阅读说明：本技术 用于保持遥控器的壁挂装置 (Wall-mounted device for holding remote controller ) 是由 费迪南德·迈尔 于 2019-07-05 设计创作，主要内容包括：本发明涉及壁挂装置(2),用于将遥控器(4)保持在承载体上的柱形接纳空间(6)中,包括：至少部分地围绕接纳空间周侧的周壁(12)；在接纳空间底侧上与周壁相邻接的底壁(14),该底壁具有朝向接纳空间的内侧面(16)和与内侧面相对的外侧面(18)；在接纳空间的顶侧的放置口(20),通过该放置口将遥控器放置到接纳空间中；穿过底壁的两个通孔(22,24),用于将底壁固定在承载体上的固定器件分别穿过第一通孔和第二通孔；布置有从外侧面凹入底壁中的两个腔(26,28),在两个腔中分别设有将遥控器保持在接纳空间的磁体(10,11)。(The invention relates to a wall-hanging device (2) for holding a remote control (4) in a cylindrical receiving space (6) on a carrier body, comprising: a peripheral wall (12) at least partially surrounding a peripheral side of the receiving space; a bottom wall (14) adjoining the peripheral wall on the bottom side of the receiving space, the bottom wall having an inner side (16) facing the receiving space and an outer side (18) opposite the inner side; a placement opening (20) at a top side of the receiving space through which the remote control is placed into the receiving space; two through holes (22, 24) passing through the bottom wall, through which the fixing means for fixing the bottom wall to the carrier body pass respectively; two cavities (26, 28) recessed from the outer side into the bottom wall are arranged, in which cavities there are respectively provided magnets (10, 11) holding the remote control in the receiving space.)

1. Wall-hanging device (2), characterized in that it holds a remote control (4) in a cylindrical receiving space (6) on a carrier body and comprises:

a peripheral wall (12) at least partially surrounding a peripheral side of the receiving space (6);

a bottom wall (14) adjoining the peripheral wall (12) on a bottom side of the receiving space (6), the bottom wall comprising an inner side (16) facing the receiving space (6) and an outer side (18) opposite the inner side (16);

a placement opening (20) located at a top side of the receiving space (6) through which the remote control (4) is placed to the receiving space (6);

two through holes (22, 24) which pass through the bottom wall (14) and through which fixing elements for fixing the bottom wall (14) to a carrier body can pass, respectively; and

two cavities (26, 28) recessed from the outer side face (18) towards the bottom wall (14), in which cavities there are respectively provided magnets (10, 11) retaining the remote control (4) in the receiving space (6).

2. Wall hanging device (2) according to claim 1, characterized in that said magnets (10, 11) are held in a form-fitting manner in the respective cavities (26, 28).

3. Wall hanging device (2) according to claim 2, characterized in that in each cavity (26, 28) a ring member (30) is arranged to fit the magnets to the shape of the two cavities, the ring member being spaced from the wall (34) of the respective cavity (26, 28) by a distance (32), in which ring member the respective magnet (10, 11) is held.

4. Wall hanging device (2) according to any of the preceding claims, characterized in that between the two through holes (22, 24) a further cavity (36) is formed.

5. Wall hanging device (2) according to any of the preceding claims, characterized in that the cavity (26, 28, 36) is surrounded by a surrounding annular wall (38) extending from the bottom wall (14) to the receiving space (6).

6. Wall hanging device (2) according to claim 5, characterized in that the circumferential wall (38) has a larger dimension (40) than the cavity (26, 28, 36) as seen from the bottom wall (12), so that the circumferential wall (38) defines a mounting space (42) above the cavity (26, 28, 36) to which the cover part (44) is mounted.

7. Wall hanging device (2) according to any of the preceding claims, characterized in that it comprises a support rib (46) extending on the bottom wall (12) to the receiving space (6), which support rib is provided on the bottom wall (14) at a height around the cavity (26, 28, 36), which support rib projects (40) with respect to the cavity (26, 28, 36), so that the remote control (4) can rest against the support rib (46).

