DE3911754A1 - Tape measure with bar code length markings and digital reader - has bar codes arranged transversely across tape, each containing defined length marking - Google Patents

Abstract

The tape measure has a flexible tape which can be coiled up and which carries length markings (80) which can be read digitally. Bar codes arranged transversely across the tape each contain a defined length marking. The bar codes on the uncoiled tape are read by a digital reader (39). The bar codes can be arranged along the tape in a millimetre pattern. Alternatively, they can have a separation of 2 mm and a height of 8 mm. USE/ADVANTAGE - Tape measure enables cost of making building records to be reduced.

Description

Technical field

The invention relates to a length measuring tape with a flexible len, windable tape that verse with length markings hen is. The invention further relates to a device for Measure old buildings using several these length measuring tapes. The invention also relates to a Method of measuring distances between each two measuring points, at which these measuring tapes are also used find.

The purposes of linear tapes are very diverse. For example, they are also used to measure old ones Buildings used.

The problem of renovating old houses has recently been gaining ground more and more important. An old house renovation requires the most accurate construction and inventory of the local conditions. Exi for most old houses However, there are no existing or other usable plans no It is therefore inevitable to renovate an old house next create new inventory plans, d. i.e., one to create so-called "building survey".

Especially in cases of old house renovation occurs very often a high exceeding of the originally planned costs a. Ultimately, this is often due to a poor and inaccurate construction commencement. Manufacturing Building recordings is a very time-consuming and therefore costly process activity, which is therefore very expensive.

These costs can reach exorbitant heights  if "deformation-correct" building recordings have to be made sen. Such building recordings are made by the state monument authorities Required regularly if there is valuable building material should be recorded in inventory. With these Construction recordings that comply with the requirements must be very precise according to archaeological aspects are taken into account, what is in common hang the planning co with the required measurement accuracy most extremely expensive.

State of the art

It is known to take building pictures of the aforementioned type perform with length tapes that consist of a flexible windable tape exist and with a length marking are provided. These known length measuring tapes are in Relation to the measurement of buildings regularly by handled two people. It is easy to imagine that a building survey, especially if it is a deformation faithful graphic documentation of the building in question should contain, extremely personnel and therefore costly is.

Presentation of the invention

The invention is based on this prior art based on the task of a length measuring tape and in particular a device suitable for this length measuring tape and a to specify adapted method with which the Messauf especially in the production of building shots Lich simplify.

This invention is by a length tape measure of the beginning named type, which is characterized in that the Length marking of the tape can be read digitally. Since it is no longer human to read Readings are inaccurate or incorrect readings excluded.  

This digital readability can be classified according to a characteristic of Realize the invention in that across the tape measure Bar codes are present, with each bar code being a correct length marking included. About one by the measure Fixed automatic reader can each unwound tape length can then be read directly digitally.

The length of the unwound end of the tape is thus not determined by an angle or length counter, son it is the length developed in each case by an ent speaking digital length reading. The reader does not necessarily need to be firmly attached to the tape or its pickup mechanism to be connected, because at every length location of the Tape measure the tape length there is noted. These In contrast to the "normal" measuring tape, the length is given digitally available.

Based on known length measuring tapes, in which a Millimeters are the smallest length distance, too the barcodes along the tape are in millimeter increments the. It has proven to be advantageous in this context exposed the distance between two neighboring ones Barcodes 0.2 mm and the barcodes themselves in the longitudinal direction the tape measure about 0.8 mm high. On the one hand the barcodes can then not be too expensive Readers are read and on the other hand is the intermediate space sufficiently small with 0.2 mm.

A measuring tape to be used for common purposes can then two codes for a maximum two-digit meter gabe, a code for a decimeter and for have a centimeter and a millimeter specification, so that Codes for lengths up to 99.999 m can be read.

To be able to check the automatic reading internally NEN, another code can be used as a check on the barcode code must be present.  

If several measuring tapes for the measuring process ver at the same time be applied to the device according to the invention and in a special process using this device the case can then be on additional tape measures another code to identify the concerned Tape measure.

The device according to the invention for measuring old ones Buildings are characterized in that at least two, in front preferably three of the above linear measure according to the invention bands are available, the digital reading locations of the Measuring tapes are spatially fixed and in one plane lie; Furthermore, the measuring tapes are arranged so that they are in the same plane containing the reading locations is pivotable are held on the device.

