WO1988007171A1

WO1988007171A1 - Electronic tape measure

Info

Publication number: WO1988007171A1
Application number: PCT/EP1988/000181
Authority: WO
Inventors: Dieter Busch
Original assignee: Prüftechnik Dieter Busch + Partner Gmbh & Co.
Priority date: 1987-03-12
Filing date: 1988-03-09
Publication date: 1988-09-22
Also published as: DE3707963A1

Abstract

A tape measure has a known flexible length mark support with legible length marks along its length, which can be pulled out from a housing. The known tape measures which can be read with the naked eye are often hard to read under unfavorable conditions of use and do not have the capability of entering the result in a computer other than by the user if the result is to be evaluated in such an instrument. According to the invention, however, the length marks (5) are equipped with electronic scanning means and an electronic scanning device (6) incorporated in the housing (1a, 1b) delivers an electronic measurement signal for each length mark (5) scanned. The measurement signals can either be added individually when the length mark support (3) is pulled out and subtracted when it is rewound or be characteristic of a coding of the length marks (5) which indicates their distance from a reference position (4) on the length mark support (3).

Description

Description of the electronic tape measure

The invention relates to a tape measure according to the preamble of claim 1.

In the known tape measures, the length marks are printed, visible markings in the form of lines or the like with assigned printed numbers, and it often happens that an error is made in reading, e.g. B. assigns a wrong neighboring number to a marker. In critical visibility conditions, it can also be difficult to correctly read the markings with the numbers. In addition, when working with the known

Tape measures, if the measurement result is to be entered into a data processing device for evaluation, from which the person using the tape measure the measurement result is entered into the device via a keyboard or the like, which is often not easily and quickly possible because the keyboard is at a remote location Place.

The invention has for its object to provide a tape measure that reliably displays the correct measurement result and / or offers the possibility of entering the measurement result directly in the form of electrical signals into a data processing device, bypassing a keyboard.

The above task is accomplished by the in the labeling section of the features specified solved.

In the electronic tape measure according to the invention, electrical measurement signals are continuously generated when the length mark carrier is pulled out of the housing, the measurement result corresponding to the length of the length mark holder pulled out and thus the measured length being obtained by either adding the measurement signals as individual signals when pulling them out and subtracting them when pulling them in or coded length marks are used, the coding of which corresponds to their respective distance from the start of the carrier, and the measurement signals passing the scanning device are decrypted. Since the measurement result is always provided in the form of electrical signals, it can easily be converted internally into a display that is easy to read on the housing, or can be entered directly into a data processing device or the like via a remote connection. The display or input is reliable and very fast, and the user can get very precise measurement results with relatively little attention when handling.

The measure according to claim 2 facilitates the pulling out of the length mark carrier over the distance to be measured without special attention.

The measure according to claim 3 enables the use of the tape measure according to the invention as a normal tape measure.

The measures according to claims 4 and 5 make the tape measure according to the invention independent of external devices and facilitate its operation. The small size of the required components commercially available ensures that the tape measure remains handy. According to claim 6, however, the tape measure can also, if necessary additionally, to an external display and / or signal processing device can be connected.

The presence of the measurement result in the form of electrical signals also creates the possibility, according to claim 7, of integrating a program-controlled display into the housing, which graphically guides the user with regard to successive measurement processes.

The subclaims 8 to 13 have measures related to the formation, processing and

Passing on the electrical scanning signals are advantageous.

The invention is explained in more detail below with the aid of exemplary embodiments. The drawing shows schematically in perspective view:

1 shows a first embodiment of the device according to the invention with counting and opto-electronic scanning of the length marks,

Fig. 2 shows a second embodiment of the device with magnetic, possibly coded length marks, which can be counted or read by means of a sound head, and

Fig. 3 shows a third embodiment of the device with mechanical tap and subsequent electro-optical implementation of the scanned length marks for the purpose of counting.

In all of the embodiments, a winding device 2 is provided in a housing 1 made of housing parts 1 a and 1 b for the spring-loaded or the like End can be pulled out approximately tangentially from the winding box 2a. The length mark carrier 3 consists of a flexible material which has the mechanical properties required for a tape measure and is also suitable as a carrier for the readable length marks. It is provided at its free end with a stopper 4, which comes into contact with an outer edge of the housing 1 in the fully retracted state of the layer mark carrier 3 and which fixes the zero position thereof.

The length marks 5 begin on the fully retracted length mark carrier at one in the exemplary embodiments close to its tread parts from the housing 1 arranged in this scanner 6.

In the embodiment according to FIG. 1, the scanning device 6 is an opto-electronic device that responds to light that passes through or is reflected by the carrier 3 at each appropriately designed, passing length mark 5, and an electrical measurement signal in the form of a Gives impulse. These pulses are counted by a counter built into the housing part 1b, and the respective counter reading is, if necessary after conversion by means of a microcomputer 7 also built into the housing part 1b, as the number of length units by which the end of the length mark carrier 3 from the stopper edge 1c (Fig.3) of the housing 1 has been pulled out, displayed on a display 8 integrated in the housing part 1b. When the length mark carrier 3 is pulled out, the count is made as an addition and when it is pulled in as a subtraction, so that the counter reading corresponds at all times to the distance between the housing stopper edge 1c and the free carrier end.

