DE946671C - Fan for incubators to generate pulsating air currents - Google Patents

Description

ISSUED AUGUST 2, 1956

P 10570 III 1.45h

The invention relates to a fan for incubators for generating pulsating air currents, which also serves to heat the incubator with warm air.

Larger incubators are usually heated electrically and have a device for adding and evacuation of the air. It is also already known to circulate the air in the incubator. The experience has shown, however, that the air in the incubator pulsates as much as possible for a good result, d. H. should flow back and forth. Pulsating air works better than air that is constantly flowing in the same direction Air. A wide variety of fans and the like have already been developed to move the air and partly used together with baffles and passage channels. So z. B. a fan with The direction of rotation of the air blades rotating around a central shaft is reversed periodically. the known arrangements require a difficult drive, do not work evenly enough ao and therefore do not meet all requirements. Complicated baffles also increase the Incubator cost.

The fan, which also consists of air blades rotating around a central shaft, according to the The invention can now be used both as a fan and for heating the incubator. The invention consists in the fact that the number of blades is even and each blade opposite that in the direction of rotation leading blade at a certain, preferably the same angle, but with alternating Direction of conveyance is rotated so that

the airflow pulsates. This wing design leaves the air in a suitable for incubators Vibrate way vigorously without having to use special baffle plates or guide channels or a periodic reversal of the direction of rotation is required. With the pulse generator after the. Invention can be gently push the air in and out of the egg hollows. This avoids local temperature jumps. The incubator is evenly ventilated and heated over its entire contents. the of those only conveying in one direction of flow Fans are known to have more powerful blasts of air or trains that blow the eggs on only one side are avoided in the invention. With the Pulse generator according to the invention, it is possible for the first time, all eggs in the incubator evenly on all sides, Effective and economical to brush with gently breathing air.

The pulse generator according to the invention is extremely simple; its production costs are therefore at excellent effect and long service life very little

The drawing shows an embodiment for the invention. It shows

Fig. R a diagram of the pulse generator in the incubator seen from the inside of the incubator,

Fig. 2 is a section along the line AB of Fig.i,

3 shows a section through the end face of the incubator with the pulse generator and the egg troughs; Fig. 4 is a schematic sketch of the from

Pulse generators generate air currents, namely the circular currents, as long as the speed is not yet accurate is matched;

Fig. 5 shows the result of the individual blades the different inclinations generated partial air flows in detail;

6 shows the superimposition of the air flows according to FIGS. 4 and 5 and the air pulsation achieved thereby at the correct speed.

According to Fig. 1, the fan sits on the wall 10 of a chamber 11 of the incubator. His Shaft 12 is mounted in plate 13. The plate 13 is fastened to the end wall 10 of the chamber 11 with bolts and nuts 14. The shaft 12 carries a wheel disk 15, designed as a belt pulley, of the hub 16, spokes 17 and the rim 18. An all spokes 17 are two angles 19, 20 with the Legs 21, 22 attached. The angles 19, 20 are on each spoke 17 parallel to one another. However, each pair of angles 19, 20 is opposite to the Angle pair attached to the next spoke 17 offset in opposite directions. On the legs 21, 22 the angle pairs are then in the example a total of four air blades 23, 24, 25, 26 made of sheet metal or the like. attached. The air blades 23, 24, 25, 26 are stiffened by folding flanges 27, 28. The surfaces of the blades of aligned spokes 17 are therefore always mutually aligned same angle, but tilted opposite to each other. Fig. 1 shows this clearly. there is z. B. the vertical blade 23 canted to the left outside and is thereby angled to the vertical plane through the pulse generator axis. That too vertical blade 25, however, is on its spoke 17 to the right outside of the vertical plane tilted by the pulse generator axis. Likewise are the horizontal blades 24 and 26 mutually canted, so that the signs of the angle of inclination from blade to blade in each case switch.

