DE102022209293A1 - Heat pump system control component - Google Patents

Abstract

A heat pump system control component (10) comprises a housing (12) and an HMI (22) in the form of a display for inputting and/or outputting information, data and/or instructions. It is proposed that the HMI (22) is pivotally mounted relative to the housing (12).

Description

State of the art

The invention relates to a heat pump system control component according to the preamble of claim 1.

Heat pump systems are increasingly being used to generate hot water and heat. These include several components, including, in the case of an air heat pump, a so-called outdoor unit, which extracts heat from the outside air, as well as a control component with electronic, electrical and hydraulic components to control the heat pump system. Typically, such a control component has a housing and an HMI (Human Machine Interface). The HMI is typically a touchscreen. This allows an operator to enter data and instructions into the control component, and this allows data and information to be displayed to an operator.

Disclosure of the invention

The problem on which the invention is based is solved by a heat pump system control component with the features of claim 1. Advantageous further developments are specified in subclaims.

The invention significantly improves the ergonomics of the heat pump system control component because the interaction between an operator and the HMI is facilitated. Typically, such a heat pump system control component stands on the floor, and typically the height of such a heat pump system control component is a maximum of approximately 1 m. The pivoting arrangement of the HMI improves the viewing angle during operation because it can be adjusted individually by the operator Size of the operator can be adjusted. This improves the overall operability of the heat pump system control component.

Specifically, this is achieved by a heat pump system control component comprising a housing. The housing can be, for example, an upright cuboid housing that stands on a floor in a building. The housing usually contains electronic, electrical and hydraulic components that are used to control and regulate the heat pump system. The heat pump system control component also includes an HMI in the form of a display for inputting and/or outputting information, data and/or instructions.

Typically the display is a touchscreen. For example, operating data from the heat pump system can be displayed here. Furthermore, for example, data can be entered on the touchscreen and programs can be selected that can be used to control and program the heat pump system.

The HMI is pivotally mounted relative to the housing. So there is a pivot axis around which the HMI can be pivoted. This does not exclude the possibility that the HMI can also be moved translationally. The pivot axis can preferably be horizontal, so that the HMI can be pivoted from a non-pivoted vertical position in which it is arranged flat on or in the housing, into a pivoted position such that a plane of the HMI is approximately orthogonal to a visual axis The operator is standing or sitting in front of the heat pump system control component.

In a further development it is provided that the HMI is pivotably attached by means of at least one friction hinge. This means the HMI remains in the pivoted position without the need for an additional support structure. This makes handling and manufacturing easier.

In a further development, it is provided that a secondary housing is arranged in the housing, in which electronic components for controlling and regulating the heat pump system are arranged, and that the HMI is pivotally attached to a front wall of the secondary housing. The HMI is therefore in close proximity to the electronic components of the control, which reduces possible interference paths. Furthermore, access to other components located in the housing of the heat pump system control component remains unaffected by the HMI. Such other components can be, for example, hydraulic and electrical components, for example hydraulic pumps. This also enables a modular approach: a heat pump system control component that does not stand on the floor, but is hung on the wall, for example, can be constructed essentially identically, and only the swiveling ability of the HMI can be dispensed with.

In a further development of this, it is provided that the front wall has a recess in which the HMI is accommodated at least partially in a non-pivoted position. On In this way, the HMI is kept protected in the non-pivoted position.

In a further development it is provided that the HMI is connected to a carrier plate and that the carrier plate is pivotally attached relative to the housing. For example, a handle can be formed on the support plate, with which the operator can pivot the HMI. This means that no forces are exerted directly on the HMI when pivoting, which protects it from damage.

In a further development of this, it is provided that the carrier plate is a sheet metal part. This is particularly easy and inexpensive to produce.

In a further development of this, it is provided that an intermediate plate made of plastic is arranged between the HMI and the carrier plate. This prevents rattling noises and provides electrical insulation.

In a further development, it is provided that the heat pump system control component has at least one elastically mounted clip, for example a locking lug, which releasably secures the HMI at least indirectly in a non-pivoted position on the housing. This enables a precise definition of the non-pivoted rest position and prevents the HMI from accidentally remaining permanently outside of the non-pivoted rest position. The clip also gives the operator clear feedback as to whether the HMI has actually been swung back to the non-swiveled rest position.

In a further development it is provided that it includes a stop which limits the maximum pivot angle to approximately 60-70°, more preferably to approximately 65°. This means that simpler pivoting mechanisms can be used, reducing manufacturing costs.

• 1 eine perspektivische Darstellung einer Wärmepumpensystem-Steuerungskomponente mit einem HMI, welches sich in einer nicht-verschwenkten Ruheposition befindet;
• 2 eine Darstellung ähnlich zu 1, wobei sich das HMI in einer verschwenkten Arbeitsposition befindet;
• 3 eine perspektivische Darstellung des HMI in der nicht-verschwenkten Ruheposition;
• 4 eine Darstellung ähnlich zu 3 mit dem HMI in der verschwenkten Arbeitsposition; und
• 5 eine Explosionsdarstellung des Bereichs der Wärmepumpensystem-Steuerungskomponente mit dem HMI.

An embodiment of the invention is explained below with reference to the drawing. Show in the drawing:

• 1 a perspective view of a heat pump system control component with an HMI that is in a non-pivoted rest position;
• 2 a representation similar to 1 , with the HMI in a pivoted working position;
• 3 a perspective view of the HMI in the non-pivoted rest position;
• 4 a representation similar to 3 with the HMI in the pivoted working position; and
• 5 an exploded view of the heat pump system control component area with the HMI.

