DE1648798B1 - DEVICE FOR OBTAINING MEASURED SIZES DEPENDING ON THE SUBSTANCE CROSS SECTION OF STRANDED TEXTILE MATERIAL - Google Patents

Description

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The invention relates to a device for thread air supply to the measuring point of a considerable device

determination of measured quantities that require technical effort in terms of the substance cross-section, especially

depend on rope-like textile material, with moderation and the accuracy of the compressed air supply

a measuring funnel through which the textile material tion to make relatively high demands

is performed, the cross-section of which are at the funnel inlet 5.

is larger than at the funnel outlet and between The invention is based on the object of a

Entry and exit cross-section a laterally attached device for measuring the substance cross-section

has ordered opening to which a Druckmeß- of strand-like textile material of the initially

device is connected. called type, which is characterized by a

For the quality control in the textile industry io particularly simple structure, through a possible

are suitable measuring methods for the determination of the high measuring accuracy as well as a corresponding

Substance cross-section of decisive importance.

tion to the manufacturing processes on the basis of this To solve this problem, the invention provides To be able to monitor and regulate measured values. Up to now, that the outlet cross-section of the funnel here are only capacitive to a larger extent, and op- 15 so much smaller compared to the inlet cross-section Measurement systems have been applied. The capacitance is formed in that the rope-like textile zitiven System mainly depends on the disadvantage of the receiving material trapped and entrained air volume Sensitivity with regard to the moisture of the textile - displaced from it and at least partially in materials and the insufficient stability of the laterally arranged opening Measuring zero point. With optical measuring systems it is.

difficulties arise as a result of a lack of stability. With the device according to the invention, solitude is achieved with both light transmitters and light receivers that are common with known test devices. Due to the extensive necessary pressure medium source, it has already been proposed, with an attempt to do so, that measurements be taken on the bound compressed air supply line to the testing device, through which the principle of absorption of radioactive rays is carried out, in the form of strand-like textile material; However, these have been omitted for various reasons,
which has not yet found its way into practice. Another advantage can be achieved that

From US Pat. No. 2,465,818, the measurement result is in contrast to the known Obtaining measured quantities that are not cut off from external influences by the cross-substance measuring devices depend on rope-like textile material, 30 depends, since only the displaced from the textile material known that the rope-like textile material generates the pneumatic measuring pressure through the amount of air, a device with two or more in a row, so that the reproducibility and the accuracy other openings is performed, whereby the measurement can be increased significantly. The outlet opening is smaller than the inlet opening. An advantageous development of the invention-over the purpose of the measuring device according to the inlet opening 35 is characterized by The smaller design of the outlet opening is in the one in the area of the laterally arranged opening Nothing is said in this publication, but a chamber that is turned into the inner surface of the funnel is clearly visible expresses that the measuring principle for the measurement forming groove.

Another preferred embodiment consists of a lateral opening in the 4 ° measuring device according to the invention , at one input of which the funnel pressure medium source is to be introduced into the device and at the other input of which a compressor is connected via M and the pressure fluctuations in the line to a control valve. ™ Pressure medium source to be measured by the more 45 Finally, another advantageous further or less strong escape of air through the formation of the measuring device according to the invention inlet or outlet opening of the device due to a transducer to implement the manoeines more or less strong closure of this meter reading an erne the substance cross-section of the openings are caused by the test material. Measured variable indicating the textile material.

US Pat. No. 2,952,262 is also 50. The invention is hereinafter referred to as an example

a device known, which explains the cross-sectional hand of the drawing in more detail; in this shows

measurement of air-permeable materials such as tobacco, Fig. 1 with a basic measuring arrangement

Cotton etc. is used, whereby the test material is blends,

is passed through a cylinder, which with F i g. 2 a funnel-shaped trumpet in section,

Is equipped passage openings. In this case, 55 F i g. 3 a trumpet according to FIG. 2 with one

known device is also from the outside annular extension,

Compressed air introduced into a cylinder through wel- F i g. 4 a trumpet with a screwed groove

chen the test material is passed through, with each and

according to the cross-section of the test material while the passage- Fig. 5 a measuring arrangement with funnel and

Openings are more or less tightly closed. Pressure compensation.

