DE202013003223U1 - pyramid - Google Patents

Abstract

Pyramid (1, 1 ') with at least one frame element (4, 5), with at least one spindle axis (9), which in the at least one frame element (4, 5) of a lower bearing (7) and an upper bearing (8) is rotatably mounted, and with an attached to the spindle axis (9) impeller (2) which is formed by opposite the spindle axis (9) in a blade angle (β) aligned blades (3) for the spindle axis (9) at a Moving air flow through the impeller (2) in a rotational movement, characterized in that the spindle axis (9) at an angle (α) to the vertical is arranged.

Description

The invention relates to a pyramid with at least one frame element, with at least one spindle axis, which is rotatably mounted in the at least one frame member of a lower bearing and an upper bearing, and with an attached to the spindle axis impeller, by the opposite to the spindle axis in a wing angle aligned fan blades is adapted to enable the spindle axis in an air flow through the impeller in a rotational movement.

A decoration of residential and business premises with event-related decorative items is common practice. In Advent and Christmas preferably artisanal products from the Erzgebirge be used for this purpose, eg. As nutcrackers, smokers, Schwibbögen or pyramids. Erzgebirge Christmas pyramids, for example, from DE 298 09 735 U1 are known to be predominantly designed as a stand-up pyramids, ie, they are placed on a base. Likewise, Erzgebirge Christmas pyramids can be designed as wall pyramids or as hanging pyramids, the latter constructions being hung on a ceiling and also referred to as "light spider". Out GDR GM 3769 Pyramids suspended from a wall are also known, in which axes of rotation of the pyramids hang on doubly pivoting joints.

Standpyramids in the prior art regularly have a large footprint with a good stability and a rotatable in an axis of symmetry of the pyramid, vertical spindle axis, wherein the eponymous pyramid shape is formed by a taper from bottom to top to a pyramid tip out. The pyramid is composed of a fixed frame and a spindle rotatable in the frame about the spindle axis. The decorative effect of the pyramids is achieved by elaborate designs of the frame and / or the spindle. About the pyramid tip regularly associated with the spindle axis impeller is arranged. Pendant and wall pyramids are inspired by the stand pyramids.

A variety of pyramids are known in the art. Manufacturers and, for example, collectors face the difficult task of finding alternative pyramids that are functionally and creatively differentiated from the state of the art. In small rooms, narrow aisles and narrow furniture, the state-of-the-art floor and wall pyramids can not be used in part because of their large space requirement, for example because the furniture surface is needed as a storage area for other objects. A disadvantage of wall pyramids compared to centrally located in standing room pyramids is a less decorative shadow play on the ceiling, as the decentralized placed in the room impeller is only partially projected by candles or other bulbs to the ceiling.

It is therefore the object of the invention to propose a contrasting from known pyramids alternative, which also offers as possible with a small footprint and with improved shadow play in a placement of the pyramid on a wall.

The object is achieved by a pyramid of the type defined above, which is characterized in that the spindle axis is arranged at an angle to the vertical.

In the pyramid according to the invention, the spindle axis is arranged not inclined vertically but obliquely in the angle of the spindle axis with respect to a vertical line, wherein the spindle is held by a frame element or a plurality of frame elements. At least in standing pyramids, the at least one frame element forms a frame. The lower end of the spindle axis is located in the vicinity of a frame outside, so that the lower end of the spindle axis can be arranged in the vicinity of a wall and therefore occupied in front of the spindle axis by the pyramid no footprint. As a result, the space requirement of the pyramid according to the invention over the prior art is reduced. The visual impression shows the tip of the conical spindle in the pyramid according to the invention down.

In the prior art, there is the prejudice that the spindle axis must be perpendicular for error-free operation of the pyramid. In particular, in the upper bearing occur in inclined position of the spindle axis using conventional bearings commonly used in the art, such as simple holes in wood or sheet increased friction forces, which hinder the rotation of the spindle axis or even completely prevent. In the pyramid according to the invention, however, the spindle axis is mounted in low-friction bearings, so that the spindle axis can rotate almost frictionless despite their skew.

In an embodiment of the pyramid according to the invention as a standing pyramid, the realization of a small footprint is expensive. Options for ensuring the required stability are, for example, supports, weights and attachments to the substrate.

