DE102005003766A1 - Drive unit for pyramid e.g. Christmas pyramid, has two counter-rotating impellers, where one impeller is supported above pyramid sections in hanging position and another impeller is supported on pyramid base in supporting position - Google Patents

Abstract

The unit has two counter-rotating impellers (12, 14) arranged one above the other. One of the impellers is connected with pyramid sections (9, 10) by a hollow shaft (6). Another impeller is fastened on a central shaft (4), and is connected with the pyramid sections. One of the impeller is supported above the pyramid sections in a hanging position and another impeller is supported on a pyramid base in a supporting position.

Description

The The invention relates to a drive unit for pyramids, in particular Erzgebirge Christmas pyramids with a pyramidal frame with pyramidal base, one centrally stored pyramid shaft, arranged thereon impeller and a pyramidal plane or several rotating and or standing Pyramidal levels on which design elements (in particular Figures, decoration elements and groups of figures) are arranged, different size and construction for Christmas decoration purposes.

Ore Christmas pyramids are usually made of wood and are considered as fretwork and / or Drechselarbeiten and / or carvings made. It however, are also plastic, glass or metal versions well known, there are also especially Erzgebirge pyramids these materials, these are primarily intended for outdoor installation.

Of the Internal drive is traditionally realized via impellers, which are characterized by rising warm Air, by means of a certain number spatially distributed burning Candles is produced. The drive unit for pyramids is one at the top guided and below stored pyramid wave with the one in one direction rotating impeller connected, known. Such impellers consist of a wing hub in which either inclined Slits are arranged in a certain angle in which the pyramid wings be inserted, or a hub, in evenly distributed on a plane Holes are introduced and the pyramid wings by means of conical pins be plugged in. This second solution has the advantage that the individual wings the impeller adjust their angle of attack, causing the rotational speed can be regulated. The hub is on a centrally located Wave attached, at the one or more superimposed pyramid levels are arranged. The axis is at the bottom of the pyramid foot on one Pyramid camp with as possible stored low friction resistance. Become a pyramid camp primarily concave arched Glass or ceramic bearings used. Immediately below the wing hub the axis is further held in a pyramidal frame and guided.

It however, are also newer versions, especially for versions with several rotating pyramid levels known where the drive additionally or primarily or alone hidden arranged electromotive drives takes place. Also for larger pyramids from about one meter height or which are equipped with relatively heavy figures are increasingly electric drives used to generate the rotational movement.

For completely different application areas and applications for other tasks are already opposite but horizontally acting windmills known. On the one hand, such solutions are described in the field of wind power generation. Another application is from the DE 297 10 575 U1 seen. In this technical solution, a double wind turbine is described for decorative and play purposes, in which two mutually independently mounted wind turbines, which are provided with a plurality of airfoils, are rotatable by an opposite orientation of the airfoils in opposite directions of rotation. This solution is intended to create a new visual appeal for the viewer. However, such solutions are not suitable for pyramids in this way.

task The invention is a drive unit for Erzgebirge pyramids to create an opposite one Movement of individual Pyramidenebenen allows and thus one new movement for Figures, decorative elements and groups of figures creates and new achieved interesting visual effects for the viewer.

The solution This object is the subject of the disclosed in the independent claims Invention. Further expedient embodiments The invention are the subject of the dependent claims.

According to the invention, at least two counter-rotating impellers are arranged one above the other as a drive unit in the novel pyramid, which consists of pyramid frame, centrally arranged shaft including shaft bearings and pyramidal plane or planes connected to the shaft. In this case, at least one impeller is connected via a mounted hollow shaft with one or more Pyramidenebenen. Another impeller mounted on a centrally located shaft may optionally be idle or connected to one or more other pyramidal planes or the pyramidal root. In a new kind and whiteness, at least one impeller is mounted in a hanging position at the top, that is to say its weight is transmitted to the pyramid frame via an upper bearing arranged in the pyramid head. Another other impeller is guided in a supporting position on a lower pyramid level. This can also be stored in the foot of the pyramid frame below. This results in a completely new optical effect on Erzgebirge pyramids. In the context of air heating, spatially distributed candles is generated by the opposite movement of the wings of the superimposed impellers an interesting shadow play in the installation space of the pyramid in dependence on the existing lighting conditions. In contrast to the usual in pyramids only possible movement direction of a, or if arranged, several pyramid levels, it is possible for the first time by the invention to rotate different pyramid levels in the opposite direction. As the heated rising air passes through the vanes of the lower impeller, the flow rate is increased, causing the upper impeller to spin faster. By adjusting the angle of attack of the individual wings, an individual tuning of the speeds of the impellers and the pyramidal planes connected therewith can then be carried out without problems.

at several opposing, stacked Wheels, is it is advantageous if in each case the superposed hollow shafts of Drive unit provided at the bottom with other special bearings are, with the bearings are always on the next hollow shaft support.

