DE1675196A1 - Binary divider operated with working equipment - Google Patents

Description

PATENT ADVOCATE DR. E. WIEGAND DIPL-ING. W. NIEMANN 1675196 DR. M. KÖHLER DIPL-ING. C. GERNHARDT

MÖNCHEN HAMBURG

TELEPHONE: 395314 2000 HAMBURG 50, ** 2, 68

TELEGRAMS: KARPATENT KDNIGSTRASSE 28

W. 23105/68 12 / Me

Bertin & Cie Societe Anonyme Paris (France)

Binary divider operated with working equipment.

The invention relates to an aperiodic operating device, referred to as "binary divider ¹¹ and bistable in combination organs aufweist.-According to the present invention is λ forward in such a device a dual supply with liquid or gaseous working, for example by compressed air, provided , and one of the working medium is fed to the divider in a permanent stream, while the other working medium, which may not need to be the same as the first working medium, is introduced into the device in the form of input pulses changed, and every second work medium pulse is in one or more sensitive organs connected to the divider, for example in a

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Transfer counter.

Several dividers according to the invention can be assigned to one another in successive stages in such a way that the Signals sent by each divider serve as input pulses for the next divider, which allows the dividing the initial number of pulses by a multiple of two, keeping the option of each take advantage of the second pulse in each stage, for example counting.

According to the invention, an elementary divider has a space of substantially cylindrical shape, which with an axial outlet opening is provided and in the side wall on the one hand two substantially in the direction against his Lines running in the middle open out, the branches of a nozzle which delivers a permanent flow of working medium are and form a first bistable working medium organ with the nozzle, and on the other hand near the mouth of this Lines open out into two channels running essentially in the tangential direction, which branches of a nozzle are ^, which receives working medium input pulses, and which with this nozzle a second bistable working medium organ form, with a channel for the removal of working medium pulses from the permanent flow of one of the aforementioned Lines is assigned in such a way that the transmission of signals from working medium pulses of the permanent Output are shown to at least one on such signals

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responsive organ, for example a counter, another divider, etc., is enabled.

The invention is explained below with reference to the drawing, for example.

Fig. 1 is a sectional view taken along line I-I of Fig. an embodiment of the invention.

Fig. 2 is a central sectional view taken along line II-II

of Fig. 1. ^

Fig. 5 and h are the Fig. 1 similar Ansihten modified embodiments of the invention.

Figure 5 is a view similar to Figure 1 of a multiple divider.

In the embodiment according to FIGS. 1 and 2, the divider is formed from three plates la, Ib and Ic, which are provided with holes and cutouts in an appropriate manner and are connected to one another in such a way that the various openings and channels that are used in the device are required to work leading agent, Ge% forms are.

The plate la has a channel 2, which is formed in the plate Ib nozzle 5 continuously with working fluid feeds.

Two control channels 4 and 5 through passages 40 and 50 and 41 and 51, respectively, are elongated, the latter of which shown in dashed lines, open on both sides of the outlet of the nozzle j5.

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Downstream of the channels 4 and 5 is the mouth 25 of a branching of two lines 6 and 7 · these Lines 6 and 7, which with the nozzle j5 a first bistable Form working medium organ, open at 26 or 24 in a cylindrical space 8, in the axis A-A (Fig. 2) Outlet passage 9 is provided, which is formed for example in the plate la.

On the side of the mouths 26 and 24 of the lines 6 and 7, channels 10 and 11, which lead to a nozzle 12, begin converge, which is connected to a line 20, via which working medium pulses are fed into the divider can.

The orifices 26 and 24 are directed almost radially to the space 8, but with a slight inclination in the same sense as that of the neighboring channels 10 and 11.

The channels 10 and 11 preferably have the same cross-section and are symmetrical with respect to the axis of the nozzle 12 arranged so that neither has a preferred character, i.e. H. represents a passage into which the from the nozzle 12 escaping work equipment seeks to flow in preferentially. To suppress any preferred property, has the mouth IJ of channels 10 and 11 continues to have a cross section, which is larger than that of the nozzle 12, and it is separated from the outlet of the nozzle by lateral recesses 14.