Around the length measuring tapes with certainty in the same plane Another characteristic is being able to swivel ne the invention on the device a he a light beam generating light source available. Your beam of light rotates there at around an axis that is perpendicular to the plane of the reading locations and the pivoting plane of the measuring tapes is aligned. In particular special, this light beam level is also the swivel plane of the Tapes.

According to an advantageous embodiment, one has term device three cantilever arms attached to a support structure tion are attached and extending in the same plane ken. A length measuring tape is attached to each cantilever so that the measuring tapes are in the same plane, parallel to the plane of the Cantilever arms can be pivoted. The measuring tapes are included so attached to each arm that the reading location for each band always the swivel axis available for this belt on the cuts the arm in question. Regardless of the swivel development of the relevant measuring tape is exactly the extended strap length determined with respect to the cantilever.

The economic outlay associated with one such  term device can be further reduced if the front direction a computer is assigned in which the digital read length measurements can be entered. The two Distances determined between two measuring points can then be their mutual angular position exactly by the computer tt and arbitrarily, also graphically.

Further features and advantages of the invention are those in the other specified features and the successor the embodiment shown.

Brief description of the drawing

The invention is based on the in the drawing illustrated embodiment described and he purifies. Show it:

Fig. 1 is a schematic representation of the erfindungsge MAESSEN measuring process with three measuring tapes for Ausmes sen from the spatial arrangement and length of a wall,

Fig. 2 is a schematic perspective view of an arm arranged on a device according to the invention digitally readable coilable measuring tape length,

Fig. 3 is a plan view of the Vorrich device according to the invention, the tape has three of the lengths shown in Fig. 2 and

Fig. 4 is a partial plan view of the tape measure used in Figs. 1, 2 and 3.

Ways of Carrying Out the Invention

In Fig. 1, the device 10 according to the invention, described in more detail below, is shown, with which a wall 12 of a building can be measured, ie can be recorded.

Each of the points 14 , 16 , 18 , 20 of this wall to be measured is jointly "measured" by three measuring tapes 23 , 25 , 27 , which are only shown in dash-dotted lines. The length between point 14 and three fixed points 22 , 24 , 26 of device 10 is measured. The lengths between points 16 , 18 and 20 and the respective three fixed points 22 , 24 and 26 are also averaged accordingly. The three joined together, for example, in the measuring point measuring tapes are 14 hineinverschwenkt the route D 1 in the point 16 for measuring the point 16 along. After reading the corresponding lengths between the point 16 and the fixed points 22 , 24 , 26 , the three bands are pivoted further along the path D 2 into the point 18 and then also into the point 20 .

The swivel paths D 1 , D 2 , D 3 lie in the same plane 28 in which the fixed points 22 , 24 , 26 are also located. The locations 14 , 16 , 18 , 20 - and with correspondingly more measuring points the position of the entire wall 12 - can be determined in this way in terms of position exactly with respect to the fixed points 22 , 24 , 26 .

The three fixed points 22 , 24 , 26 are stationary existing reading locations for the length measuring tape 23 , 25 , 27 in question . This fixed position of the points 22 , 24 , 26 also remains when the three measuring tapes are pivoted in the plane 28 . The pivot axes 29 , 30 , 32 , about which the bands 23 , 25 and 27 are pivoted, are thus perpendicular to this plane 28 .

Thus, the axis 32 is the axis of rotation for a table-like support 34 , with which this support can be pivoted on an arm 36 parallel to the plane 28 . On the pad 34 there is a winding mechanism 38 , with the help of which the length measuring tape 27 can be wound up about an axis 42 parallel to the plane 28 . At the intersection of the band 27 with the pivot axis 32 , a reading head 39 is present above the band 27 , with which the band 27 can be read at this point in its transverse direction.

The winding mechanism 38 ensures that the extended band 27 is always present in a predetermined tightness. The read head 39 only reads the length range of the tape 27 in the area of the fixed point 26 when the tension is tight.

In a manner corresponding to the tape 27 on the arm 36 , the length measuring tape 25 is pivotally mounted on an arm 37 and the length measuring tape 23 on an arm 40 . The arms 36 , 37 , 40 lie in a plane which is aligned parallel to the plane 28 . The arms enclose an equally large angle 46 of 120 degrees between them.