In another very special embodiment of the drive unit for one Pyramid can still exist between the counter rotating impellers arranged a standing or rotating pyramidal plane be. Here is also the possibility given a pyramid with three not directly on top of each other train arranged impellers, again, the two upper impellers are arranged directly above each other can, while the third impeller spaced apart from the others and also with additional bracing connected to the pyramid frame and can be stored. This conditionally also a special ring-like storage of this impeller but is structurally relatively complex. The construction method described can also be varied here.

Advantageous in the execution as a hanging pyramid with two opposing ones Wheels is it if a hollow shaft is down in the pyramidal foot or in a pyramidal level or supported on a ring bearing. The hanging pyramid is suspended from the central shaft. This version also requires an elevated one Production cost and is more likely for Special designs suitable.

In another version the drive unit according to the invention is additional to the central shaft of the pyramid one or more supported and guided secondary drive shafts parallel or oblique arranged to the centrally located shaft in the pyramid frame. These Pyramid also exists, as known from Pyramidenfuß, pyramid frame with impeller, centrally arranged shaft including shaft bearing and with the Wave connected pyramidal plane or planes. In a suitable place, d. H. preferably in the pyramid head part, the secondary drive shafts are suitable Slip clutches, drive belts, spur gears or helical gears gears rotatably connected suitable dimensioning. By means of this secondary wave or more secondary waves can if required, different pyramid levels are driven, this then rotatably mounted separately and mechanically from the Central shaft must be arranged decoupled. By arranging a Zwischenritzels at a suitable location can thus also a opposing Direction of rotation of different pyramid levels done. Another Advantage of this solution is that you can have any number of different ones Can drive pyramidal levels. In addition, depending on the reduction the arranged, each selected for torque transmission, slip clutches, Drive belt spur gears, helical gears and / or Intermediate pinion with both the central shaft and / or one or several pyramidal planes are connected.

Prefers are the parallel or oblique to the centrally arranged shaft arranged secondary drive shaft or secondary drive shafts concealed in the pyramid frame. So they can z. B. inside a laterally outside vertical or oblique arranged through pyramid strut, a secondary shaft including their bearings be rotatable.

at several mutually decoupled Pyramidenebenen, which also are to turn in opposite directions, are inevitably a corresponding Variety of bearings and couplings with the two or more Drive shafts required. Here can be significant friction losses arise and it is then advantageous that the parallel or oblique to the central arranged shaft arranged secondary drive shaft or secondary drive shafts in the pyramid frame with one or more electromotive drives connected and driven by them.

The Invention will be explained in more detail below in two embodiments.

1 shows in section the basic structure of a drive unit according to the invention of a pyramid with two counter-rotating impellers 12 and 14

2 shows the basic structure of a drive unit according to the invention of a pyramid with three opposing impellers arranged one above the other 12 . 14 . 16

At the novel pyramid after 1 The drive of the pyramid with the two opposing, superimposed impellers takes place 12 and 14 Each one is extra about the waves 6 and 4 with the two pyramid levels 10 and 9 are connected. The pyramid frame 1 is held together by means of the pyramidal foot 3 and the pyramid head 2 , On the pyramid foot 3 are the required number of candleholders 15 arranged at suitable locations. In the middle of the pyramid foot 3 is the footrest 5 which is used both for storage of the central shaft 4 as well as to load support all firmly with the central shaft 4 connected parts of the pyramid is used. Down on the central shaft 4 is a pyramidal plate that is the first pyramidal plane 9 forms arranged. On the pyramid plates are then various design elements (especially figures, decorative elements and groups of figures), various sizes and design for Christmas decoration purposes optional arbitrarily arranged.

At the top of the central shaft 4 is a wing hub for the upper impeller 13 attached. The upper z. B. levorotatory impeller 14 consists of the upper wing blades, which are fixed with pins in the wing hub (stylized in the drawing) in a known construction. The blades are viewed from the side, rising from bottom right to top left, obliquely mounted in the hub. Due to the rising warm air is the upper impeller 14 moved to the right, ie the wing hub of the upper impeller 13 including the central shaft 4 and the pyramid plates mounted thereon turn to the left, thus turning to the left this previously described arrangement corresponds to the usual construction of an ore-pyramidal pyramid.