The embodiment according to FIG. 2 differs from that according to FIG. 1 in that here the scanning stone direction 6 is designed as a magnetic or sound head that works with a magnetic layer on the length mark carrier, in which the length marks are encoded as individual pulses or according to their distance from the free carrier end permanently stored. One and / or the other type of length mark 5 can be present on the length mark carrier 3. With length marks of the first kind, the use of several tracks with marks offset in the longitudinal direction is recommended in order to achieve problem-free resolution with the finest length gradation. The individual brands are processed like the brands in the embodiment according to FIG. 1. Coded marks are decrypted before being shown on the display 8 by means of the microcomputer 7 or the like. You specify the length of the extracted carrier piece absolutely, ie without the need to count uncoded individual stamps, and thus more reliably.

In the embodiment according to FIG. 3, the scanning device 6 is a rung wheel, the rungs 6a of which engage in a perforation of the length mark carrier 3, the holes of which form the length marks 5. The number of revolutions that the sprocket wheel performs when the carrier is pulled out and in — additively or subtractively — is a measure of the carrier length protruding from the housing 1. On the face side, light-reflecting marks 6b are attached to the sprocket, the division of which, if necessary, can be much smaller than the division of the rungs 6a, so that a much finer length resolution than specified by the spacing of the perforation holes 3a can be achieved with them. The end-side sprocket wheel marks are scanned by a refracting light barrier 9 built into the housing part 1b, and the unencoded individual pulses generated in the process are processed as described above. In all versions, the supply of the electronic components with energy is provided by batteries 10.

In all embodiments, as indicated only in Fig. 1, an infrared transmitter 13 can be inserted into the housing 1 for the remote transmission of the data that may be calculated in the housing 1 to a local device, e.g. a central EDP can be provided. All versions are also provided with a computer interface 12 for a cable connection to a computer evaluating the data that arises.

The broad side of the housing part 1b is provided in the various versions with a keypad 14, the keys of which, in cooperation with the built-in microcomputer 7, in addition to the functions ON and OFF, the display of the ambient temperature measured by a thermometer 11 protruding from the housing 1 and various computing and storage operations, e.g. the addition of measured individual length values and the display of the total length.

In cooperation with the microcomputer 7 or other computing devices, the temperature measurement also allows a mathematical compensation of thermal expansions of the length mark carrier 3. This is a particularly important design feature of the invention, because it means that the mechanical properties such as flexibility, abrasion resistance, stretch resistance, weathering and aging resistance are largely independent u. Like. Is achieved by the coefficient of thermal expansion for the selection of the material for the length mark carrier. This in turn increases the number of materials which are principally available for the purpose of length mark carriers, including considerably less expensive and possibly mechanically more suitable than would otherwise have to be chosen to achieve the lowest possible thermal expansion. The length mark carrier 3 is preferably also provided with length marks which can be read by the eye, so that the electronic measuring tape can still be used like a normal measuring tape in the event of a battery or electronics failure.

Instead of the simple display shown in the drawing, a larger one could also be used for an operator guidance made possible by the microcumputer and possibly graphically supported.

Claims

1. Tape measure with a housing and a wound in this, against a return force pullable from this flexible length mark carrier with permanent, readable length marks, which are distributed over the length of the length mark carrier behind a reference point on this, characterized in that the length marks (5) are set up so that they can be scanned by electronic means, and an electronic scanning device (6; 6, 9) is built into the housing (1) for the length mark carrier (3) that runs past it when winding and unwinding, the length mark for each scanned length mark (5) either supplies an electrical measurement signal to a measurement signal counter 1, which adds the measurement signals when the length mark carrier (3) is pulled out and subtracts it when the length mark carrier is pulled in, and / or with a coding of the length marks (5) that determine their distance from the reference point on the Length mark eng (3) reproduces an electrical measurement signal corresponding to the coding.

2. Tape measure according to claim 1, characterized in that the scanning device (6; 6,9) and the length mark carrier (3) are assigned to each other so that the reference point on the latter under the scanning point of the scanning device (6; 6,9) is when the length marker carrier (3) is aligned to 1 with its free end edge (4) with a reference edge on the outside of the housing (1c) is retracted into the housing (1).

3. Tape measure according to claim 1 or 2, characterized in that the length mark carrier (3) is additionally provided with a length scale mil readable to the eye.

4. Tape measure according to one of claims 1 to 3 with a measuring signal counter, characterized in that the measuring signal counter is installed together with a display (8) for displaying the counter reading in the housing (1).

5. Tape measure according to one of the preceding claims with coded length marks, characterized in that a display (8) with decoding device is installed in the housing (1).

6. Tape measure according to one of the preceding claims, characterized in that a device (12; 13) for remote transmission of the measurement result to a data processing device and / or to a display device is integrated in the tape measure.

7. tape measure according to one of the preceding claims, characterized in that in the housing (1) a program-controlled display for a possibly graphically supported operator guidance with regard to successive measurements is installed.

8. Tape measure according to one of the preceding claims, characterized in that the length mark carrier (3) is a magnetic tape or a magnetic wire which / is guided past a housing-fixed megnet head (6) and on which the length marks (5) are magnetically permanently stored are.

9. tape measure according to claim 8, characterized in that the magnetic tape or the magnetic wire is equipped with a sound carrier of high remanence.

10. Tape measure according to claim 7 or 8, characterized in that the length marks (5) are recorded as magnetic rectangular pulses.

11. Tape measure according to one of claims 1 to 7, characterized in that the length marks (5) with transmitted or reflected light are shown as light-dark contrasts and the scanning device (6; 6, 9) responds opto-electronically to these contrasts .

12. Tape measure according to one of the preceding claims, characterized in that an infrared transmitter (13) is installed in the housing (1) for remote transmission of the measurement result.

13. Tape measure according to one of the preceding claims, characterized in that the tape measure is equipped with a measurement signal formation and / or processing in the sense of thermal expansion compensation of the length mark carrier (3) influencing thermometer (11).