On one of the lines 6 and 7 *, for example on the line 7 * , a removal channel 15 is provided, which is located in

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a line 16, which leads, for example, to a counter (not shown), and a line 18 branch off can, for example, leads to a different divider.

Modified embodiments are shown in FIGS. 3 and 4 shown, in which the essential elements already described are also present.

In the embodiment of FIG. 5, the nozzles are

jj and 12 are arranged on the same side of the space 8 and not ' A on opposite sides as in the embodiment according to FIGS.

In the embodiment according to FIG. 4, the lines 6 and 7 are of this type, for example due to an asymmetry arranged that the working fluid emerging from the nozzle j5 tends to enter the line 6, which accordingly for the flow is preferred. A control of the flow in the lines 6 and 7 by means of the control channels 4 and 5 according to FIGS. 1 and 2 is no longer required. Suffice it to do with the environment or with these channels to connect a room in order to change the effect of the adherence of the work medium to the walls. Likewise can the line 11 can be made the preferred line, namely by a directional unbalance, as shown in FIG. 4 is shown.

The operation of the three embodiments of the invention Is essentially the same.

The nozzle j $ becomes a permanent one via the line 2

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Working medium flow supplied. In the case of the embodiments according to FIGS. 1 and 2 and FIG. 3, this stream is allowed to pass through the line 6 by being in the control channel 4 a suction process and / or in the control channel 5 a blowing process is effected. In the modification according to Fig. the current automatically passes through the preferred line.

From Fig. 1 it can be seen that according to the orientation of this flow with respect to the axis A-A of the cylindrical space 8, the working medium circulates in the space 8 and in spiral movement in the direction of arrow 21 emerges from the opening 9. Part of the working fluid flows according to arrows 22 and 23 into channel 11 and then into channel 10.

If, under the above conditions, there is a work equipment input pulse is introduced into the nozzle 12, is due to the pressure difference due to the aforementioned flow in the channels 10 and 11 the permanent flow emerging from the nozzle 12 according to the arrow 23 through the channel 10 directed.

The input pulse that emerges from the channel 10 according to the arrow 23 pushes the one passing through the opening 26 Flow of the permanent working medium flow emerging from the nozzle 3 together and directs it against the wall of room 8. The totality of this working medium flow and the said pulse then forms

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a vortex according to the arrow 21, whereby the pressure loss or the flow resistance in the space 8 is considerable is enlarged. As a result, the pressure in line 6 increases and after a certain time reaches the value which is sufficient to allow the permanent flow of working medium to flow through line 7.

Part of this flow goes through the take-off channel 15 through to the lines 16 and 18. The main part enters the space 8 through the opening 24 and lifts the rotary movement of the current emerging from the opening 26. The entire amount of work fluid flows with a minimal pressure ban through the outlet opening 9.

When the input pulse flowing through channel 10 ends, the current resumes its initial direction. The working medium rotates in the space 8 in the opposite direction to the arrow 21 and emerges from the outlet opening 9. A portion of this working fluid flows, now through the channel 10 and then through the channel 11 in the similar to the arrows 23 and 22 opposite direction.

As a result, the following pulse enters channel 11, and the process described above is repeated, which ultimately leads to the permanent flow exiting nozzle J being directed into line 6 and the one above explained cycle is repeated.

When the pulse flowing according to arrow 23 ends, before the working medium flowing through the line 7 into the

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When space 8 arrives, a flow arises without delay in channels 10 and 11 in the direction indicated by arrows 22 and 25 opposite direction.

It can thus be seen that in all cases the divider via the lines 16 and 18 then each time a Provides a signal when the permanent current passes through the line, i.e. H. for every second one from the nozzle 12 outgoing input pulses. Accordingly, only every other pulse received is counted or a responsive one external organ transferred.

In Pig. 5 shows a multiple divider with three stages, each of which comprises an elementary divider as described above.