According to the invention but over the central shaft 4 another hollow shaft 6 arranged. In this hollow shaft 6 is a hollow shaft bearing at the top inside 7 arranged in which the central shaft 4 is mounted rotatably with low friction. This hollow shaft 6 is outside in the head warehouse 8th stored and guided with low friction. This head camp 8th furthermore takes over the load transfer into the pyramid head 2 , This load is essentially determined by the total weight of all parts connected to the hollow shaft. Above on the outside of the hollow shaft 6 is the wing hub of the lower impeller 11 firmly arranged. At her wing blades are on suitable pins of the lower impeller 12 attached. These blades are viewed from the side from the bottom left to the top right obliquely mounted, ie the lower impeller 12 is clockwise. This also turns with the hollow shaft 6 firmly connected second pyramidal plane 10 the other way around than the lower first pyramid level 9 , Due to this drive solution, which is completely new in the case of the Erzgebirge pyramids, a new optical effect which has so far not been achievable in this way is realized. By adjusting the angle of attack of the individual blades then an individual vote of the velocities of the vanes and the associated Pyramidenebenen can be made without problems. A reversal of rotation is also adjustable by simply turning the blades in the opposite direction. It makes sense in the hollow shaft 6 inside, to arrange another camp below in the area of the attached pyramid plate (in 1 not drawn) which causes a total quieter run of the impeller.

In 2 is a pyramid according to the invention with three opposing impellers arranged one above the other 12 . 14 and 16 shown. The drive solution is almost identical. Above the inner hollow shaft 6.1 (corresponds to the hollow shaft 6 according to 1 ) is another hollow shaft 6.2 arranged. The inner hollow shaft 6.1 with the second pyramid level 10 is over the outer hollow shaft bearing 7.2 in the outer hollow shaft 6.2 stored and guided. The head camp 8th Therefore, not only stores the outer hollow shaft 6.2 but also carries the entire load resulting from the total weight of all the two hollow shafts 6.1 and 6.2 arranged parts results over the pyramid head 2 into the pyramid frame 1 from. At the lowermost end of the third shaft, the hollow shaft 6.2 , is the top third pyramid level 18 attached as a pyramid plate. At the top of the outer hollow shaft at the top 6.2 is the wing hub of the third impeller 17 attached. The third impeller 16 is like the upper impeller 14 formed left-handed. The direction of rotation of the impellers 12 . 14 . 16 but can be varied with each other arbitrarily by adjusting the individual blades, which can be set different directions of rotation and rotational speeds of the three pyramidal levels. While the inner hollow shaft bearing 7.1 , which only for guiding the inner shaft 4 serves, and the outer hollow shaft bearing 7.2 a common bearing can be, it makes sense, especially as a head bearing to use a special bearing with low friction, which largely minimizes the friction caused by the axially acting load largely. It can also be arranged two different bearings at this point. Decisive for this is the size of the axial load. It also makes sense at the lower ends of the hollow shafts 6.1 and 6.2 each to realize a radial bearing.

1

pyramid frame

2

pyramid head

3

pyramid base

4

headquarters wave

5

step bearing

6

hollow shaft

6.1

inner hollow shaft

6.2

outer hollow shaft

7

Hollow shaft bearings

7.1

inner Hollow shaft bearings

7.2

outer hollow shaft bearing

8th

head bearing

9

first pyramid level

10

second pyramid level

11

blade hub lower impeller

12

lower impeller clockwise

13

blade hub upper impeller

14

upper impeller left-handed

15

candlestick

16

third impeller left-handed

17

blade hub third impeller

18

third pyramid level

Claims (7)

Drive unit for pyramid, consisting of pyramid frame with impeller, centrally arranged shaft including shaft bearing and connected to the shaft pyramidal plane or planes, characterized in that at least two counter-rotating impellers are arranged one above the other, at least one impeller via at least one mounted hollow shaft with one or more pyramidal planes is connected and another impeller, which is mounted on a centrally disposed shaft, runs along with empty or is connected to one or more other Pyramidenebenen, wherein at least one impeller is mounted in a hanging position at the top and an impeller in a supporting position on a lower pyramidal level or pyramid stored below. Drive unit for Pyramid, according to claim 1, characterized in that at several opposing Wheels respectively the one above the other arranged hollow shafts at the bottom with other special Bearings are provided. Drive unit for Pyramid, according to claim 1, characterized in that between the wing wheels respectively a standing or rotating pyramidal plane is arranged. Drive unit for Pyramid, according to claim 2, characterized in that at a hanging pyramid at least one hollow shaft down in the pyramid or in a Pyramidenebene supported on a ring bearing. Drive unit for Pyramid, consisting of pyramid frame with impeller, centrally arranged shaft including Shaft bearings and pyramidal plane or planes connected to the shaft, characterized in that additionally to the central shaft one or more supported and guided secondary drive shafts parallel or oblique are arranged to centrally arranged shaft in the pyramid frame and over suitable friction clutches, drive belts, spur gears, helical gears gears and / or intermediate pinion of suitable dimensioning both with the central wave and / or one or more pyramidal planes are connected. Drive unit for Pyramid, according to claim 4, characterized in that the parallel or at an angle to the centrally arranged shaft arranged secondary drive shaft (s) are concealed in the pyramid frame. Drive unit for Pyramid according to claim 4 and 5, characterized in that the parallel or oblique to the centrally arranged shaft arranged secondary drive shaft or secondary drive shafts in the pyramid frame with one or more electromotive drives are connected.