At the common intersection of the three arms 36 , 37 , 40 , which lies on an axis 48 which runs ver perpendicular to the plane 28 , a light source 50 is present. This light source 50 rotates about this vertical axis 48 and thereby emits light rays 52 . These light beams 52 lie in the plane 28 , so that the distances D 1 , D 2 , D 3 and thus also the measuring points 14 , 16 , 18 , 20 are displayed on the wall 12 through them.

The three-arm 36 , 37 , 40 is mounted on a foot plate 60 via a foot construction containing the vertical axis 48 , so that the foot construction can be moved in the direction 62 . The plate 64 is in turn mounted on another foot plate 64 so that it can be pushed together with the foot construction in direction 66 , which is transverse to direction 62 , ver. The plate 60 is in turn mounted on a further base plate 68 which can be adjusted in the vertical direction, ie parallel to the axis 48 at several places not shown Darge. The center point 70 of the three arms 36 , 37 , 40 can thus be aligned and measured exactly in terms of height and within the plane 28 .

The tapes 23 , 25 , 27 used in the present example cases have bar codes 80 , each of which codes 80 extends in the transverse direction 82 over the respective tape.

The codes 80 have a height 84 of approximately 0.8 mm. The in the longitudinal direction of the tape between adjacent codes existing space 86 is approximately 0.2 mm, so that the codes are available in a radial dimension of 1 mm along the tape.

On the code itself, there are two codes in the transverse direction 82 for a two-digit meter, a code for a decimeter, a code for a centimeter and a code for a millimeter. Lengths between 0.000 m and 99.999 m can be entered with. In addition, there is also a code with which the respective band 23 , 25 or 27 is identified. The three lengths read digitally when recording a measuring point 14 must be assigned to the respective measuring tapes 23 , 25 , 27 . It has proven to be advantageous to equip each code position with an additional code position, which then forms a check code for this code in question. In this way, the reading process can be monitored within the device. Device-internal errors are practically impossible.

The wall 12 is accommodated in the following manner.

It is assumed that the measuring points 14 , 16 , 18 , 20 of the wall 12 are to be determined in terms of their position. For this purpose, the device 10 is set up on a base 72 in such a way that its central axis 48 runs perpendicular to the plane 28 containing the points 14 , 16 , 18 , 20 . The three combined bands 23 , 25 , 27 are then placed at point 14 . For this purpose, the tapes are unwound to different degrees from the fixed locations 22 , 24 , 26 . After the tapes have been tightened again by their respective winding mechanism 38 to such an extent that they have a certain tightness, a corresponding code 80 is read on the respective tape by the respective reading head 39 . If there is just the space 86 between two codes below the reading head, a new measurement is carried out with the tape being pulled out and pulled back again. The code 80 is then fed to a computer, from which the location of the measuring point 14 relative to the axis 48 can then be determined exactly who can. By a possibly connected to the computer sen drawing device then this measuring point 14 can also be recorded. The same can be done with all other measuring points. With the help of the rotating light beam 52 it is ensured that the read locations 14 , 16 , 18 , 20 in the pivot plane 28 of the bands 23 , 25 , 27 lie gene.

To align and adjust the device 10 , the three measuring points are guided, for example, to point 70 . Since the distance between the pivot axis 32 of each reading head and thus between the fixed locations 22 , 24 , 26 and the center point 70 is known and is, for example, 50 cm, the reading head 39 on the three belts 23 , 25 , 27 must also be this Measure of 50 cm. If this is not the case, the winding mechanism 38 must be adjusted accordingly for each band. In this way, an exact adjustment of all three bands is easily possible.

With the device according to the invention, not only cross sections but also longitudinal sections of buildings can be determined and displayed. With respect to the drawing - - To this end, only the device about 90 degrees must be tilted at a Ge buildings are attached. The plane 28 then runs in contrast to the drawing in a vertical orientation. Longitudinal sections can then be determined within this vertical plane.

Claims (20)

1. length measuring tape with a flexible, windable tape on which length markings are present, characterized in that the length markings ( 80 ) are digitally readable. 2. Tape measure according to claim 1, characterized in that

• - Are present across the same bar code ( 80 ), each bar code ( 80 ) containing a certain length marking, and
• - A reader ( 39 ) for the bar codes ( 80 ) is attached to it, so that the respective unwound tape length is digitally readable bar.

