PL88992B1 - - Google Patents

Description

The subject of the invention is a multi-input stream element for signal processing with the mutual separation of signals. There are known multi-input stream elements in which the input signals in the form of streams in a flat or spatial array enter parallel into a common steering device. Furthermore, stream elements are known in which at least two input signals enter a common channel in a certain direction and at certain angles. In the stream elements, the input signals are not decoupled and therefore have a significant feedback effect on the input on which there is no input signal. In addition, multisite stream elements are known having input decoupling devices. In most cases, the disconnection takes place by connection to the atmosphere. Jet elements are known in which the input streams are directed from different directions at different angles to a common steering device, with a partition connecting with the atmosphere between the streams and the steering device. it is made in a special way to avoid large energy losses. In some cases the steering device serves to feed the input of a further similar multi-port jet element, thereby reducing the number of inputs. Known devices of this type, in order to avoid large energy losses, require geometrically complex forming of nozzles, guiding devices and channels, and sufficient space for the shaping of these parts, and moreover, complex manufacturing technology with appropriate repeat accuracy. Multi-port stream elements are also known, in which the signals from the individual steering devices of the tower, and inputs that have been disconnected from the atmosphere, are collected in one common output channel. Input decoupling is only partial here. Moreover, multi-input stream elements are known in which the input signals are directed parallel or at a certain angle to the auxiliary stream through which they are decoupled and which is deflected by them. . In such an arrangement, an elongated working chamber is required, in which the (deviation) occurs. , the most favorable point for the deflection of the flux lies within very narrow limits. Too large. Due to the necessary acute angle, high performance requirements are placed, especially for miniature components. inlets located opposite each other. The object of the invention is to create a multi-input stream element for processing multiple input signals, in which the streams produced by the input signals are directed in a common direction (the number of inputs can be easily increased even with only a small amount of available space. The inputs should be disconnected. Adaptation of the input signals should be possible with little technological investment. Moreover, the power losses should be small. This aim is achieved according to the invention by the fact that the jet element has a plurality of nozzles to which the inputs are fed, one or more guide surfaces and one or more directing devices from which the inputs are collected. The nozzles are positioned with respect to the guiding surfaces assigned to them in such a way that the partial jets coming out of the nozzles form an obtuse angle with a longitudinal factor along the leading surface towards the adjoining device. Each gtfUpy drive has a guide surface and a steering device. In one element, according to the invention, there are growing (to place several such groups. The plane of the outlets is separate at an ester angle with the plane of the guiding surface. Inside this angles are also the partial jets emerging from the outlets of the nozzles. The steering device is limited by guiding surface, flow restriction wall Enveloping against the guiding surface and the base and cover plates. The guiding injuries take the fluid that lengthens the guiding tube and feeds it to the attached elements of the same or another Aypti. the medium flowing along the head and the guide is connected directly to the working chamber, while the elfcmeni is equipped with an arrangement of nozzles with a toa * partially ac30tymd and this nozzle of the head to match the signals. input nozzles and different potentials are used for input nozzles geidfttie. zamsmh throttle and a few kamef & m & tim with fcr & ylaCzami for the system wires , the guiding surfaces and the steering device are known to be formed by walls placed between the flat base plate f) and the flat cover plate. The advantage of the invention is that the signal inputs of the multi-port jet element are parallel to the parallel connection. glym, serial and push-pull and therefore there is no feedback interaction on them. Moreover, the invention makes it possible to collect differently spatially separated input signals in a common direction with relatively low power losses, thereby influencing, for example, the main stream at an advantageous location for deflecting it. The multi-pass flow element according to the invention makes it possible to increase the number of entrances with a simple geometrical configuration which does not require high performance requirements. The simple technologies thus made possible also advantageously ensure the production of miniature multi-feed streamers with a high repetition accuracy. The matching of the input signals can be achieved either by a technically simple change or by the use of specially shaped arrangements of the input nozzles. The subject of the invention is illustrated by an example of the embodiment in which Fig. 1 shows a multi-port jet element. according to the invention, fig. 2-wall jet element driven by input signals with different potentials, The multifaceted jet element of Fig. 1 is part of the wall-stream element of the multifacial stream element * cover 20. Multi The junction stream element is used here to perform a logical function OR and consists of stream nozzles la - * - lo »through which the input signals 2a - 2e are input, and from the guide surface Sa and from the passing device 4a. 50 The steering device has a direct flow ts working chamber 5 and jerft formed by the outer wall of the nozzle system 6 with main nozzle 7 1 cascaded orifices & multi * inlet jet element also has 55 wall 11 12 for directing the jet and 9 * 10 catch nozzles signals 13, 14. The feeder 15 enters through the connection into the feed chamber & throttle 8 and through the% gfcJwfoa 7 smoke into the working chamber 5 as the main stream 60, which adjoins the Bianka 12 due to the asymmetry of the walls 11 * 12 with respect to both the stream. so the output signal 14 from the gripping nozzle 10 is picked up. The control streams from the nozzle Ia, Ib or Ic cause 65 fluid flow in the steering device 4a88 992 so that the main stream is deflected from the wall 12 to the wall 11, which causes an output to be received from the gripping nozzle 9. As shown in FIG. 1, all nozzle axes 1 are located at an obtuse angle a (alpha) to (p the guide surface 3a, and the plane in which the mouths of the nozzles lie together with the guide surface 3a forms an acute angle B (Ibeta). The guide surface 3a and the guide device 4a direct the steer jets from the nozzles 1 so that the main stream can be deflected with a minimum power consumption. The individual input signals 2a - 2c are separated. Even with a reverse flow along the guide surface 3a, there is no turbulence on the nozzles 1, and therefore also on the input signals 2, since the return flow is directed to the nozzles 1 via openings 17. There is no counter-flow in the individual nozzles 1, so that the signals 2 are separated. is for controlling a wall multi-feed stream element according to FIG. 1. A multi-input stream element (FIG. 2) has two sets of nozzles 6 composed of main nozzles 7 and glands 8, guiding surface 3a, which is located at an obtuse angle to the control jets 7 coming out of the nozzles 7, and a steering device 4a. In the intermediate stage 21, only one of the input signals 2d - 2i enters. The nozzle arrangements 6 used ensure that the quantity of the medium guided over the guiding surface 3a and received by the steering device 4a is constant, although the input signals 2d - 2i have different potentials. stream elements to perform complex logic functions with an increased number of inputs, connected in parallel and in series for space saving. Input signals 2k - 2m are fed to the jet nozzles Id-lf, and jets from these nozzles are directed towards the guide surface 3b, the jets partially forming an obtuse angle a (alpha) with the guide surface 3b. a partition 22 and a guide surface 3b. From the directing device 4b acting as a jet nozzle, the medium is directed to the crisscross guide surface 3c and from there to the directing device 4c, in which the output signal 23 is generated. 2n, 2o, are directed to the guiding surface 3d created for space saving by the partition of the guiding surface 3b, and hence to the guiding device 4d. The guiding surface 3c is also influenced by the jets coming from the nozzles, Ik, fed by the input signals 2p, 2h, whereby the output 23 is finally formed from the connection of the input signals 2k - 2y. This parallel and series connection of a plurality of multi-port jet elements can also be considered as one multi-port jet element with multiple nozzle groups 1. An inlet flow element according to the invention in the case of an push-pull connection of two of multi-input stream elements for signal processing and for the implementation of complex logic functions. The guide surfaces 3e, 3f of the two multi-threaded stream elements are at an angle of 180 ° to each other. One jet element consists of the jet nozzles lk, Im, to which the input signals 2r, 2a are applied, and from the guide surface 3c and the directing device 4e. The second multi-slot jet element consists of the jet nozzles In, lo, to which input signals 2t, 2u, and from the guiding surface 3f and steering device 4f are supplied. In order to avoid the negative effect of the negative streams directed against each other in the directing devices 4e, 4f on the input signals 2r - 2u, holes 17 are made. The control devices 4e, 4f enter the working chamber 24 with the channels 25, 26. 26, an input signal 2v is applied, and an output signal 27 is formed depending on the flows in the directing devices 4e, 4f. If there is no input signal 2v, the output signal 27, coming simultaneously from channels 25, 26, consists only of the flows in the steering devices 4e, 4f. PL PL