8. Wall hanging device (2) according to claim 7, characterized in that it comprises stabilizing ribs (48, 50, 52) connecting the supporting ribs (46), with the peripheral wall (12) and/or with the circumferential wall (38) and/or with other supporting ribs.

9. Wall hanging device (2) according to any of the preceding claims, characterized in that it comprises an opening (54) between the bottom wall (14) and the peripheral wall (12) through which a tool can be passed to press the remote control out of the receiving space, the receiving opening preferably passing through the support rib (46).

10. A system (56) having a wall hanging device, the system comprising:

wall hanging device (2) according to any of the previous claims; and

a remote control (4) arranged in a receiving space (6) of the wall-hanging device (2), at which remote control a magnetizable element is held, such that the remote control (4) is held in the receiving space (6) by means of the magnets (10, 11) in the cavities (26, 28).

Technical Field

The invention relates to a wall-hanging device for holding a remote control on a carrier and a system having a wall-hanging device.

Background

US 6,975,223B 1 discloses a wall hanging device.

Disclosure of Invention

The invention aims to solve the technical problem of improving a wall hanging device.

The technical problem is solved by the features in the following aspects of the invention. The improvement is the subject of preferred features.

According to one aspect of the invention, a wall hanging device for holding a remote control in a cylindrical receiving space on a carrier body comprises: a peripheral wall at least partially surrounding a peripheral side of the receiving space; a bottom wall adjoining the peripheral wall on a bottom side of the receiving space, the bottom wall having an inner side facing the receiving space and an outer side opposite the inner side; a placement opening on a top side of the receiving space through which a remote control can be placed into the receiving space; the two through holes penetrate through the bottom wall, and fixing devices for fixing the bottom wall on the bearing body can respectively penetrate through the first through hole and the second through hole; two cavities recessed from the outer side into the bottom wall are arranged, in which cavities magnets are provided for holding the remote control in the receiving space, respectively.

The proposed wall hanging device is based on the following idea: remote controls for some devices tend to be operated stationary on the wall, and users only rarely remove them from the wall and operate the remote controls at other locations. Examples of such equipment include air conditioning equipment in hotels. The remote control is usually held in the wall-mounted device in a fixed position on the wall and there, for example, also operates a light switch. The remote control is actually removed only in special cases.

In the wall-mounted device described above, the remote controller is held in a basket-like device, but the basket partially covers the front side of the remote controller, and thus the entire front side is not used for operation in the case where the remote controller is held in the wall-mounted device. Alternatively, the remote control can also be held with hooks or other locking mechanisms, which however present technical difficulties, since the hooks are, for example, subjected to mechanical loads and can thus break.

The proposed wall-hanging device solves the problem of mechanical load due to the holding by means of magnetic force, so that the remote control can be taken out of the proposed wall-hanging device at will and often without appearance damage. Furthermore, by arranging the magnet in the base plate behind the receiving space, it is ensured that the magnet cannot be removed via the receiving space. This provides protection against theft, especially in hotels as described above.

In a further development of the proposed wall hanging device, the magnets are held in a form-fitting manner in the respective cavities. In this way, the magnet is immovably held in the cavity and does not cause noise when the remote controller is placed into the receiving space and the magnetic force between the magnet and the remote controller acts.

In a further development of the proposed wall hanging device, a ring element is arranged for form fit in each chamber, at a distance from the wall of the respective chamber, in which ring element the respective magnet is held. The ring-shaped element can be enlarged within a distance from the wall of the respective cavity, thereby providing a force fit in addition to a form fit, so that the magnet cannot easily fall out of the cavity, for example when mounting a wall-hanging device.

In a further development of the proposed wall-hanging device, a further cavity is formed between the two through-holes. The further cavity serves on the one hand for stabilization and on the other hand a further magnet can also be mounted in the cavity in order to increase the holding force for the remote control in the receiving space.

In a further development of the proposed wall-hanging device, the cavity is surrounded by a surrounding annular wall which projects from the bottom wall into the receiving space. The ring wall also improves the stability of the proposed wall hanging device and provides support for the chamber with magnets.