In a preferred embodiment, the pyramid of the invention is a wall pyramid, wherein a frame outside of the at least one frame member is provided on a wall, and an upper distance of the upper bearing from the frame outside has a different length than a lower distance of the lower bearing from the frame outside. In a wall pyramid, the frame outside of the at least one frame member is provided on a wall, and by the different lengths of the upper distance and the lower distance from the wall, the angle of the spindle axis is adjusted with respect to the vertical wall.

Particularly preferably, the upper distance of the upper bearing from the frame outside is greater than a lower distance of the lower bearing from the frame outside. The greater upper clearance in this embodiment provides freedom of movement for the impeller mounted at the upper end of the spindle axis, the radius of which determines the smallest possible upper distance of an upper bearing of the spindle axis from the wall. Due to the small lower distance, the lower dimensions of the pyramid are small overall. Provided that light sources, for example candles, are also arranged at a small distance from the wall, which is preferably smaller than or equal to the lower distance, the oblique position of the spindle axis results in a decorative projection of a shadow of the impeller against the ceiling , wherein in particular the fulcrums of the shadows depict decorative on the surface of the ceiling.

In advantageous embodiments, the lower bearing and / or the upper bearing is oriented in the angle of the spindle axis in the frame element in the pyramid according to the invention. That is, at least one of the bearings of the spindle axis is aligned with the spindle axis, so that the spindle axis is guided circumferentially canting through the bearing and thereby minimal friction forces occur. The need for alignment depends on the type of bearing used. The upper bearing is a radial bearing receiving the resulting radial forces from the inclined position of the spindle axis with a hollow cylindrical receptacle for the spindle axis to be supported. In this bearing, the inner diameter of the hollow cylindrical receptacle and the outer diameter of the mounted shaft are substantially equal. A proper mounting of the bearing requires a concentric alignment with the spindle axis of the bearing in the angle of the spindle axis.

The lower bearing has primarily the function of a thrust bearing. Thrust bearings are also referred to as thrust bearings. If the bearing in the axial bearing takes place one-dimensionally, for example as a point or as a ball in a concave bearing shell, an alignment of the bearing with the spindle axis is dispensable. However, if a force input is provided in the axial bearing two-dimensionally, for example along a circular line or a circular surface, the axial bearing should also be aligned at the same angle of the spindle axis.

In preferred embodiments, the bearing is a plain bearing or a ball bearing. Plain bearings and ball bearings are inexpensive standard components that are manufactured in different sizes and materials and that are available for pyramids of different sizes and weights. Plain bearings are typically formed as hollow cylindrical sleeves for radial bearings and, for example, annular for axial bearings. Ball bearings are designed as radial bearings or thrust bearings or as Radialaxiallager, for example as a grooved rolling bearing. In principle, the choice of bearings is not limited to plain and ball bearings. Particularly in the case of smaller pyramids, a simple bearing consisting of a concave bearing shell and a blunt tip of the spindle axis in the bearing shell is preferably used as the lower bearing. The bearing shell is curved, for example, spherically concave and consists for example of glass or ceramic or metal. In a pyramid according to the invention, such a simple thrust bearing is preferably surrounded by a border, wherein the border prevents the spindle axis from jumping out of the bearing shell when external forces act on the spindle.

In an advantageous embodiment of the pyramid according to the invention, planar wings of the impeller are arranged in a fixed wing angle with respect to planes in which the spindle axis lies. Via the vane angle, which is also referred to as an angle of attack or as an inclination of the vanes, ascending air is deflected on the vane blades, whereby a torque is exerted on the vane vanes and thereby the vane wheel is set into rotary motion. When adjusting the wing angle, there is an aerodynamic optimum in which, given a flow of air, an optimum speed is achieved. The size of the optimal wing angle depends on the strength of the air flow.

In the case of the pyramid according to the invention, it has been shown that the possible adjustment range of the wing angle is smaller due to the oblique spindle axis than in the case of conventional pyramids with vertical spindle axes. It has therefore proved to be beneficial not to make the wing angle adjustable, but to adjust it firmly. Advantageously, the blade angle is 30 ° to 60 °, for example 45 °, large.

