DE2005711A1 - Device for dropping a folded object from an aircraft or the like " - Google Patents

Description

PATENT ADVOCATE DIPL-ING.

HELMUT GÖRTZ

6 Franku'ii arn Main 70

Sdineckenhofcfr. 27 part. 61 7079 February 3, 1970

uzk / goe

Usul Kokusai Sangyo Kabushiki Kalsha

Fluid coupling.

The invention relates to fluid couplings in which the speed of the output side is kept constant.

When a rotating machine is immediately driven by a motor Connection or by means of a belt is driven, then the speed of the machine fluctuates. With a dynamo, one Vacuum pump, an air pump, a compressor or a cooling fan however, it is often necessary that they operate at a constant speed regardless of the fluctuations in speed of the motor or the load fluctuations are driven.

These needs are met by the present invention. The use of a fluid coupling according to the invention has the great advantages that a loss of power can be eliminated and the behavior of the coupling at high speeds in terms of wear, susceptibility to failure and service life can be improved.

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The invention creates a fluid coupling, which makes it possible to keep the speed of the output side essentially constant by the amount of liquid in the Torque transmitting chamber is changed without using a dam or similar valve component of a conventional type.

A coupling for liquids or other flowing media is disclosed in which the "amount of liquid in the torque transmission chamber Each storage chamber is controlled by means of a membrane, which is located on the outer periphery of the chamber is provided so that the speed of the output side can be kept constant.

Further advantages, features and possible uses of the invention result from the following description of exemplary embodiments and the drawing.

It shows:

Fig. 1 is a view of the fluid coupling according to the invention, Fig. 2 is a section on the line II-II in Fig. 1, Fig. 3 is a section along the line III-III in Fig. 2, Fig. K a partial sectional view and a side view of a

Sliders, and
5 shows an essential part of FIG. 2 to explain the function.

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The housing 1 of the fluid coupling consists of opposite side walls 2 and 3 and a circumferential _{wall 4 e} . A rotor 11 is arranged in a transmission chamber 5. Columns 5a, 5 * »and 5c form a torque transmission chamber between the inner surface of the transmission chamber and the outer surface of the Rotozs 11. A desired number of storage chambers 6 are provided on the outer periphery of the peripheral wall k . A membrane 7 { divides the storage chamber 6 into an inner cavity 6a and

consists
an outer cavity 6b and / from a relatively white

Chen and elastic film made of, for example, oil-resistant synthetic Rubber, such as acrylic rubber, silicone rubber, Buna N or neoprene or a natural rubber that has been made oil-proof. By a connection 5d, the inner cavity 6a of the storage chamber is connected to the transmission chamber 5. A tubular one Slider 8 and a compression spring 9 form a spring device which rests elastically on membrane 7. The tubular -

Slider 8 consists of an upper wall 8a and a peripheral wall 8b. The peripheral wall 8b is in sliding contact with the inner peripheral surface 6c of the outer cavity 6b of the storage chamber 6, and the upper wall 8a supports the diaphragm 7 »receives the spring pressure of the compression springs 9 on the side opposite the diaphragm and stands with it Peripheral ^{edge 8a 1} in contact with the stepped edge ka. of the inner cavity 6a through the membrane. An air hole 6d is provided to a

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to enable smooth displacement of the slider 8. A drive wheel 10 is attached to the peripheral wall k. The above-mentioned parts form the output side.

The drive side consists of the above-mentioned rotor 11, its rotating shaft 12 and a flange 13. A ball bearing Ja carries the rotor shaft 12, which rotates in the side wall 3 of the drive side.

In the device according to the invention in the embodiment described above, the rotation of the output side 2 is maintained at a constant speed by changing the fluid connection in the transmission chamber 5 by moving the fluid or other fluid medium into the storage chamber 6 and the transmission chamber 5. The movement of the liquid between the two chambers 5 and 6, ψ caused by the elastic device that the slider 8 and the membrane 7 is made of the above-mentioned compression spring 9 ', which are supported by the top wall 8a.

The function of the fluid coupling according to the invention is achieved by the amount of liquid in the Ubertragungskanuner 5, the standard position of the slider 8 and the spring force the spring 9 can be preset. The default position of the

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Slider 8 is the position in which it is located outside the stepped edge 4a of the inner cavity 6a » The spring force of the spring 9 is set so that it brings a certain elastic force in this position. This particular one elastic force is equal in size to centrifugal force on the one from the slider 8 and the compression spring 9 existing spring device is applied by the membrane 7 from the liquid when the output side has a constant Having speed. An example of such a so-called standard state is shown in FIG. 5 · FIG. 5 shows in one Example of a standard position P of the slider 8 when the output side has a constant speed, and also shows that the amount of liquid in the transfer chamber 5 a The standard amount is when the slide is in this position P. When the amount of liquid in the transfer chamber 5 is this so-called standard amount, and when the driving force and load have a certain value, the so-called Have a standard value, then a constant speed is transmitted and maintained on the output side.

Fig. 2 shows a state in which the output side is not yet has reached constant speed or at which the drive is stopped. When the fluid coupling according to the invention is carried out according to the above description when the driving force and the load are their so-called standard value

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occupy and the drive side is driven, the speed of the driven side increases gradually until it has reached the constant speed and the slider 8 moves into the so-called standard position. When the slider 8 has reached this position, the amount of liquid in the Transmission chamber 5 does not transmit more than the constant speed, so the output side maintains the constant speed. However, if the load increases, and the drdi number of On the driven side decreases, the centrifugal force of the liquid, etc. also decreases, the spring force becomes larger than the centrifugal force, and the slider 8 moves inward the standard position and the fluid in the transfer chamber increases to compensate for the decrease in speed. When the load decreases and the speed of the output side increases, the centrifugal force, the sliding piece 8, also increases moves outward and reduces the fluid in the transfer chamber 5 »and the increase in speed of the output side is controlled. This way the speed is increased the output side kept essentially constant.

en In the described / embodiment of the invention

»The elastic force of the membrane is exerted by the object

However, the spring force of the spring is supported if a membrane 7 is used

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used that a certain elastic force in the above mentioned Standard position P (Fig. 5) or a membrane with a Bellows, then the invention can also be carried out without the consisting of the slider 8 and the compression spring 9 Spring device is used.

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Claims (1)

- 8 claims Fluid coupling with a rotor attached to a rotating shaft, which is arranged in a transmission chamber is, characterized in that storage chambers outside the peripheral wall of the transmission chamber are provided and an elastic membrane is provided ^ is seen, which divides the storage chamber into an inner one Cavity, which is in communication with the transmission chamber, and an outer cavity that when exceeded a constant speed on the output side, the membrane moves outwards from its standard position P, in order to reduce the liquid in the transfer chamber, and that in the event of a drop below the constant on the output side Speed, the membrane moves inward from the standard position P to control the amount of liquid in the m Ubertragungskammer to increase, so that the membrane causes the speed of the output side is kept at a constant value. 2 * fluid coupling according to claim 1, characterized characterized in that the membrane is a sheet of oil-proof rubber selected from a group which includes natural rubbers and synthetic rubbers. 009882/1286 3 · Fluid coupling according to claim 1, characterized in that a spring loaded and a sliding piece cooperating with the membrane is provided in the storage chamber Fluid coupling according to claim 1, characterized characterized in that the spring force of the membrane is achieved by a bellows 009882/1286