In a particular development of the proposed wall-hanging device, the annular wall is larger than the cavity, viewed from the bottom wall, so that the annular wall defines an installation space above the cavity, into which the cover part can be fitted. The cover can cover the fastening means, thereby reducing the risk of unauthorized removal (theft) of the wall-mounting device from the carrier.

In a further refinement, the wall-mounting device proposed comprises support ribs which project into the receiving space on the bottom wall and are arranged on the bottom wall at a height around the cavity, the support ribs projecting beyond the cavity so that the remote control can rest on the support ribs. The remote control held in the receiving space rests stably and without wobbling on the support ribs, so that the user can freely manipulate the key fields of the remote control without restriction.

In a further refinement, the wall-hanging device proposed comprises stabilizing ribs which connect the supporting ribs to the circumferential wall and/or to further supporting ribs. This protects the support ribs against deformation, so that the support ribs can be made thinner, even if the material of the support ribs is plastic.

In a further refinement, the wall-hanging device proposed comprises an opening between the bottom wall and the circumferential wall, through which opening a tool can be passed to press the remote control out of the receiving space. This makes it possible to remove the remote control from the proposed wall-mounted device in a simple manner.

In a preferred development of the proposed wall-mounting device, the receiving opening passes through the support rib, so that the tool can penetrate into the receiving space and a high leverage force can be applied when pressing out the remote control.

In a particularly preferred development, the wall-mounting device proposed is designed as an injection-molded part. In this case, the magnet is of course not contained in the injection-molded part, but is mounted in the cavity of the injection-molded part only after manufacture.

According to another aspect of the invention, a system with wall hanging means comprises one of the proposed wall hanging means and a remote control arranged in a receiving space of the device, the remote control having a magnetic housing, whereby a magnet in the cavity holds the remote control in the receiving space.

Drawings

The above features, characteristics and advantages of the present invention, and the manner and method of accomplishing the same, will become more apparent from the following description of embodiments, taken in conjunction with the accompanying drawings. Included in the drawings are the following figures.

Fig. 1 shows a perspective view of a wall hanging device.

Fig. 2 shows a bottom view of the wall hanging device of fig. 1.

Fig. 3 shows a base of the wall hanging device of fig. 1.

Fig. 4 shows the wall-hanging device of fig. 1 in an angle towards the receiving space, wherein the mounted cover is also shown.

Fig. 5 shows a system with the wall-hanging device of fig. 1, in which a remote control is placed.

Detailed Description

In the drawings, identical technical elements have identical reference numerals and are described only once. The figures are purely diagrammatic and not reproduced on a realistic geometric scale.

With reference to fig. 1 and 2, fig. 1 and 2 show, from different views, a wall-mounting device 2 for holding a remote control 4 shown in fig. 5 in a cylindrical receiving space 6 on a carrier body (not shown here). The carrier body can be, for example, a room wall, on which the wall-mounted device 2 is fastened, wherein a remote control 4 can be provided for controlling air-conditioning equipment or the like.

The wall hanging device 2 comprises a base body 8 shown in fig. 3, in which a first magnet 10 and a second magnet 11 are arranged in a manner to be described below. The "S" in the magnet of the drawings indicates: the south pole of the magnet is arranged to point out of the plane of the drawing. The base body 8 can be produced entirely as a molded workpiece, for example an injection molded part.

The base body 8 comprises a circumferential wall 12 which is arranged at least partially around a circumferential side (not further marked with a reference numeral) of the receiving space 6. Furthermore, the base body 8 comprises a bottom wall 14 adjoining the circumferential wall 12 at a bottom side (not further labeled) of the receiving space 6, which bottom wall has an inner side 16 facing the receiving space 6 and an outer side 18 opposite the inner side 16. Finally, the base body 8 comprises a placement opening 20 on the top side (not further marked with a reference numeral) of the receiving space 6, through which the remote control 4 can be placed into the receiving space 6 in the manner shown in fig. 5.

