplicity of air passage openings, for air to flow through and for discharging an air flow into an environment, wherein the open area portion formed by the air passage openings in an area of the access protection that is geodetically overhead when installed in operation is smaller than in a lateral and / or lower area. The air passage openings are formed by the open spaces of a, for example, grid-like or net-like or web-like structure of the access protection. These spaces are for example holes and / or slots. By means of a hole size and / or slot size and / or a hole-to-hole spacing and / or slot-to-slot spacing, the open area portion of a total area of the access protection can be realized and varied along the circumference.

The invention also comprises an air guide element for a heat pump unit for deflecting an air flow from an axial flow direction into at least one radial flow direction, the air guide element comprising a conical guide section and characterized in that the air guide element has an outer circumference, and that, preferably in the area of the outer circumference, an access protection is provided.

An advantageous embodiment of the air guide element is characterized in that the guide section has an end section with a large diameter, the access protection being formed in the area of an outer circumference of the end section with a large diameter.

A further advantageous embodiment of the air guide element is characterized in that the air guide element has a cover plate, the access protection being formed in the area of an outer circumference of the cover plate.

In a further advantageous embodiment of the air guiding element, the access protection has at least one air passage opening, in particular a multiplicity of air passage openings, for guiding an air flow through. The particularly massive webs between the air passage openings ensure protection against access by hands or objects falling into the interior of the heat pump unit.

In a further advantageous embodiment of the air guide element, the air guide element has at least one further air passage opening, the further air passage opening running in the axial direction through the guide section. A partial air flow of the total air flow continues to be deflected on the air guide element in a radial flow direction and continues to flow through the air passage opening formed in the access protection. Another partial air flow is not deflected by the air guide element in a radial flow direction, but instead flows through the further air passage opening while maintaining the axial flow direction.

Another advantageous embodiment of the air guiding element is characterized in that the access protection is designed in one piece and, in particular, of the same material as the air guiding element and is preferably a formed part, in particular a deep-drawn part. One-piece means from one part, from one piece, constituting a component or part, not detachable from one another in a non-destructive manner. Material uniform means formed from the same material or material. Such an air guiding element is safe with regard to its protective function, since the access protection is designed such that it cannot be lost on the air guiding element. As there are no abutting edges or connecting elements between the guide section and access protection, the risk of injury is very small. Such an air guide element makes the heat pump unit particularly quiet, since the airborne sound is deflected together with the air flow. The access protection arranged far outside on the air guiding element can be designed very favorably in terms of low flow resistance. The one-piece design stiffens the air guiding element, so component vibrations causing sound do not occur or hardly occur. Such an air guide element with access protection can be produced easily and inexpensively in one production process. Such a one-piece air guiding element can furthermore easily be designed in an aesthetically pleasing manner and has no unsightly abutting edges or connecting elements between the guiding section and access protection. It is easy to keep clean thanks to the one-piece design and the position of the access protection that is arranged far on the outside.

An alternative or additional further advantageous embodiment of the air guide element is characterized in that the access protection is in one piece and, in particular, is made of the same material as the cover plate and is preferably a formed part, in particular a deep-drawn part. One-piece means from one part, from one piece, representing a single component or a single component, not detachable from one another without being destroyed. Material uniform means formed from the same material or material. The advantages of this design are essentially the same as those of the design described above.

The invention also comprises a method for producing an air guide element, comprising the steps of providing a substantially flat pane; Reshaping, in particular deep drawing, of an essentially conical guide section of the air guide element from a region in the center of the disk; Forming, in particular deep drawing, an access protection from an area on the outer circumference of the pane; Introducing at least one air passage opening, in particular a multiplicity of air passage openings, into the access protection. With this method, a fast and inexpensive method for producing an air guide element with small component tolerances, attractive surface quality and good reproduction properties is created. As an alternative to deep drawing, the deformation of the access protection can also be edging.

An alternative method for producing an air guiding element comprises the steps of providing a preform; Heating the preform; Placing the preform in a blow molding tool; Reshaping, in particular by gas injection, of the preform in the blow molding tool; Introducing at least one air passage opening, in particular a multiplicity of air passage openings, into the access protection.

Another alternative method for producing an air guide element comprises the step of injection molding.