Claims (5)

1. Claims 1. A multi-port jet element with multiple nozzles fed to the input signals 40 for signal processing, the signal inputs being separate, and with one or more directing devices, characterized by having a group of nozzles U) which are directed by means of the steering device (4); towards the guide surface (3), that the control signals coming from the individual nozzles are deflected at an obtuse angle (a) from the guide surface (3) in the direction of of the steering device (4), and that the nozzles (1) have outlets in one common outlet plane, which is inclined at an acute angle (B) to the guiding surface (3), with openings (17) on the side of the outlet plane , reverse flow. 2. A multi-port stream element according to claim 1; The method of claim 1, characterized in that it has convex walls (18) between the base plate <19) and a cover plate (20) delimiting the control flow within one multi-pass flow element. eo 3. A multi-port stream element according to claim 3; 8. The method of claim 1, characterized in that the guide device (4) is delimited by the guide surface (3), the wall (22) facing the guide surface (3) and the base plates (19) 65 and the cover (20) .88 992 4. A multi-port stream element according to claim 4; 2. A method as claimed in claim 1, characterized in that the nozzles (1) form a pattern of nozzles (6) forming a jet which comprises several cascaded glands (8) and several intermediate spaces (21) which are equipped with connections for control signals (2b -2i ) with different flow rates. 5. A multi-port stream element according to claim 5; A method as claimed in claim 1, characterized in that it has several multi-input flow elements which are connected to each other in parallel, series and / or push-pull. * • - • - 588 992 PL PL