The blades 23, 24, 25, 26 are inherently flat. They sit firmly on the spokes 17 of the wheel disk 15, which also serves as a belt pulley and which can be rotated on a shaft with the axis xx '. The radial blades 23, 24, 25, 26 rotate about the axis x-x '. The blade axis of rotation can now be imagined to be extended so far in front of and behind the blades that it extends at least from point χ to point x ' in FIG. Each blade then has a longitudinal center axis 29 located in the middle between the surface sides. The longitudinal center axes 29 of all blades 23, 24, 25, 26 lie in a common plane parallel to this on one side of the plane of the wheel disk 14.

A pulley 30 drives the pulse generator via belt 32. · The drive speed depends on the amount of air to be conveyed and is set according to experience. Of course the size of the pulse generator depends on the size of the incubator. If the pulse generator runs, then the blades 23, 24, 25, 26 give the air in the incubator a pulsating movement with constant change of direction. The frequency is determined by the blade speed.

The drawing also shows the installation of the pulse generator in an incubator. The incubator has a wall 10, a side wall 33 and ceiling and floor 34 and 35. In the side wall 33 is a Door 36 is provided. You can also make the entire side wall 33 removable, the pulse generator is attached to the wall 10. The motor for driving the pulley 30 can be outside of the The incubator.

According to FIG. 3, the pulse generator sits close to the wall 10. Boards 37 are attached to supports 36 for the egg hollows. The troughs are usually wire mesh to allow air to pass through by the incubator 11 to facilitate.

According to FIGS. 4, 5 and 6, the pulse generator rotates to the left. Fig. 4 initially shows the thereby resulting general centrifugal movement of the air, as generated by the known fans. 5, on the other hand, shows the air movement occurring in the pulse generator. Generate when turning to the left the upper blade 23 and the lower blade 25 an air movement directed towards the wall 10, while the blades 24, 26, which are horizontal in the drawing, drive the air away from the wall 10. This causes the air to pulsate. There are four air ring flows, each of which goes from a blade to the End wall 10, from the wall to the next bucket, then to the opposite wall and back runs to the first shovel. These four ring currents linked to the respective blade position walking in a circle with the paddle wheel '. Through this

In every part of the resting space, the direction of flow changes with every passing of the shovel. The faster the pulse generator runs, the more these ring currents become blurred. Through suitable Speed selection can avoid the general air turbulence and actually go far Air currents which regularly change direction and reach into the space of the incubator ii produce.

ίο Fig. 6 shows the union of the two Air currents according to FIGS. 4 and 5, through which a “complete exchange of air throughout the incubator 11 is achieved. The pulsating flow extends into every corner of chamber 11. Nevertheless, it arises not the sharp drafts of the well-known fans. Near the pulse generator and especially In the vicinity of its barrel axis one can see the pulsation through paper or fabric or Easily detect candle flames experimentally and thus set the pulse generator correctly. Of course you can also change the shape and number of blades in the pulse generator according to the invention. One only has to consider the peculiar position of the Maintaining blade surfaces to each other according to the rules of the invention.

Claims (4)

Patent claims: i. Fan for incubators to generate pulsating air flow with the help of um a central shaft rotating air blades, characterized in that the number of blades straight and each shovel by one opposite the one that is leading in the direction of rotation certain, preferably the same angle, but so twisted with alternating conveying direction is that the airflow is pulsating. 2. Pulse generator according to claim 1, characterized in that that the blades (23, 24, 25, 26) are made of flat blades with preferably rectangular Side flanges (27, 28) set off from the plane of the sheet exist and are the same Angles from each other and have the same center distance. 3. Pulse generator according to claims 1 and 2, characterized in that the blades (23, 24, 25, 26) are preferably fastened with angles (19, 20) on the spokes (17) of a wheel disc (15). 4. Pulse generator according to claims 1 to 3, characterized in that the spokes (17) of the wheel disc (15) open into a hub which on a plate fastened in one of the front end of the incubator chamber (10) 13; stored Shaft (12) sits and is driven by a rim (18) via a belt. Considered publications:
German patent specification No. 496 279. 1 sheet of drawings