An advantageous embodiment of the method comprises the step of introducing at least one radially outwardly protruding elevation into the access protection or in the area forming the access protection, the elevation at least in sections for introducing the air passage opening is removed. Air passage openings generated in this way can in particular have a contour that is favorable to the flow. The elevation can, for example, be designed in the shape of a knob.

A further advantageous embodiment of the method comprises the step of introducing at least one radially outwardly protruding, bead-like elevation circumferentially surrounding the access guard, in particular in the manner of a corrugated pipe section, into the access guard or into the area forming the access guard, with the elevation for introducing the air passage opening is removed at least in sections. The introduction of at least one radially outwardly protruding, bead-like elevation circumferentially around the access protection in the access protection can take place in the deep-drawing process by suction, or in the blow molding process by blowing in, of sub-areas of the access protection into a corresponding groove-shaped circumferential undercut on the tool. For this purpose, the tool is advantageously designed as a split tool. When the elevations are removed, the deeper areas between the elevations remain intact as peripheral webs and form the structure of the access protection. The circumferential elevations are preferably only removed on selected peripheral subareas of the access protection and remain on other peripheral subareas; the removed areas of the elevations form circumferential slot-shaped air passage openings, the areas of the elevations that have not been removed form transverse webs which connect the circumferential webs of the access protection to one another. The removal can take place in particular by milling or cutting.

drawings

Figur 1

eine Wärmepumpeneinheit mit einem Gehäuse,

Figur 2

ein Luftleitelement in perspektivischen Ansichten,

Figur 3

ein Luftleitelement in perspektivischen Ansichten,

Figur 4

ein Luftleitelement in perspektivischen Ansichten,

Figur 5

verschiedene Luftleitelemente im Längsschnitt,

Figur 6

ein Detail eines Längsschnitts durch einen Zugriffschutz.

Further exemplary embodiments of the invention and advantages emerge from the following description of the drawings and the drawing figures. The figures, the description and the claims contain numerous features in combination. The person skilled in the art will expediently also consider the features individually and combine them into useful further combinations. Identical reference symbols denote identical or comparable components or Facts. To avoid unnecessary repetitions in the description of the drawings, reference is made to the description of the other figures. Show it

Figure 1

a heat pump unit with a housing,

Figure 2

an air guide element in perspective views,

Figure 3

an air guide element in perspective views,

Figure 4

an air guide element in perspective views,

Figure 5

various air control elements in longitudinal section,

Figure 6

a detail of a longitudinal section through an access protection.

Figure 1 shows a heat pump unit 100 in an installation environment 1, in particular an external environment 1 or spatial environment 1, with a housing 102, with an air outlet cross section 104 for discharging an air flow from the heat pump unit 100 into the environment 1, and with a conical shape forming the air outlet cross section 104 Air guiding element 200 having guide section 202 for deflecting the air flow from an axial flow direction into at least one radial flow direction. The air guiding element 200 has an outer circumference 204 which, together with the housing 102, defines the air outlet cross section 104. An access protection 206 is preferably arranged on the air guiding element 200 in the area of the air outlet cross section 104, the access protection 206 spanning the air outlet cross section 104 and preventing access to the interior of the heat pump unit 100. The air guide element 200 is arranged on an outside outside in front of the housing 102. The guide section 202 has a large-diameter end section 208, the air guiding element 200 being arranged on the heat pump unit 100 such that the large-diameter end section 208 is arranged in the area of a side of the air guiding element 200 facing away from the heat pump unit 100. The air guide element 200 has a cover plate 210. The cover plate 210 is arranged on the large-diameter end section 208 of the guide section 202. The access protection 206 is arranged in the area of an outer circumference 204 of the air guiding element 200, in particular in the area of an outer circumference of the cover plate 210. The air guide element 200 is arranged on the heat pump unit 100 in such a way that the cover plate 210 in the Area of a side of the air guiding element 200 facing away from the heat pump unit 100 is arranged. The access protection 206 is cuboid and fits the angular cover plate 210. The air guiding element 200 can be conical or pyramid-shaped. Figure 1b shows a longitudinal section through the heat pump unit 100. When the heat pump unit 100 is in operation, an axial fan 106 sucks in an air flow from the environment 1, the air flow flowing in an essentially axial flow direction through an air inlet opening 108 into the housing 102 and through a heat exchanger 110. The air flows on through a funnel 112 to the blower 106. The blower 106 conveys the air flow through a housing outlet opening 114 to the air guide element 200, where the air flow is deflected from the axial flow direction into a plurality of essentially radial flow directions.

