DE4134174C1 - Paper, textile, plastic sheet material linear measurement system - determines number of marks during longitudinal movement of material along belt via guide rollers - Google Patents

Abstract

A measurement unit is provided, which determines the length from the longitudinal movement of the material being measured. The measuring belt (35) runs horizontally or inclined downwards in the longitudinal movement direction of the material (27) being measured. The belt is wider than the material line (27). The guide rollers (36, 37) of the belt are idler rollers, so that the material being measured moves the belt along with it in the same direction. The belt (35) has marks at a determined spaced pattern. The measuring unit (40), determins the number of marks during the longitudinal movement of the material (27) and by evaluation gives its continuous length. ADVANTAGE - Type system improved, measures total length also with strongly expandable or stretchable material such as curtain roll material.

Description

The invention relates to a device for continuous Length measurement of stretchable or stretchable, web-shaped Material to be measured, such as sensitive panels, according to the generic term of claim 1.

A generic device is from the DE 32 34 423 C2 known. Such a length measuring device is also for webs with very sensitive surfaces, like can be used for velvet, plush, cord and terry fabrics. The material to be measured is inside a fabric length measuring machine fed to the measuring tape, which is endless over the pulleys is formed, of which one of the two pulleys as Drive roller is formed and driven by a motor becomes. By dancer rolls provided in front of the measuring tape ensures that the material to be measured is always loosely on the measuring tape rolls up so that tension is avoided. To the Detect the length of the material through the measuring tape at least one deflection roller simultaneously as a measuring roller trained, the measuring roller force and / or is positively connected to the measuring tape. The measuring roller detects the length of the feed of the measuring tape during the longitudinal movement of the sample. The division values are counted and displayed by a measuring device brought. The path lengths result from corresponding Ratios from the speed of the measuring roller. The Non-slip surface on the measuring tape ensures that the material to be measured is transported during the measurement.  

DE 29 27 751 A1 describes a device for Length measurement of objects known with a to measuring object under endless pressure Measuring tape works. The frictional force between the object to be measured and the measuring tape by means of a Sensor measured, which in turn the measuring tape driving motor controls, depending on Extent of the existing shift. A very sensitive control by means of such a device only possible if a very high effort is driven becomes.

Furthermore, from DE-OS 19 44 386 a device for Measuring the feed length of moving Strip material, such as veneer, known which the measuring element is designed as an endless belt and a frictional drive connection with the one to be measured Forms object. This device is not suitable to thus highly stretchable or stretchable material or materials with a sensitive surface.

To achieve a verifiable web measurement, the Measuring accuracy of the device to be comparatively high and may e.g. B. a tolerance of ± 3 p.m. (per mille) related not exceed the measured length. Around To achieve measurement accuracy, the slip between the web moving over the measuring table and the measuring wheel as small as can be kept, which is a good adhesion or a high level of friction. To do this with others known arrangements counter pressure rollers or counter pressure tapes provided, the contact pressure of this back pressure generating means cannot be chosen arbitrarily high, because it affects the appearance and quality of the web  sensitive surfaces to an undesirable degree would be affected, as z. B. when measuring Textile sheets made of plush, terry velvet or similar fabrics, the surface structure of which is protected should, is the case.

The generic device is not for to be measured Lengths of highly stretchable knitted fabrics and fabrics, such as. B. Curtain webs, suitable because the simultaneous motor drive of the measuring tape an expansion of the material that runs onto the measuring tape, cannot be ruled out. The measuring tape forms at the same time a conveyor belt. Furthermore, are for such Devices dancer rolls necessary to ensure an even To achieve tension of the web entrance.

From this alone it can be seen that the genre-forming Device only then always for optimal measurement results leads if the measured material is already with a uniform Voltage is fed to the measuring tape. From this it can be seen that z. B. in coarse-knitted fabrics, such as curtains, this Length measuring device cannot be used.

Based on the stated state of the art Invention based on the object, a device described type to improve that with her all sensitive panels, foils and the like in the Length can be measured, even if it is is a highly stretchable or stretchable sheet-like measurement, such as B. curtain fabric.