3. Tape measure according to claim 2, characterized in that the bar codes ( 80 ) are present along the tape in millimeter increments. 4. Tape measure according to claim 2, characterized in that each along the tape measure ( 23 , 25 , 27 ) to each other neigh disclosed bar codes ( 80 ) have a distance ( 86 ) between them. 5. Measuring tape according to claim 4, characterized in that the distance ( 86 ) is approximately 0.2 mm and the bar codes ( 80 ) in the longitudinal direction of the measuring tape are approximately 0.8 mm high ( 84 ). 6. Measuring tape according to claim 2, characterized in that each bar code ( 80 ) has at least five codes, namely:

• - two codes for a maximum 2-digit meter specification,
• - a code for a decimeter,
• - a code for a centimeter,
• - A code for a millimeter specification, so that codes for lengths up to 99.999 m can be read.

7. Measuring tape according to claim 6, characterized in that the bar code ( 80 ) has a further code for identifying the measuring tape in question ( 23 , 25 , 27 ). 8. tape measure according to claim 6 or 7, characterized in that the bar code ( 80 ) has one or more other codes as a check code. 9. Device ( 10 ) for measuring old buildings, characterized in that

• at least two, preferably three length measuring tapes ( 23 , 25 , 27 ) according to one of claims 1 to 8 are present,
• - The digital reading locations ( 22 , 24 , 26 ) of the measuring tapes ( 23 , 25 , 27 ) are spatially fixed to one another,
• - The reading locations ( 22 , 24 , 26 ) lie in one plane ( 28 ) and
• - The measuring tapes ( 23 , 25 , 27 ) in this plane ( 28 ) are pivotable.

10. The device according to claim 9, characterized in that a light beam ( 52 ) can be generated, which lies in a plane parallel to the plane ( 28 ) of the reading locations ( 22 , 24 , 26 ) and is pivotable or rotatable in this plane. 11. The device according to claim 10, characterized in that the plane of the reading locations ( 22 , 24 , 26 ) and the plane of the light beam ( 52 ) coincide. 12. The apparatus according to claim 9, characterized in that

• a support structure is present which can be aligned perpendicularly ( 48 ) to a flat reference surface ( 28 ),
• three cantilever arms ( 36 , 37 , 40 ) are fastened to this support structure, each of which can be aligned perpendicular to the support structure, which are present in the same plane and which have a predetermined angle ( 46 ) between them of in particular 120 degrees,
• - At the predetermined distance from the support structure on each arm ( 36 , 37 , 40 ) the pivot axis ( 29 , 30 , 32 ) of a pivot member ( 34 ) is present, which is parallel to the support construction and thus aligned perpendicular to the arm or the reference surface is
• - Each arm ( 36 , 37 , 40 ) is assigned a length measuring tape ( 23 , 25 , 27 ) so that the reading location ( 22 , 24 , 26 ) for this tape always intersects the pivot axis available for this tape.

13. The apparatus according to claim 12, characterized in that the three pivot axes ( 29 , 30 , 32 ) of the three arms have an equal distance from the axis ( 48 ) of the support construction. 14. The apparatus according to claim 13, characterized in that in the reading state of the tape that tape length can be read on the same ge, which corresponds to the distance of the pivot axis ( 29 , 30 , 32 ) from the support structure ( 48 ). 15. The apparatus of claim 10 and 12, characterized in that the pivot or rotation axis of the light beam coincides with the axis ( 48 ) of the support structure. 16. Device according to one of the preceding claims, characterized in that the digitally determinable linear dimensions an electronic Computers can be fed. 17. The apparatus according to claim 16, characterized in that the computer is connected to a drawing device, from which the distances determined by the computer between each two measuring points ( 14 , 16 , 18 , 20 ) are mutually recordable at an angle. 18. A method for measuring distances between each two measuring points, characterized in that

• - From a first fixed reference point from the free end of a first measuring tape and from at least a second fe most reference point from the free end of a second measuring tape is held first to the first measuring point and then to the second measuring point, with the required pivoting of the Measuring tapes are carried out in a plane which contains the distance to be determined between the two points and the two fixed reference points,
• - The extended tape lengths between the fixed reference points and the first measuring point and the second measuring point are each read digitally,
• the digitally read length values are fed to an electronic computer,
• - The computer determines the distances between the two measuring points and the angles between two neighboring distances,
• - The distances are mediated according to location and / or angle.

19. The method according to claim 18, characterized in that the measuring method with three bands of the corresponding then three fixed reference points lying in one plane  is carried out so that the locations of each measurement points must be clearly determined in the room. 20. The method according to claim 18 or 19, characterized in that the measuring points with respect to the reference points are positioned correctly be drawn.