Below, functionally equivalent elements and areas have the same reference numbers in all figures. Furthermore, they are generally only explained in detail when they are mentioned for the first time. Furthermore, for reasons of clarity, not all reference symbols are entered in all figures.

A heat pump system control component has the overall reference number 10 in the figures. It is used to accommodate components that are used to control a heat pump system. This includes electronic as well as hydraulic and electrical components. The heat pump system itself is not shown in the figures.

The heat pump system control component 10 comprises a cuboid housing 12, which stands upright on the floor, for example in a building. A vertical direction is indicated by an arrow 14. A front 16 of the housing 12 is normally closed by a cover. However, this is not shown here, so that one can see into the interior of the housing 12.

A secondary housing 18 is arranged in the housing 12, specifically in the upper region of the housing 12. This secondary housing 18 is used to arrange, in particular, electronic components for controlling and regulating the heat pump system, for example a microprocessor, electronic storage components, power supply, etc. The room within the housing 12 below the secondary housing 18 is in the 1 and 2 as freely drawn. In fact, however, the above-mentioned hydraulic and electrical components and the like are arranged there, which are not shown for the sake of simplicity.

The heat pump system control component 10 includes an HMI 22 (Human Machine Interface), in the present case for example a touchscreen, on a front wall 20 of the secondary housing 18. The HMI 22 is on the secondary housing 18 and via this in turn on the housing 12 about a horizontal pivot axis 24 ( 2 ) pivotally attached. In the 1 and 3 the HMI 22 is in a non-pivoted rest position 2 and 4 drawn in a working position pivoted through an angle of approximately 65°.

Like in particular from the 4 and 5 As can be seen, the front wall 20 has a recess 26 in which the HMI 22 in the in 3 shown non-pivoted position is recorded in areas. The HMI 22 is connected to a carrier plate 28 parallel to the HMI 22, which is designed as a sheet metal part and which is attached to its edge adjacent to the front wall 20 by means of two friction hinges 30, which are attached to the front wall 20 of the secondary housing 18, relative to the secondary housing 18 and can therefore also be pivoted relative to the housing 12. An intermediate plate 32 made of plastic is arranged between the HMI 22 and the carrier plate 28. A grip tab 33 is formed on the support plate 28 on an edge projecting from the front wall 20, which an operator can grab when the HMI 22 is to be pivoted.

On the front wall 20 of the secondary housing 18, elastic clips 34 are arranged on the left and right sides at the lower edge of the recess 26, which interact with the respective side edge of the carrier plate 28 and keep the HMI 22 in the non-pivoted rest position ( 3 ) on the secondary housing 18 and thus also on the housing 12. If the HMI 22 is folded out of or into the non-pivoted rest position by an operator, the elastic clips 34, which could also be referred to as “locking lugs”, are pressed laterally outwards from the respective side edge of the carrier plate 28. If they are released again from the side edge of the carrier plate 28, the clips 34 snap back elastically inwards.

You can see in particular from the 1 and 2 that by arranging the secondary housing 18 in the upper area of the housing 12 and the arrangement of the HMI 22 in the area of the front wall 20 of the secondary housing 18, access to the components of the heat pump system control component 10 arranged below the secondary housing 18 in the housing 12 is not hindered . The HMI 22 is therefore integrated directly into the “box” 18 which contains the electronic components of the heat pump system control component 10.

In the in the 2 and 4 The pivoted working position shown is the HMI 22 compared to that in the 1 and 3 shown non-pivoted rest position pivoted by approximately 65 ° about the pivot axis 24, the typical maximum pivot range being in the range of approximately 60-70 °. The typical maximum swivel range can be defined by a stop, which is not shown in the drawings. Because the hinges 30 are friction hinges, the HMI 22 remains in the 2 and 4 shown pivoted working position, without the operator having to hold the HMI 22 or other support structures being necessary.

Typically, during normal operation of the heat pump system control component 10, the HMI 22 is covered by a front cover, which must be removed if access to the HMI 22 is desired.

Claims (9)

Heat pump system control component (10), comprising a housing (12) and an HMI (22) in the form of a display for inputting and/or outputting information, data and/or instructions, characterized in that the HMI (22) is relative to the Housing (12) is pivotally attached. Heat pump system control component (10). Claim 1 , characterized in that the HMI (22) is pivotally mounted by means of at least one friction hinge (30). Heat pump system control component (10) according to at least one of the preceding claims, characterized in that a secondary housing (18) is arranged in the housing (12), in which electronic components for controlling the heat pump system are arranged, and that the HMI is mounted on a front wall ( 20) of the secondary housing (18) is pivotally attached. Heat pump system control component (10). Claim 3 , characterized in that the front wall (20) has a recess (26) in which the HMI (22) is accommodated at least partially in a non-pivoted position. Heat pump system control component (10) according to at least one of the preceding claims, characterized in that the HMI (22) is connected to a support plate (28), and that the support plate (28) is pivotally mounted relative to the housing (12). Heat pump system control component (10). Claim 5 , characterized in that the carrier plate (28) is a molded sheet metal part. Heat pump system control component (10) according to at least one of Claims 5 or 6 , characterized in that an intermediate plate (32) made of plastic is arranged between the HMI (22) and the carrier plate (28). Heat pump system control component (10) according to at least one of the preceding claims, characterized in that it has at least one elastically mounted clip (34) which releasably secures the HMI (22) in a non-pivoted position on the housing (12). Heat pump system control component (10) according to at least one of the preceding claims, characterized in that it comprises a stop which limits the maximum pivot angle to approximately 60-70°, more preferably to approximately 65°.

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