the. Thus, depending on the cross-section in the case of FIG. 1 shown measuring device

of the test material more or less from the blown-in strand-shaped textile material 5 through two

the air to escape. As a result, diaphragms 1, 2 lying on the opposite side of the pressure are drawn through,

Changes from the cross-section of the test specimen The diaphragm 2 has a smaller diameter

depend and measured by a manometer 65 on as a diaphragm 1, so that the textile material after

will. Passing the cover 1 further compressed

The disadvantage of the known devices is. There is a certain one in the fiber material of the tape

peculiar that the compressed air supply as well as the pressure amount of air included, which together with the

Textile material penetrates the panels. If the fiber cross-section in aperture 1 and aperture 2 is the same, There must be an amount of air that corresponds to the speed of the textile material and the difference in the diaphragm cross-sections corresponds to emerge from the fiber mass. This air escapes into a chamber 3. If now but the chamber 3 is completely or at least partially closed, the air must be wholly or partially in escape in the longitudinal direction through the sliver. A larger substance cross-section results in a larger one Air resistance and consequently a greater pressure in chamber 3, for example at an opening can be displayed with a pressure gauge. Of course, the air resistance could also be determined with supplied compressed air. In the present case, however, the measuring medium itself delivers an active quantity, which is to be assessed as a major advantage.

Organs for compressing the fiber cross-section of ribbons are known per se and are widely used in existing textile machines, where they are referred to as funnels. An exemplary embodiment of such a funnel in section is shown in FIG. 2. It is particularly advantageous if these funnels can be designed as measuring organs, as shown in FIG. 3 is shown. An annular widening 7 is provided in the wall of the funnel such that a first cross section has a diameter d _t and a second cross section has a smaller diameter d ″ . The extension 7 is connected to a pressure gauge through a nipple 6. A particularly simple design of the funnel is achieved in that a groove 8 is rotated into the funnel and a radial bore 9 is provided for the connection of a pressure measuring device (FIG. 4).

The pressure occurring in the chamber 3 is not only dependent on the degree of compression of the fiber material depends on the transition from aperture 1 to aperture 2, but also on the pull-through speed. A differential manometer, for example, can be used to detect this speed dependency 12 (F i g. 5) are used, at one entrance of which the funnel and at its other entrance one driven at a speed proportional to the throughput speed of the fiber material 5 Air compressor 14 - if necessary via a control valve 13 - is connected. In the differential manometer 12 then represents the relationship between the pressure in the one leg 15 connected to the chamber 3 and that in that other leg 16 of the manometer 12 represents a measured variable for the substance cross-section. The difference method for the pressure measurement using a compressor 14 is also advantageous because thereby the changing properties of the air, such as temperature, barometer reading, etc., automatically must be taken into account.

The control valve 13 also allows a setpoint setting for the to be measured in a control system Substance cross-section, in that a pressure increase in the leg 16 increases the substance cross-section in the trumpet calls for 11 and vice versa.

To obtain a signal from the pressure difference measured in the pressure gauge 12, there are now use known means (18), which determine the height of the manometer column (17) or its level fluctuations transform it into a corresponding measured variable.

Claims (4)

Patent claims: 1. Apparatus for obtaining measured variables from the substance cross-section of strand-shaped Depend textile material, with a measuring funnel through which the textile material is passed whose cross-section at the funnel inlet is larger than at the funnel outlet and that between The inlet and outlet cross-section has a laterally arranged opening to which a Pressure measuring device is connected, thereby characterized in that the outlet cross-section of the funnel (11) opposite the inlet cross-section is made so much smaller that in the rope-like textile material (5) trapped and entrained air displaced therefrom and at least partially in the laterally arranged opening (6,9) is pushed in. 2. Apparatus according to claim 1, characterized by one in the area of the laterally arranged Opening (6, 9) screwed into the inner surface of the funnel, a chamber (7) forming groove (8). 3. Device according to one of claims 1 and 2, characterized by a differential manometer (12) as a pressure measuring device, at one input (15) of which the funnel (11) and at its other input (16) with one for the throughput speed of the textile material (5) proportional speed driven compressor (14) connected via a control valve (13) is. 4. Device according to one of claims 1 to 3, characterized by a transducer (18) for converting the pressure gauge (17) into a substance cross-section of the textile material (5) indicating measurand. In addition 1 blue drawings COPY