The object is achieved by the invention in the characteristic of Claim 1 specified technical teaching.  

Advantageous developments of the invention are in the Subclaims specified in detail.

The generic device is in terms of width no information can be gathered from the measuring tape. It got in shown with respect to a device according to the invention that then when the measuring tape by frictional engagement of the longitudinally moved sample is moved forward to avoid Tension of the material to be measured it is essential that the Measuring tape is wider than the material to be measured. So that The measured material can be measured completely tension-free can and for example thickness errors that occur when feeding over a deflection roller or folding around a measuring roller occur can be avoided, it is also provided that the Measuring tape horizontally or in the longitudinal direction of movement of the Measured material runs obliquely downwards. In the horizontal Position is the frictional engagement by the weight of the Measured material increased, while in the inclined position Friction is primarily produced by the non-slip surface or by sucking the same. The measuring tape is over lightly mounted, in the storage position a very low-friction pulleys. These can e.g. B. arranged at a distance of 20 cm to 30 cm be. This length is enough to definitely be one tension-free measurement of the lying and longitudinal movement to cause the measured material to run out. The distance can also be chosen smaller or larger. The measurement is done by the longitudinal movement of the Measuring tape is recorded for what purpose on the measuring tape at least one side measuring marks are applied, which in are arranged at a certain grid spacing, e.g. B. millimeter or centimeter division. The number of  measuring marks detected by the measuring device is in a Counting device determined and displayed. With mechanical Training can include: B. at centimeter division continuous length of the sample immediately in centimeters scanned and displayed on a measuring wheel. Another one more accurate measurement independent of mechanical parts to be able to make, it is advisable accordingly Claim 2 measuring marks in the form of lines on the Provide side edge that can be scanned with optical sensors are how this z. B. is the case with bar code encodings. This measuring method has the advantage that through fine printing Small rod distances can be measured directly.

But it is also possible, according to claims 3 and 4 in the measuring tape in the outer strip area through holes to provide a certain grid dimension in a row and in these through-holes drive pin of a measuring wheel to intervene. The measuring wheel can be above the advanced upper side of the measuring tape or also stored below the lower side or in between be. Electrical scanners are coupled to the measuring wheel or are from the measuring wheel via appropriate gear ratios or transfer translations to a transmitter so that the path length from the speed of the measuring wheel Measuring device can be detected. If you choose a grid, that takes on whole values within the decimal system, e.g. B. Millimeter or centimeter division, that's how they are corresponding values (mm or cm) directly from a such counting device can be read without a conversion must be done.  

When using a measuring wheel, it has proven to be useful shown this on one side of the two pulleys of the Provide tape measure, so that the measuring wheel at the same time Edge guide can be used. For particularly long ones Deflection pulleys are dimensional accuracy of the Deflecting pulley over the entire length. To that Account must be taken of claims 6 and 7 provided that the measuring wheel can be rotated separately on the Deflection roller is mounted on one of the two end faces. The measuring wheel can therefore rotate with respect to the deflection roller. The Measuring wheel has a dimensionally correct scope with corresponding Toothings that fit into the contoured holes of the Band engage, causing the measuring wheel in the longitudinal movement the measuring tape is rotated synchronously with the longitudinal movement. Is z. B. a measuring wheel with a radius of 31.83 mm used and provided a division of tens on the circumference, so corresponds to the distance between the center points of the neighboring ones Holes in the measuring tape 1 cm. The measuring wheel is with a counter wheel directly or via gear ratios with a Meßwertumsetzrad coupled via intermediate drives so that the Values also via electrical data acquisition systems can be evaluated for what purpose the Measured value conversion wheel counted electrical pulses and be evaluated. The pulley points opposite Measuring wheel on a slightly larger diameter, for. B. 32 mm, so that manufacturing tolerances in the diameter of the Deflection roller has no effect on the actual measurement have, because only the scanning of the grid provided through holes for the measured value acquisition is decisive. The individual scanning pins are so long trained to reach through the measuring tape. To the They typically show retraction during rotation Cone tips on. The sensing pins can be any  Have cross-sectional shapes. The form only needs to be in that Area that is true to size in the through holes of the measuring tape engages, the cross-sectional shape of the through holes correspond. Are z. B. rectangular through holes used, so is the basic cross section of the probe also rectangular etc.

