DE10353506A1 - Measurement device for measuring height difference in at least one surface has at least two supports for application to reference region, movable measurement pin, third support that can be moved in direction of reference region - Google Patents

Abstract

The measurement device has at least two supports (3,3') lying in a plane and for application to the reference region (2') and a measurement pin (4) that is movable in the direction of the second surface region (2'') and coupled to a measurement indicator (5). A third support (6) is provided that can be moved in the direction of the reference region. An independent claim is also included for a method of measuring a height difference in at least one surface between a reference region and a further surface section.

Description

The The invention relates to a measuring device and a method for measuring a height difference according to the features in the claims 1 and 11.

Measuring instruments for measurement of height differences in surfaces are well known from the general state of the art today. In the known measuring devices It is usually a dial gauge, which is fixedly connected to a stand is that are placed in the area of the surface to be measured on this can. This stand usually has two or three supports in one plane to determine the static certainty of the stand to ensure. As a dial gauge is usually a standard dial gauge with a sliding Measuring bolt, over a transmission is coupled with a measured value display used. The measured value display is located on dial gauges in a display housing and the measured value is determined from the displacement path of the measuring bolt and from a pointer over a gear is coupled to the sliding measuring pin, displayed. With such measuring devices can on the one hand height differences in surfaces be measured, or by placing workpieces on a reference surface the Workpiece thickness.

Indeed show the known from the prior art measuring devices only reliable measurements when the supports are resting on a flat or even surface become. But have to height differences in curved Surfaces are measured, then occur uncertainties on the measurement, which leads to incorrect measurements to lead.

task the present invention is to show a generic measuring device, with the height difference measurements also on curved ones surfaces carried out can be.

These The object is achieved by the feature in the characterizing part of the claim 1 solved.

By the embodiment of the invention meter is guaranteed that all three supports always rest on a curved surface. Since a circular arc is clearly defined by three points, can a surface curvature in the first place approximation always be considered as a circular arc. By the proposed measure becomes the height difference not opposite a flat surface, but opposite a curved (in first approximation a circular arc) surface Are defined. Thus, it is advantageously possible on a curved surface either a height difference in the surface himself, d. H. a bump or a dent, or the height difference opposite one second surface to measure with a very low measurement uncertainty.

According to the claims 2 to 4 a simple and safe handling of the meter is achieved. By the appropriate selection of spring elements, d. H. through the correct selection of their spring stiffness, the meter can be different for hard or soft surfaces be used. In the case of soft surfaces are preferably soft Spring elements used while for measurements on hard surfaces too tougher Spring characteristics can be used. Also in case of scratch sensitive surfaces Preferably spring elements are used with soft spring characteristics. The parallel arrangement of the third support and the measuring bolt according to claim 3 guaranteed the simple, low-friction displacement, by means of the handle according to claim 4 performed becomes.

Also the handle itself is according to claim 5 displaceable against the spring force of a third spring element. By this measure is the dosage of the Andruckskraft of the measuring device on the to be measured surface easier.

With Help of the stop according to claim 6, the maximum displacement of the third support is adjustable. By this measure, in connection with different gear ratios of the measured value display Different measuring sensitivities for the measuring device can be set.

By the embodiment according to the claims 7 and 8, a trailing gear is generated so that one of the surface curvature of reference surface independent Measurement of height difference h is feasible. By changing the gear ratio the measuring range or the resolution of the measuring device can be changed. Next the change the gear ratio can as a second parameter the distance between the individual supports and the measuring bolt changed become. Because of this variation, the meter can be used for different Surface curvatures, d. H. For different radii of curvature, be interpreted.

In addition to the purely mechanical realization of the measured value display, this can also be carried out in other embodiments according to claim 9 as an electrical measured value display. In this case, as is known from the general state of the art, the stroke of the measuring bolt is converted into an electrical signal which corresponds to a defined displacement dimension and for an electrical indication prepares.

With Help of the method according to claim 10 become height differences (h) in at least one surface between a reference area and another surface section with the proposed meter measured easily.

in the The invention is based on a preferred embodiment in a single figure closer explained.

In 1 is a measuring device 1 for measuring a height difference (h) shown schematically in its top view. The measuring device 1 has a housing 11 in which a measured value display 5 is integrated. The measured value display 5 consists essentially of a scale 5a a pointer 5b , a gearbox 5c a gear 5d and a rack 5e , Around the measuring range of the measuring device 1 to limit, points the measuring bolt 4 on both sides of the measured value display 5 a stop 12 . 12 ' on. The measured value display 5 connects a measuring bolt 4 articulated with a third support 6 , About a handle 10 are the measuring bolt 4 against the spring force of a first spring element 7 and the third support 6 against the spring force of a second spring element 8th at the same time in the housing 11 displaceable. Both the measuring pin 4 as well as the third support 6 are in the grip 10 anchored in place. A third spring element 9 that between the case 11 and the handle 10 is arranged, serves to reset the handle 10 after a measuring operation with respect to the housing 11 , To support the measuring device 1 on a surface 2 are attached to the case 11 two supports 3 . 3 ' arranged on the side on which the third support 6 and the measuring bolt 4 out of the case 11 are pushed out. The attachment points of the three supports 3 . 3 ' . 6 and the touchdown point of the measuring bolt 4 lie in a plane.