The Figures 2 , 3 and 4 each show an air guide element 200 in perspective views from the front and from the rear. The air guide elements 200 include a conical guide section 202, an access protection 206 and a cover plate 210. The air guide elements 200 serve to deflect an air flow from an axial flow direction into at least one radial flow direction. The air guide elements 200 comprise a conical guide section 202 at which the air flow is deflected. The air guiding element 200 has an outer circumference 204, a cylindrical access protection 206 being provided in the area of the outer circumference 204. The conical guide section 202 has an end section 208 with a large diameter. An end section 212 of small diameter of the guide section 202 faces the fan 106 when it is ready for operation on the heat pump unit 100, in particular adjacent to a fan motor 107. A large-diameter end section 208 of the guide section 202 is on the side of the air guide element 200 facing away from the heat pump unit 100. The access protection 206 can be formed in the area of an outer circumference of the large-diameter end section 208. The air guide element 200 can furthermore, as in FIG Figure 2 and 3 have a cover plate 210. The access protection 206 is cylindrical or essentially cylindrical and fits the conical guide section 202 and the round cover plate 210. The access protection 206 can be formed in the region of an outer circumference of the cover plate 210. Alternatively, the Cover plate 210 has a different diameter than the outer circumference of the large-diameter end section 208 and / or the access protection 206. The access protection 206 has a multiplicity of air passage openings 214 for passing the air flow through. In Figure 2 the air passage openings 214 are round holes. This air guide element 200 is particularly suitable for production by means of a deep-drawing process. In Figure 3 the air passage openings 214 are formed in the shape of a slot between slats. This air guiding element is particularly suitable for production by means of lamellae 216 stacked on top of one another at a distance. The lamellae 216 are held by pins 218. In Figure 4 the air passage openings 214 are milled out as slots from a corrugated tube-like shape of the access protection 206. This air guide element 200 is particularly suitable for production by means of a deep-drawing process or a blow-molding process. The access protection 206 can be formed in one piece and in particular with the same material as the air guiding element 200 and is then preferably a formed part, in particular a deep-drawn part. In particular, the access protection 206 is formed in one piece and in particular made of the same material with the guide section 202 and is preferably a formed part, in particular a deep-drawn part. The cover plate 210 can be embodied separately from the guide section 202 and / or the access protection 206. Alternatively, the cover plate 210 can be formed in one piece with the guide section 202 and / or the access protection 206. The access protection 206 has a multiplicity of air passage openings 214 for discharging an air flow into an environment 1. The open area portion formed by the air passage openings 214 in the geodetically overhead area of the access protection 206 shown here in the operational setup is smaller than in the lateral and / or lower areas. In Figure 2 fewer air passage openings 214 are formed at the top. In Figure 3 there are more slats in the upper area, which means that the blockage is larger and narrower slots are available. In Figure 4 no circumferential slot-shaped air passage openings have been milled in the upper area.

Figure 5 shows various air guide elements 200 in longitudinal section. Figure 5a corresponds to the longitudinal section Figure 2 . Figure 5b is a variation of this with angular air passage openings 214. Figure 5c corresponds to the longitudinal section Figure 3 . Figure 5d corresponds to the longitudinal section Figure 4 and is here shown slightly distorted in perspective; but the basic geometry is that of Figures 5a, b and c comparable. The air guiding elements 200 comprise a conical guiding section 202, a cylindrical access protection 206 and a round cover plate 210. The air guiding elements 200 can be connected to the heat pump unit 100 on their respective sides shown on the left. The air guiding elements 200 also include a plurality of connecting elements 220 for connecting to the heat pump unit 100. For example, these are wire loops 220 that can be fixed to the housing 102 by means of screws.

Figure 6 shows a detail of a longitudinal section through an access protection 206 according to FIG Figures 4 and 5d . The essentially cylindrical access guard 206 has the shape of a corrugated pipe section with radially protruding, bead-like elevations 222 circumferentially around the cylindrical access guard 206 and circumferentially circumferential, groove-like depressions 224 between them . At the location of the removal, the entire wall thickness of the access protection 206 is missing, slot-like air passage openings 214 are formed. Circumferential webs 226 are formed between the slot-like air passage openings 214. Where the elevations 222 are not removed, transverse webs 228 are formed, which form the structure of the access protection 206 , in particular the circumferential webs 226, hold together.