Thin-walled plastic film or is preferably used as the measuring tape used a metal foil. However, this film may be in itself not be stretchable, so that the measuring marks are always on have a certain spacing grid. When using a clear plastic film, e.g. B. made of polyethylene or Polypropylene, on the transverse or in a pattern adhesive strips are applied, the Markings expediently carried out as a bar code and with a fork-shaped, attached, optical sensor scanned. This sensor is fixed in the measuring device provided so that when passing through the measuring tape Pulses generated by the line markings can be counted. The evaluation of the run length is purely optoelectric. A corresponding Visual display of a measuring device that shows the count value Displays decimal division directly or with a Conversion factor is the actual length of the continuous Indicates the measured material is separate in the device intended.

In order to be able to feed the measuring material to the measuring tape without tension, is provided in a further embodiment of the invention that Measured material first on a conveyor belt with a uniform Voltage is conducted so that it is practically from that Conveyor belt overflows on the measuring belt. The transported In a way, the surface becomes completely tension-free on the  Measuring tape pushed on and caused by friction that the measuring tape is moved forward. Thickness defects like them when using pulleys to slide on the Measuring tape can occur, with a behind the pulley Extension of the measured material and a jam in front of the guide roller Measured goods can arise are avoided.

The invention is described below with reference to the figures illustrated embodiments explained in more detail.

The drawings show:

Fig. 1 is a Stofflängenmeßmaschine;

Fig. 2 shows a deflection roller of a device with a measuring tape with a measuring wheel rotatably attached to this.

In the fabric length measuring machine according to FIG. 1, the material to be measured is removed from a stack 26 or from a roll - which is not shown - via a roller 10 and suitable deflection and guide rollers 11 to 17 and transported to a storage trough 18 , where it is in a loose form is temporarily stored. The material to be measured is withdrawn from the storage trough 18 via a stripping roller 19 , a head roller 20 and a transport roller 21 and fed to the conveyor belt 23 via a dancer roller 22 . The conveyor belt 23 is designed like a conveyor belt and has a non-slip surface, so that the material to be measured rests thereon by friction and is conveyed upwards by the conveyor belt. For the drive of the conveyor belt 23 , an upper deflection roller 25 is provided, which is coupled to the motor drive of the material measuring machine (not shown in more detail) and which has a rotation indicated by an arrow. The dancer roller 22 ensures that the material to be measured always runs onto the conveyor belt 23 in a loose form, so that tension is avoided. The conveyor belt 23 has a sufficient distance between the deflection roller 24 and 25 , so that the material to be measured rests with a relatively large area and is thus conveyed evenly upwards. This ensures that thickness errors on the upper side of the upper motor-driven deflection roller 25 are avoided and that the material to be measured is held uniformly by the own weight on the measuring tape 35 . The measuring tape 35 is guided between the deflection rollers 36 and 37 and extends over a sufficiently long distance in one plane, in the exemplary embodiment in an inclined position from top to bottom. However, a horizontal or a steep position can also be adopted. The weight of the loosely lying, completely identical tension has pressure on the surface, which creates a frictional connection. To increase the frictional connection between the measuring tape 35 and the material to be measured 27 adhesive strips are applied to the measuring tape, the z. B. transversely, extending in the longitudinal direction or structurally so that a lateral run of the measured material is avoided even when the machine is running fast. Only due to the weight of the material and due to the friction caused by the adhesive strips, the measuring tape 35 is transported by the measuring material 27 passing through, so that the measuring tape 35 rotates continuously.