A first through hole 22 and a second through hole 24 are formed through the bottom wall 14 through which fixing means for fixing the bottom wall 14 to the carrier body can pass, respectively. The fixing means can be chosen arbitrarily, and screws are advantageously used as fixing means in general. The through- holes 22, 24 are designed as elongated holes, wherein the first through-hole 22 is perpendicular to the second through-hole 24. This makes it possible to calibrate the position of the base body 8 and thus of the wall hanging device 2 on the carrier in a known manner.

The through- openings 22, 24 are arranged in an imaginary line and are located between a first cavity 26 and a second cavity 28, which are recessed from the outside into the bottom wall 14 of the base body 8. The two chambers 26, 28 are arranged in mirror-symmetrical fashion to one another on the above-mentioned imaginary line through the two through- openings 22, 24. The first magnet 10 is arranged in the first chamber 26 and the second magnet 11 is arranged in the second chamber 28. If a corresponding magnetic counterpart element is arranged on the remote control 4, the two magnets 10, 11 hold the remote control 4 in the receiving space 6 by their magnetic force in the manner shown in fig. 5. The magnetic counter element can be, for example, a magnetizable metal housing.

The magnets 10, 11 are held in their respective cavities 26, 28 with a form fit. For this purpose, a ring 30 is arranged in each chamber 26, 28 at a distance 32 from a wall 34 of the respective chamber 26, 28. A magnet 10, 11 is held in each ring 30.

A further chamber 36 is formed between the two through- openings 22, 24, in which further chamber in principle a magnet can likewise be arranged. However, in the present exemplary embodiment, the additional chamber 36 is provided purely for reasons of stability.

The three chambers 26, 28, 36 are surrounded or encompassed by a surrounding annular wall 38 which projects from the bottom wall 14 into the receiving space 6. The annular wall 38 is here larger than the chambers 26, 28, 36, as seen from the bottom wall 14. That is, the annular wall 38 projects beyond the cavities 26, 28, 36 by an over-distance 40. Viewed from the inner side 16 of the bottom wall 14, the clearance 40 delimits or defines a mounting space 42 inside the chambers 26, 28, 36, in which a cover 44 shown in fig. 4 can be mounted.

Furthermore, the base body 8 of the wall hanging device 2 comprises a support rib 46, which support rib 46 is arranged on the inner side 16 of the bottom wall 14 and projects into the receiving space 6. The support ribs 46 surround the cavities 26, 28, 36 and the annular wall 38 and project from the cavities 26, 28, 36 at the same height as the over-distance 40. That is, the annular wall 38 and the support ribs 46 have the same height as viewed from the inner side 16 of the bottom wall 14. The average distance of the support ribs 46 from the circumferential wall 12 (no further reference numerals) is here a multiple smaller than the average distance from the chambers 26, 28, 36 and from the circumferential wall 28 (no further reference numerals). In this way, if the remote control is placed into the receiving space 6, the remote control rests stably against the support ribs 46.

For stabilization, the base body 8 of the wall-hanging device 2 also includes three different types of stabilizing ribs. Here, the first stabilizing rib 48 connects the support rib 46 with the peripheral wall 12. Of these first stabilizing ribs 48, not all have their own reference numerals in the figures for reasons of clarity. A second stabilizing rib 50 connects support rib 46 to annular wall 38. For reasons of clarity in the figures, not all second stabilizing ribs 50 likewise have their own reference numerals. Finally, a third stabilizing rib 52 connects the support ribs 46 to each other. For reasons of clarity in the figures, not all of the third stabilizing ribs 52 have their own reference numerals.

To enable the remote control 4 to be removed from the wall hanging device 2, the base 8 includes an opening 54 between the bottom wall 14 and the peripheral wall 12. A tool, not shown in further detail, for example in the form of a screwdriver, can be passed through the opening 54 and press the remote control 4 out of the receiving space 6. To this end, the edge of the opening 54 may serve as a fulcrum about which the tool rotates when pressed. By making the tool as deep as possible into the receiving space 6, the opening can be passed further through the support rib 46 and further optionally through the next third stabilizing rib 52.

Fig. 5 shows a system 56 comprising a wall-hanging device 2 and a remote control 4 placed into a receiving space 6 of the wall-hanging device 2.