In a material-saving embodiment, the pyramid according to the invention has a lower frame member and an upper frame member, wherein it is provided that the lower frame member and the upper frame member are mutually aligned fixed to a wall. In this variant, the pyramid instead of a complete frame only an upper and a lower frame member, while the wall takes over the function of the connection of the upper and the lower frame member. The frame and the frame elements are usually crafted from wood and / or metal designed components. On the one hand, these pyramids, which are designed to save on material, can be produced relatively simply and cost-effectively; on the other hand, the assembly is more complicated since the upper frame element and the lower frame element have to be mounted separately and aligned with one another. A non-technical advantage of the two-part spindle mount with two frame elements is the light and elegant impression of the pyramids thus constructed.

In a preferred embodiment, the pyramid according to the invention has at least two plate-shaped, concentrically mounted on the spindle axis platforms, wherein the diameter of the platforms from bottom to top increases such that a contour of the spindle, which is formed by imaginary connecting lines between the platforms, on a steepest side of the contour is vertical. In a wall pyramid, the vertical side of the contour is provided parallel to the wall. The diameter of the impeller is preferably chosen so large that the contour of the spindle formed by the platforms and the impeller is conical. Such an impeller is smaller than usual in the prior art. A sufficiently large air flow through the relatively small impeller is made possible by open platforms and an air flow through the broken platforms. For example, the apertures in the platforms may be latticed or embellished in the design of the pyramid. In other embodiments, open platforms are combined with large impellers or conical contours are realized with full-surface platforms and a motorized spindle drive.

In a development, the pyramid according to the invention has at least one gear element fastened to the frame element and coupled to the spindle axis and to the design element. The use of low-friction bearings not only allows the skew of the spindle axis. The small drive energy that can be used in the pyramid, which effects the rotation, can be utilized to obtain still further new motion effects, for example, for generating a rotation of design elements that is opposite to the spindle axis. Technically, transmission elements, for example an arrangement of three toothed wheels, are required to transfer a movement into another movement. The transmission elements for generating relative movements between different design elements require support, for example on the frame element. In other developments, the pyramid has at least one motor for driving the spindle or other movable elements.

The present invention will be illustrated below with reference to figures, wherein

1 an embodiment of a pyramid according to the invention,

2 different angles of spindle positions, and

3 shows a further embodiment of a pyramid according to the invention.

1 schematically shows an embodiment of a pyramid according to the invention 1 in a side view. In the side view is good the inclination of a spindle axis 9 at an angle α with respect to a vertical wall 6 to recognize. The angle α results from a lower distance a of a lower bearing 7 from the wall 6 , a distance b of an upper bearing 8th from the wall 6 and from the distance between the lower bearing 7 and the upper camp 8th , In the illustrated embodiment are about the spindle axis 9 around design elements 10 arranged in Wilhelminian style with the formation of a balloon-shaped spindle. The design elements 10 can be made with wood fretwork, with plastic or metal casting technology, or with other technology.

At the upper end of the spindle axis 9 is an impeller 2 fastened, which has a plurality of planar, radial with respect to the spindle axis 9 arranged wing blades 3 having. The wings 3 are, as can be seen on the middle illustrated blade, in a wing angle β with respect to the spindle axis 9 inclined. Due to the inclination of the blades 3 learns through the impeller 2 flowing airflow a deflection and the impeller 2 and the spindle axis 9 experience a torque. The source of the airflow is not shown since different sources may be provided. The air flow is, for example, set up in sconces candles, from a radiator or on not shown candle holders of the pyramid 1 produced standing candles.

The spindle axis 9 is in a lower camp 7 and in an upper camp 8th friction stored, so that at the spindle axis 9 applied torque causes a rotation. The lower camp 7 is in the illustrated embodiment, a concave bearing shell, of a lower frame member 5 will be carried. The upper bearing 8th on the other hand is a plain bearing, which on an upper frame member 4 is attached. The upper and the lower frame element are with outer edges 12 the frame elements 4 . 5 on the wall 6 attached and aligned with each other in a line that the upper bearing 8th and the spindle axis 9 and the lower camp 7 aligned. In other embodiments, not shown, the pyramid has a single frame member, which serves for attachment to the wall and the receptacle of the upper bearing and the receptacles of the lower bearing on.

2 shows in addition to 1 in that the angle α, α1, α2 can be of different sizes in different embodiments of pyramids. To illustrate the different angles α, α1, α2, a plurality of spindles located at different angles α, α1, α2 are shown schematically above one another.