Each level has its own supply, which can come from a common source, the work equipment permanent in lines 2a, 2b and 2c. The first stage receives input pulses on line 20a; the following stages do not have such lines. The output lines 16a, 16b and 16c of the different stages are for example connected to counters, while the output line l8a of the first stage feeds the nozzle 12b, which the pulses Ur delivers the second stage. The output line 18b of the second stage in turn feeds the nozzle 12c of the third Level etc.

The number of stages is not limited to three, and as many stages as necessary can be provided.

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The number of input pulses is thus divided by two as often as Levels are present, with the option of counting and / or using the pulses at each level.

As stated above, the dividers operate according to FIG. J5 and FIG. 4 analogous to the divider according to FIGS. 1 and 2.

However, the operation of the divider of FIG. 4 is slightly different due to the umstand that lines 6 and 11 are preferred lines due to the asymmetry of the branches of the nozzles 5 and 12.

Thus, if an input pulse is sent from the nozzle 12 before the permanent current is generated, that is initially passes through the line 6, this pulse would pass through the channel 11 * and through the central one Exit opening 9 without being counted and without reversing the passage of the permanent current from the line 6 to the line 7 causes. In this way any mistake in counting is avoided.

In order for an input pulse to enter the channel 10, it is necessary that a flow in the direction of the arrows 22 and 23 is generated, and this takes place when the permanent Current passes through line 6 as described above. In this way it is ensured that the beginning of counting coincides with the creation of the permanent current.

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Claims (1)

- ίο - Claims 1. Companies with work equipment: «· Bdnärteiler, marked through a substantially cylindrical space (8) which is provided with an axial outlet opening (9) and in its side wall, on the one hand, two lines (6, 7) running essentially in the direction towards its center open out, the branches of a nozzle (3) which delivers a permanent flow of working medium, and with the nozzle form a first bistable working medium organ, and on the other hand near the mouth (26, 24) of these lines (6, 7) two substantially in the tangential direction Channels (10, 11) open out, which are branches of a nozzle (12) which supplies working medium input pulses, and which with this nozzle form a second bistable working medium organ, with a channel (15) for the removal of working medium is provided by the permanent current, which is assigned to one of said lines (6, 7) that the transmission of signals in ports of working medium pulses from the permanent working medium flow to at least an organ responsive to such signals, for example a counter, is made possible. 2. Divider according to claim 1, characterized in that the first bistable working medium element (3, 6, 7) is arranged in such a way that one of its lines (6, 7) is a preferred one Character can be given, and the acceptance channel 10 9 8 3 1/0511 - li - (15) is connected to the other line. 5. Divider according to claim 2, characterized in that the line in question is given the preferred character by means of at least one auxiliary control channel (5), which is assigned to the first bistable working medium organ. 4. Divider according to claim 2, characterized in that the line in question has the preferred character whose structural design is given. 5. Divider according to one of claims 1 to 4, characterized in that that of the channels (10, 11) of the second bistable working medium organ which opens into the space (8) near the mouth (24) of the line (7), from which the removal channel (15) has a preferred character. 6. Divider according to one of claims 1 to 5, characterized in that the permanent working medium flow supplying nozzle (J) and the nozzle (12) supplying the working medium input pulses on opposite sides of the room (8) are arranged. 7. Divider according to one of claims 1 to 5 * thereby characterized in that the two nozzles (3, 12) on the are arranged on the same side of the room (8). 8. Divider according to one of claims 1 to 7 *, characterized in that it is designed as a multiple divider and has several stages, each of which comprises an elementary divider, in which the nozzle of the first bistable working medium organ has its own line to the permanent working medium 109831/051 1 Having supply, and that the channels for the removal of working medium pulses from the permanent supply each of the stages are connected to the nozzle of the second bistable working means organ of the following stage for their feeding. 9 · divider according to claim 8, characterized in that each channel for taking pulses from the permanent Supply of the stage is further connected to an organ responsive to these pulses, for example a counter. 109831/0511