On the edge of the measuring tape, which is not shown in detail and in the present case a thin-walled film, for. B. can be a film made of polyethylene with a thickness of 20 microns, line markings are attached at a distance of one centimeter. An optoelectronic sensor, i.e. a small light barrier in a fork-shaped holder placed laterally on the film, scans the individual continuous strips in the circumference of the measuring tape 35 , so that pulses are generated in accordance with the light / dark areas, which are evaluated by a measuring device 40 . It is entered as an example that 500 cm is displayed.

The material to be measured is also transported via the deflection rollers 38 and 39 into the roll-up area of the machine. In between there can be a viewing area on which the quality of the measured material can be checked during the current measuring process.

A dancer roller 29 is again provided after the inspection surface, which ensures a uniform pull of the measured material. A transport roller 30 adjoining the dancer roller 29 guides the material to be measured via rigid guides or rotating rollers 31 and 32 as well as a further dancer roller 33 to a roller 34 receiving the material to be measured. The dancer roll 33 has the task of ensuring a loose winding of the material to be measured.

The sample is started in the zero position. For this purpose, the material to be measured is guided upwards via the conveyor belt 23 and comes to rest on the measuring belt 35 . It can be seen that the measuring process is already beginning, ie if the material to be measured is pushed further onto the measuring tape, it is transported downwards by the frictional engagement, so that the electro-optical sensor can already measure the length of travel through the measuring tape. The material to be measured is then passed on and introduced into the machine around the deflection rollers 38 and 39 , so that a length measurement is carried out from the start. If such a device is used in conjunction with a cutting device, it goes without saying that the measuring device must provide corresponding correction values for the throughput lengths which take place between the measuring tape 35 effecting the length measurement and the cutting device. An edge control device, which is not shown in more detail here, also ensures that the material to be measured is always guided uniformly and in the direction of the measuring tape. Such known control devices in the systems are known. The sample can be started from the zero position at a preset speed and depends on the handling of the machine.

The device can be used to measure and roll up solid, little stretchable to highly stretchable and stretchable weaving and Knitted fabric in K groups I, II, III and IV as well as for stretchable films, especially for large-meshed ones Curtain fabrics are used. The thickness range of the Measured goods are unlimited, since only their own weight drives the drive of the measuring wheel and no more on the material to be measured overlying transport or measuring wheels are provided.

The measuring tape 35 can instead of the short, non-slip, bristle-like covering proposed here also be provided with other adhesive coatings in order to prevent slippage between the measuring tape and the material to be measured. The printing and counter of the measuring device 40 and the sensor 39 are secured against exchange and change by means of calibration fuses. A measuring mark start and end on the measuring tape 35 basically does not need to be provided, since all the pulses generated by the electro-optical scanner 39 as they pass through the line markings are evaluated, so that the actual length is measured in each case, regardless of where it begins and insert the end of the measuring process in relation to the length of the measuring tape. The deflection rollers 36 and 37 are advantageously smoothly mounted in roller or ball bearings so that there is little friction and the measuring tape runs smoothly.

In Fig. 2 is a special design of a pulley, for. B. the pulley 36 , the measuring device shown. The deflection roller consists of a tube which, for. B. can be over 1 m long, depending on the width of the measured material. At the rear end, end parts 41 are inserted, in which ball bearings 42 are provided, in which a bearing pin 43 engages. On the left side there are two ball bearings 44 and 45 in the tube, which receive a bearing pin of a measuring wheel 47 in the center. The measuring wheel 47 is thus rotatable relative to the deflection roller 36 . The diameter of the measuring wheel 47 is specified as 31.83 mm, so that when the tens are divided on the circumference in a grid of 10 cm, scanning projections 48 are arranged on the surface. In the present case, these scanning projections 48 are round and have conical tips in order to be able to engage the threading during rotation into correspondingly contoured through holes in the measuring tape, which is not shown here. The holes in the film, which is provided as a measuring tape, are attached in the center grid 10 mm, so that a forced rotation of the measuring wheel 47 is effected by the through holes of the measuring tape engaging on the scanning projections 48 . The diameter of the deflection roller 36 is slightly larger than the diameter of the measuring wheel, explicitly 0.17 mm. This ensures that over the length, for. B. with 100 mm long pulleys 36 , slight tolerances of the diameter of the pulley 36 are completely disregarded for the measurement and they have no influence on the measurement result, so that measurement tolerances of less than 3/10 mm can be achieved. Another ball bearing 49 is inserted in the measuring wheel 47 , into which a bearing pin 50 engages. The unit thus formed is arranged to rotate easily in the machine frame. By means of a disk 51 flanged to the measuring wheel 47 , the rotation of the measuring wheel can be transmitted by translation or reduction to a rotating transducer, which generates pulses which can be evaluated electrically or to which a mechanically coupled display is connected, which directly indicates the rotary movement as a measured length value . The counter can e.g. B. have a display range of 0 to 999.99 m. The transmission of the measured values between the measuring wheel 47 and the counter takes place, as indicated, either via intermediate gears and / or a chain or via a transfer device by electrical means.