3 shows a pyramid 1' that technically the in 1 described pyramid 1 is very similar, but its spindle is different from the pyramid 1 in 1 Christmas design elements 11 having. In the illustrated Christmas design elements 11 These are Angels standing on two platforms.

In a development of this pyramid, not shown 1' the upper platform is rotatable on the spindle axis 9 stored and one on the upper frame member 4 rotatably mounted gear engages in a toothing of the upper platform. As a result, the upper platform rotates counter to the impeller 2 and to the lower platform.

Beyond the described embodiments, there are a variety of unillustrated modifications and embodiments of the invention that one skilled in the art can make on the basis of his skill in the art. The described optional design features are contained in embodiments of the pyramid according to the invention alone or combined with each other.

LIST OF REFERENCE NUMBERS

1

pyramid

1'

pyramid

2

impeller

3

wing

4

Upper frame element

5

lower frame element

6

wall

7

lower camp

8th

upper bearing

9

spindle axis

10

Wilhelminian style design element

11

Christmas design elements

12

Frame outside

a

lower distance

b

upper distance

α

Angle of the spindle axis

β

wing angle

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 29809735 U1 [0002]
• DD 3769 U [0002]

Claims (11)

Pyramid ( 1 . 1' ) with at least one frame element ( 4 . 5 ), with at least one spindle axis ( 9 ), which in the at least one frame element ( 4 . 5 ) from a lower bearing ( 7 ) and an upper bearing ( 8th ) is rotatably mounted, and with one on the spindle axis ( 9 ) attached impeller ( 2 ), which is opposite to the spindle axis ( 9 ) in a wing angle (β) aligned wing blades ( 3 ) is adapted to the spindle axis ( 9 ) with an air flow through the impeller ( 2 ) in a rotational movement, characterized in that the spindle axis ( 9 ) is arranged at an angle (α) to the vertical. Pyramid ( 1 . 1' ) according to claim 1, characterized in that the pyramid is a wall pyramid, wherein a frame outside ( 12 ) of the at least one frame element ( 4 . 5 ) on a wall ( 6 ), and wherein an upper distance (b) of the upper bearing ( 8th ) from the frame outside ( 12 ) a length other than a lower distance (a) of the lower bearing ( 7 ) from the frame outside ( 12 ) Has. Pyramid ( 1 . 1' ) according to claim 2, characterized in that the pyramid ( 1 . 1' ) a lower frame element ( 5 ) and an upper frame element ( 4 ), wherein it is provided that the lower frame element ( 5 ) and the upper frame element ( 4 ) aligned with each other on a wall ( 6 ), that the upper bearing ( 8th ) and the spindle axis ( 9 ) and the lower bearing ( 7 ) are aligned. Pyramid ( 1 . 1' ) according to claim 1, characterized in that the lower bearing ( 7 ) and / or the upper bearing ( 8th ) at the angle (α) of the spindle axis in the frame element ( 4 . 5 ) is oriented. Pyramid ( 1 . 1' ) according to claim 1, characterized in that the bearing ( 7 . 8th ) is a plain bearing or a ball bearing. Pyramid ( 1 . 1' ) according to claim 1, characterized in that the lower bearing ( 7 ) has a concave bearing shell surrounded by a border. Pyramid ( 1 . 1' ) according to claim 1, characterized in that flat wings ( 3 ) of the impeller ( 2 ) in a fixed wing angle (β) with respect to the spindle axis ( 9 ) are arranged parallel straight lines. Pyramid ( 1 . 1' ) according to claim 7, characterized in that the blade angle (β) is 30 ° to 60 °. Pyramid ( 1 . 1' ) according to claim 1, characterized in that the pyramid ( 1 . 1' ) dish-shaped, concentrically mounted on the spindle axis, has perforated platforms, wherein the diameters of the platforms and the impeller from bottom to top increase such that a conical contour of the spindle, which is formed by imaginary lines connecting the platforms and the impeller on a steepest side of the contour is vertical. Pyramid ( 1 . 1' ) according to claim 1, characterized in that the pyramid ( 1 . 1' ) at least one on the frame element ( 4 . 5 ) and with the spindle axis ( 9 ) and with a design element ( 10 . 11 ) has coupled transmission element. Pyramid ( 1 . 1' ) according to claim 10, characterized in that the design element has a Gründerzeit design, a Gothic design or a Christmas design.

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