DE2110901A1 - Device for detecting the density fluctuations of a sliver in spinning machines - Google Patents

Description

Maschinenfabrik Rieter AG in Winterthur (Switzerland)

Device for detecting the density fluctuations of a sliver in spinning machines

The invention relates to a device for detecting the density fluctuations of a sliver Spinning machines such as cards, draw frames and the like, consisting of a sliver funnel running in the direction of the Sliver narrowing flow channel, from which a pressure reduction channel branches off.

Such a device makes use of the fact that this occurs in the narrowing flow channel incoming sliver causes a dynamic pressure corresponding to its respective density, its fluctuations can be scanned. In a known device of this type, however, it has been found that together with the air blasts entering the pressure reduction duct, dust particles also get into the measuring duct can get stuck in it and even clog the duct,

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109840/1164

In order to remedy this evil, it was already known in Pressure decrease like measuring channel a slight overpressure and thus to create a slight flow towards the funnel, just enough to enter the funnel when the pressure rises to prevent dusty air in the measuring channel. It is however, the exact maintenance of such an overpressure is difficult, which in this case is a prerequisite for extraction more reliable readings. In any case, the measure mentioned increases, apart from the not inconsiderable one Additional effort, including the susceptibility of the measuring arrangement to failure.

The object of the invention is to avoid these deficiencies, more precisely, a device of the type mentioned to be designed with little effort in such a way that it enables the density fluctuations of the sliver to be recorded as maintenance-free as possible allowed in order to ultimately ensure the most uniform possible density and quality of the sliver produced, but also to be able to increase the performance of the machine in question.

For this purpose, the device according to the invention is characterized in that the cross-section of the flow channel is in the connection expands to a narrowest point towards the outlet end and the pressure decrease channel from this flow channel section branches off.

As a rule, the expansion of the flow channel takes place continuously, preferably conically.

For further explanation, the invention is described below on the basis of two exemplary embodiments shown in the figures. Ea shows

Fig. 1 is the sliver funnel according to the first embodiment Longitudinal section and,

2 shows the slightly modified sliver funnel corresponding to the second embodiment in the same representation.

109840/1164

In both cases, the sliver funnel has a passage channel 2 for the sliver to be processed 3, the cross section of which from the entry cross section 4 in the direction indicated by the arrows, 5 and 5 * designated flow direction initially funnel-like decreases to a narrow point 6. Immediately thereafter, the channel 2 widens in the form of a substantially conical channel section 8 to the outlet end 7 of the funnel there. In the area of the channel section 8, a pressure reduction channel 9 is passed through the funnel wall approximately in the middle, which is received outside of the same by a connection piece 10. In place of the latter can of course also another suitable connecting element connect the channel 9 to a vacuum booster 11 or the like to be able to connect.

The embodiment shown in Fig. 2 differs γοη that of FIG. 1 only in that on the Confluence of the channel 9 in the channel section 8 in the funnel wall a slight recess 12 is provided, which extends over extend part or all of the circumference of the flow channel can. Its purpose is to bring about a better pressure equalization in this area and thereby possibly also the To increase the sensitivity of the measuring arrangement. The latter is the case when a weak pressure disorder under certain circumstances only takes up a small cross-sectional area of the channel.

When passing through the channel 2, the sliver 3 is from the entry cross section 4 to the narrowest point 6 of the channel Compressed in a known manner, most of the entrained air being squeezed out. From the narrowest point 6 to towards the exit end 7, however, the band 3 can expand again under the influence of the fiber elasticity, as a result of which in this area a negative pressure is created which changes essentially proportionally with the fluctuations in density of the sliver. The already mentioned amplifier 11 is preferably designed as a flow amplifier (“fluid amplifier”) proved to be particularly advantageous in the present application.

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In both of the above-described embodiments, the cross-sectional enlargement occurring within the channel section 8 should not exceed the natural cross-sectional enlargement of the sliver 3 caused by the natural fiber elasticity following the narrowest point 6. It therefore depends not only on the elasticity of the respective fiber but also on the throughput speed of the sliver, its degree of compression, and the type and spacing of the calender rollers or the like, which may pull off the sliver. As a rule, the opening angle ° C of the channel section 8 must not exceed about 25 °. Values between 6 ° and 16 ° have proven to be particularly useful.

The flow channel 2 can have a circular cross-section or a cross-section that deviates from the circular shape. If desired, the longitudinal center axis of the funnel 1 can also deviate from a straight line.

In order to avoid the deposition of dust particles on or in the confluence of the pressure decrease duct 9 into the duct section 8 all the more reliably, the confluence angle / 3 of the pressure decrease duct should ^{not exceed 90 in relation to the flow direction indicated by the arrows 5 and 5 1} , measured on the inlet side. In tests with different angles / 3, the most favorable results were found with values from 30 ° to w.

- patent claims -

109840/1164

Claims (5)

Claims sr , J Device for detecting the density fluctuations of a sliver in spinning machines such as cards, draw frames and the like, consisting of a sliver funnel with a flow channel narrowing in the running direction of the sliver, from which a pressure reduction channel branches off, characterized in that the cross section of the flow channel (2) in connection with a narrowest point (6) towards the outlet end (7) and the pressure reduction channel (9) branches off from this flow channel section (8). 2. Device according to claim 1, characterized in that that the expansion of the flow channel is essentially continuously, preferably conically, takes place. 3. Device according to claim 2, characterized in that that the opening angle (<> c) of the extension 25 ° does not exceed, but is preferably between 6 ° and 16 °, 4. Device according to one of the preceding claims, characterized in that the pressure decrease channel (9) at the point of its confluence with respect to the flow channel axis (5-5 *), measured on the side of the funnel inlet, does not have an angle (/ 3) of 90 ° exceeds, but is preferably between 30 ° and 85 °. 5. Device according to one of the preceding claims, characterized g e k e indicates that the mouth of the pressure nahaekan »l8 (9) within a depression (12) in the wall of the Passage channel is located, which is at least preferably over a Tep.1 of the passageway circumference extends. 6, device according to one of the preceding claims, characterized g k nnzeicbnet that to the pressure acceptance channel (9) a flow amplifier (11) is connected. 109840/1184 Blank page