The invention is not limited to that illustrated Embodiment limited. You can also for Plastics are used that are also double-sided can have structured surfaces.

Claims (11)

1.Device for the continuous length measurement of stretchable or stretchable web-like material to be measured, such as sensitive material webs, in which the material to be measured rests on an endless measuring tape provided with a non-slip surface, which is guided around two deflection rollers over a sufficiently long distance in one plane, with one Measuring device which determines the length from the longitudinal movement of the material to be measured, characterized in that
that the measuring tape ( 35 ) is wider than the material to be measured ( 27 ),
that the measuring tape ( 35 ) runs horizontally or obliquely downwards in the longitudinal direction of movement of the measured material ( 27 ),
that the deflection rollers ( 36 , 37 ) of the measuring tape ( 35 ) are not driven by a motor, and that the material to be measured ( 27 ) moves the measuring tape ( 35 ) in the moving direction in the longitudinal movement,
that the measuring tape ( 35 ) has measuring marks at a certain spacing on at least one side, and
that the measuring device ( 40 ) determines the number of measurement marks during the longitudinal movement of the material to be measured ( 27 ) and specifies the length of passage of the material to be measured ( 27 ) by evaluation. 2. Apparatus according to claim 1, characterized in that the measuring marks are line marks which are detected by an optical sensor ( 39 ) during the passage and converted into electrical quantities which an evaluation circuit converts into measured length values. 3. Apparatus according to claim 1, characterized in that a measuring wheel ( 47 ) is provided which is non-positively or positively connected to the measuring tape ( 35 ). 4. The device according to claim 3, characterized in that the measuring marks in the measuring tape ( 35 ) in a row in a row provided in the same grid through holes and that contour-adapted driving pins ( 48 ) of a measuring wheel ( 47 ) of the measuring device engage. 5. The device according to claim 4, characterized in that the measuring wheel ( 47 ) is applied in extension of one of the two deflection rollers ( 36 ) of the device, which deflection rollers ( 36 ) are mounted in the device to reduce the friction by means of roller or ball bearings. 6. The device according to claim 5, characterized in that the measuring wheel ( 47 ) relative to the deflection roller ( 36 ) is rotatably mounted on the end face thereof. 7. The device according to claim 6, characterized in that the diameter of the measuring wheel ( 47 ) is slightly smaller than the diameter of the deflection roller ( 36 ). 8. Device according to one of the preceding claims, characterized in that the measuring tape is a thin-walled film. 9. The device according to claim 8, characterized characterized in that adhesive strips on the film, like strips with an adhesive grain. 10. The device according to one of claims 1 to 9, characterized in that the measuring tape or the film instead of the short, non-slip surface Has through holes distributed over the surface and that a suction device below the leading Foil side is provided or the device in one Suction device is arranged and that by generation a negative pressure the accumulated material to be measured on the measuring tape or the film is sucked in during the longitudinal movement.   11. Device according to one of the preceding claims, characterized in that a motor-driven conveyor belt ( 23 ) is provided, which has a non-slip surface and which is at least as wide as the measured material ( 27 ) and the measured material ( 27 ) on the measuring belt ( 23 ) transported.