Claims (13)

Heat pump unit (100), in particular external unit, for an air heat pump, with a housing (102), • with an air outlet cross-section (104) for discharging an air flow from the heat pump unit (100) into an environment (1), • with an air guide element (200) which forms the air outlet cross section (104) and has a conical guide section (202) for deflecting the air flow from an axial flow direction into at least one radial flow direction, • characterized in that the air guide element (200) has an outer circumference (204) which, together with the housing (102), defines the air outlet cross section (104), and that, preferably in the area of the air outlet cross section (104), an access protection (206) is arranged on the air guide element (200), the access protection (206) spanning the air outlet cross section (104) and preventing access to the interior of the heat pump unit (100). Heat pump unit (100) according to claim 1,
characterized in that the air guiding element (200) protrudes at least in sections from the housing (102) or is arranged outside in front of the housing (102), the guiding section (202) having an end section (208) of large diameter, the air guiding element (200) so is arranged on the heat pump unit (100) that the large-diameter end section (208) is arranged in the area of a side of the air guiding element (200) facing away from the heat pump unit (100), the access protection (206) in the area of an outer circumference of the large-diameter end section ( 208) is arranged. Heat pump unit (100) according to claim 1 or 2,
characterized in that the air guiding element (200) protrudes at least in sections from the housing (102) or is arranged outside in front of the housing (102), the air guiding element (200) having a cover plate (210), the air guiding element (200) so on the heat pump unit (100) is arranged that the cover plate (210) is arranged in the area of a side of the air guiding element (200) facing away from the heat pump unit (100), the access protection (206) being arranged in the area of an outer circumference of the cover plate (210) is. Heat pump unit (100) according to one of claims 1 to 3,
characterized in that the access protection (206) has at least one air passage opening (214), in particular a multiplicity of air passage openings (214), for discharging an air flow into an environment (1), the open area portion formed by the air passage openings (214) in one In the operational setup, the geodetically overhead area of the access protection (206) is smaller than in a lateral and / or lower area. Air guide element (200) for a heat pump unit (100) according to one of Claims 1 to 4, for deflecting an air flow from an axial flow direction into at least one radial flow direction, with a conical guide section (202),
characterized in that the air guide element (200) has an outer circumference (204), and that, preferably in the area of the outer circumference (204), an access protection (206) is provided. Air guide element (200) according to claim 5,
characterized in that the guide section (202) has an end section (208) with a large diameter, the access protection (206) being formed in the area of an outer circumference of the end section (208) with a large diameter. Air guiding element (200) according to claim 5 or 6,
characterized in that the air guide element (200) has a cover plate (210), the access protection (206) being formed in the area of an outer circumference of the cover plate (210). Air guiding element (200) according to one of Claims 5 to 7,
wherein the access protection (206) has at least one air passage opening (214), in particular a multiplicity of air passage openings (214), for the passage of an air flow. Air guide element (200) according to one of claims 5 to 8,
wherein the air guide element (200) has at least one further air passage opening, the further air passage opening running in the axial direction through the guide section (202). Air guide element (200) according to one of Claims 5 to 9,
characterized in that the access protection (206) is formed in one piece and in particular with the same material as the air guiding element (200) and is preferably a formed part, in particular a deep-drawn part. Method for producing an air guiding element (200) according to one of Claims 5 to 10,
the following steps: • Provision of an essentially flat disc, • Reshaping, in particular deep drawing, of a substantially conical guide section (202) of the air guide element (200) from an area in the center of the pane, • Forming, in particular deep drawing, of an access protection from an area on the outer circumference of the pane, • Introducing at least one air passage opening (214) in the access protection (206). Method according to claim 11,
comprehensive the step
Introducing at least one radially outwardly protruding elevation (222) into the access protection (206) or in the area forming the access protection (206), the elevation (222) being removed at least in sections to introduce the air passage opening (214). Method according to claim 11 or 12,
comprehensive the step
Introducing at least one radially outwardly protruding, bead-like elevation (222) circumferentially around the access guard in the access guard (206) or in the area forming the access guard (206), the elevation (222) at least for introducing the air passage opening (214) is removed in sections.

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