As further out 1 recognizable, are the supports 3 . 3 ' on a reference area 2 ' the surface 2 on, while the measuring bolt 4 from another surface section 2 '' , which is a height difference (h) from the reference range 2 ' has, is arranged at a distance. The reference area 2 ' is in 1 just shown, but can due to the proposed design of the meter 1 also be curved. This is symbolically represented by the radius R.

The proposed meter 1 is particularly suitable for measuring height differences in a surface 2 , such as the height and depth measurement of bumps or dents. The surface 2 may have a curvature as already described. Next you can use the meter 1 also height differences between different surfaces 2 be measured. Also in this case is the planarity of the surface 2 no prerequisite for error-free measurement.

Before starting a height difference measurement with the meter 1 are the third support 6 as well as the measuring bolt 4 due to the spring forces of the first and the second spring element 7 . 8th in conjunction with the third spring element 9 largely in the housing 11 moved in. To a height limit (h) in a surface 2 or measuring between two surfaces becomes the measuring device 1 by means of the handle 10 about the supports 3 . 3 ' on a reference area 2 ' the surface 2 hung up. Subsequently, the handle 10 towards the surface 2 against the spring force of the three springs 7 . 8th . 9 pressed until the sliding movably mounted third support 6 also on the reference area 2 ' rests. The measuring bolt 4 becomes parallel to the third support in this process 6 postponed. The stationary on the third support 6 arranged measured value display 5 is also moved in parallel with this displacement process, which in turn the measuring pin 4 drags. The measured value display 5 consists, as already described above, of a pointer 5b that has a gearbox 5c as well as a gear 5d with a fixed to the measuring bolt 4 arranged rack is in operative connection. In the further course in the measurement of the height difference (h) becomes the grip 10 continue towards the surface 2 shifted, but only the measuring pin 4 in the direction of the further surface section 2 '' with the articulated measured value display 5 is moved. About the fixed to the measuring bolt 4 arranged rack 5e becomes the relative displacement of the measuring bolt 4 opposite the third support 6 over the gear 5d as well as the transmission 5c on the pointer 5b transmitted by this relative displacement its angular position with respect to the housing 11 changed. At the top of the pointer 5b is the scale 5a , at which a measured value of the relative displacement between the measuring pin 4 and the third support 6 is shown. Around the measuring range of the measuring device 1 to limit in a meaningful measuring range, are at the measuring bolt 4 on both sides of the measured value display 5 one stop each 12 . 12 ' arranged. In a further embodiment, the transmission 5a also by the gear 5d and the rack 5e be replaced.

In the proposed, preferred embodiment, the Aufsetzpunkte the supports 3 . 3 ' as well as the third Auflagers 6 each 20 mm apart. With the help of this configuration can be a height offset (h) in a surface 2 be measured easily and easily, whose surface curvature is greater than 300 mm. By changing the distance of the supports 3 . 3 ' , the third edition 6 , as well as the measuring bolt 4 , the meter can 1 be designed for different surface curvatures. An increase in the distance of said components from each other allows the measurement of weakly curved surfaces, ie surfaces with a larger radius R, the reduction of the distance means an adjustment of the meter 1 to smaller radii or more curved surfaces. The distances are preferably equidistant, but this is not a prerequisite for the function of the measuring device 1 represents. In the proposed embodiment, the measuring range is +/- 5 mm, but can be adjusted or changed as desired via the gear and / or gear and / or rack and pinion ratio. A larger translation means a finer measurement resolution, whereby a reduction of the translation can mean an enlargement of the measuring range. In addition to the proposed mechanical measurement display 5 are also electrical displays that work with the help of electrical transducers, can be used.

• – Eine Zeiteinsparung, da eine Nullung, wie sie für herkömmliche Messgeräte notwendig ist, entfällt,
• – Kurzfristige und schnelle Versatzmessungen zwischen Karosseriebauteilen sind möglich,
• – Es ist eine einfache Kalibriermöglichkeit auf einer ebenen Oberfläche gegeben,
• – Es kann für alle Arten von Höhenversatzmessungen verwendet werden, eine spezifische Anwendung ist nicht an das Messgerät gebunden,
• – Die Messungen können ohne Korrekturwerte durchgeführt werden,
• – Somit ist die Anzahl von Prüfmitteln wesentlich reduziert,
• – Dies führt zu einer erheblichen Kosteneinsparung.

Due to the displaceability of the third support 6 in conjunction with the two fixed supports 3 . 3 ' is when you attach the meter 1 on a surface 2 always a circle defined (a circle is clearly defined by 3 points). For a flat surface, this means a radius of infinity, for any other surface curvature, this means a defined circular surface up to a lower limit radius. That is, with constant radii remains the pointer of the meter 1 in zero position. An erroneous measurement is in circular-arc surfaces 2 thus excluded. For minor radii changes within the curved surface 2 the measurement error is minimal on the other hand. The proposed meter 1 is thus suitable for measuring height differences between surfaces, such as height differences in bodies of motor vehicles between individual body parts. Also, the measurement of dents or bumps is easily possible. Compared to the prior art, the following advantages thus result:

• - A time saving, since a zeroing, as is necessary for conventional measuring devices, is eliminated,
• Short-term and fast displacement measurements between body components are possible
• - There is a simple calibration option on a flat surface,
• - It can be used for all types of height misalignment measurements, a specific application is not bound to the instrument,
• - The measurements can be carried out without correction values,
• - Thus, the number of test equipment is significantly reduced,
• - This leads to a considerable cost savings.

1

gauge

2

surface

2 '

reference range

2 ''

Another surface section

3, 3 '

In stock

4

plunger

5

Measurement display

5a

scale

5b

pointer

5c

transmission

5d

gear

5e

rack

6

third In stock

7

first spring element

8th

second spring element

9

third spring element

10

Handle

11

casing

12

attack

Claims (10)

Measuring device ( 1 ) for measuring a height difference (h) in at least one surface ( 2 ) between a reference area ( 2 ' ) and another surface section ( 2 '' ), with at least two in-plane, on the reference area ( 2 ) auflegbaren Auflagern ( 3 . 3 ' ) and one in the direction of the further surface section ( 2 '' ) displaceable measuring bolts ( 4 ), which is displayed with a measured value display ( 5 ), characterized in that a third support ( 6 ), which is in the direction of the reference range ( 2 ' ) is displaceable. Measuring device according to claim 1, characterized in that the third support ( 6 ) against a spring force of a first spring element ( 7 ) is displaceable. Measuring device according to one of the claims 1 or 2, characterized in that the third support ( 6 ) and the measuring bolt ( 4 ) are arranged substantially parallel to each other. Measuring device according to one of claims 1 to 3, wherein the measuring bolt ( 4 ) against the spring force of a second spring element ( 8th ) is displaceable, characterized in that a handle ( 10 ) for moving the measuring bolt ( 4 ) and the third support ( 6 ) is provided. Measuring device according to claim 4, characterized in that the handle ( 10 ) against a spring force of a third field element ( 9 ) in the direction of the surface ( 2 ) is displaceable. Measuring device according to one of the aforementioned claims, characterized in that a stop ( 12 ) for the third support ( 6 ) is provided. Measuring device according to one of the claims 1 to 6, wherein the measured value display ( 5 ) from a display housing ( 5a ), a pointer ( 5b ) and a transmission ( 5c ), characterized in that the display housing ( 5a ) stationary to the measuring bolt ( 4 ) and the pointer ( 5b ) on the one hand rotatably in the display housing ( 5a ) and via the transmission ( 5c ) with the measuring bolt ( 4 ) is in operative connection. Measuring device according to claim 7, characterized in that the transmission ( 5c ) from one to the pointer ( 5b ) stationary gear ( 5d ) and a fixed to the measuring bolt ( 4 ) rack ( 5e ) consists. Measuring device according to one of claims 1 to 6, characterized in that the measured value display ( 5 ) is electrically operable. Method for measuring a height difference (h) in at least one surface ( 2 ) between a reference area ( 2 ' ) and another surface section ( 2 '' ) with a measuring device ( 1 ) according to claim 1, characterized by the following method steps: - placing the two supports ( 3 . 3 ' ) to the reference area ( 2 ' ), - Simultaneous shifting of the third support ( 6 ) towards the reference area ( 2 ' ) and the measuring bolt ( 4 ) in the direction of the further surface section ( 2 '' ) until the third support ( 6 ) on the reference area ( 2 ' ) and - further displacement of the measuring bolt ( 4 ) in the direction of the further surface section ( 2 '' ), until the measuring bolt ( 4 ) on the further surface section ( 2 '' ), - Reading a measured value from the measured value display ( 5 ) and - removing the measuring device ( 1 ) from the surface ( 2 ).