DE19538918C2 - Device for measuring and displaying material thicknesses - Google Patents

Abstract

Two L-shaped measuring legs (1, 2) are movably connected by means of a ridge groove and ridge spring construction, and angled inward again by 90 ° to form measuring surfaces (3, 4). The two short sides (5, 6) of the measuring leg are designed to be extendable. DOLLAR A A recess (7) on a short side of a measuring leg enables the two legs to be pushed together at a predetermined distance. The distance between the measuring surfaces can be read on a scale (8) attached to the measuring leg.

Description

The invention relates to a device for carrying out a indicating measuring method for determining the thickness of material, its cross section due to protrusions, protrusions, Doubling, thickening, folding or material structures cannot be measured directly, with two relative to each other movable curved or angled measuring legs with Measuring surfaces which surround the protrusions, protrusions, doublings, Reach around bevels or material structures, and then with rest on the two measuring surfaces on both sides of the material, and thus shows the determined value. A generic device is known from DE-GM 86 29 694.

For some time, rulers, tape measures, calipers, Micrometers, measuring gauges and measuring standards for exact Measurement of material thicknesses and diameters used. This However, measuring methods can only be used where you can either apply the scale directly to the distance to be measured can where the leg of the gauge the strength to be measured directly can feel or measure object and measuring standard in alignment are arranged one behind the other. In all of these procedures, the sought value of the measured variable by a direct comparison of the Object to be measured with a material measure. Where due to existing protrusions, doublings, thickenings, Bends or material structures that are directly comparable or The distance that can be scanned is greater than the distance actually to be measured  longest distance are determined, the protrusions must be measured, and then the exact material thickness can be calculated by subtraction. A process that is as lengthy as it is inaccurate.

The invention has for its object a device for To develop measuring methods that allow the user to Measure material thicknesses exactly where the material to be measured due to existing protrusions, doubling, thickening, Bends or material structures cannot be measured directly can. However, a quick and accurate measurement is in many Areas of application of high technical and considerable economic advantage.

For example, in the area of already installed wood fodder, Steel frames and windows, built-in block frames, lining linings and Zargenspiegel the exact determination of the wall thicknesses. The common one Practice and the numbers of the door industry show that considerable Percentage of door linings manufactured based on an order Measurement list is produced, which is in the shell, or in Renovation object was determined using conventional measuring methods. However, steel frames have an internal width (i.e. that of the wall thickness) corresponding dimension of the frame) none, wooden lining frames only one limited tolerance range of approx. + 10 / ./. 15 mm. That is, everyone Measurement errors due to inadequate measuring methods inevitably to wrong orders, wrong productions, and in the Result in delayed commissioning of the buildings. As always, like this here too imprecise measurement methods lead to business management Losses.

Similar problems arise e.g. B. in determining the Thickness of a table top with a frame directly on your Mitred outer edges. The cross section can be on no longer be measured, it remains that "Subtraction procedure" to come to a result here.

The object is achieved by the features in claim 1. According to the invention, the device is used to determine Material thicknesses, the cross section of which is based on that described above Obstacles cannot be measured directly. It is because of it characterized in that curved or specially shaped measuring legs a device to bridge or encompass these obstacles to measurement, scan the cross-section and the value of the determined material thickness  Show. The measuring legs of the device can be rotated together or slidably connected. However, in the closed state not the two legs together along the entire route but only the outer measuring tips or measuring surfaces. This position is the zero position. The removal of the tips is said to a scale similar to the principle of a caliper. Scales and line markings are intended to avoid reading errors due to parallax in the same plane.

Due to the parallel offset between measuring section and measuring standard slight tipping can lead to deviations, but for many trades within the tolerances permitted by DIN lie.

Advantageous embodiments of the inventions are in the Subclaims specified.

According to the invention, the measuring method provides that the material thickness in addition, both analog and digital, as well as electronic is measured, and the determined value can be read off directly by a Dial indicator or is displayed electronically. According to the invention further measuring and reading methods are provided. Is also provided according to the invention that in the electronic implementation of the measuring method, the data determined are stored electronically and can be processed for further data processing.

A device for carrying out the measuring process consists of two metal tube parts with a round or polygonal cross-section. The The outer diameter or cross section of one part is also the Inner diameter of the other part. Both parts are either bent or angled in such a way, or to an angled one Construction connected that in the floor plan a long and a on the opposite short side. By the chosen The two parts can be pushed into each other in diameter. The Cross-sectional areas of the short legs are the measuring surfaces. A Bore or recess of the cross section of the part with the smaller diameter on the outside of the part with the larger one Diameter allows pushing together until the two Touch the measuring surfaces. In this version, the inner tube carries the measuring scale, the determined value can be read off at the point,  where the two pipes are brought into each other. It is provided according to the invention that the scale is not just a metric Division, but also that provided by the door industry Frame dimensions of the frame depths. It is also contemplated that the part with the smaller cross-section not from pipe, but from full Material with the appropriate diameter is manufactured.

In a further device for performing the Measuring method, the measuring device consists of two wooden parts with one rectangular cross section. These are upright to an L-shaped Floor plan connected with two internal 90 ° angles. For The long side of the gliding leg, the short one, will be better defined Side called measuring leg, at be through the connector connected.

On the long sides, the two sliding legs are preferred connected by a ridge groove and ridge spring construction. This offers the advantage of a positive and positive connection, d. H. both parts are slidably connected to each other, but only in completely pulled apart from each other. From precision and durability reasons are ridge groove and ridge spring made of metal, prefers brass. One leg has the inside of the long one Side has two feathers, the other leg has on the outside of the long side the two grooves. The grooved long side is on the half the length of the route narrowed to half a cross-section. A Recess of the size of this half cross-section on the The connecting part of the other leg allows it to be pushed together the measuring leg until the measuring surfaces are at a distance of approx. 60 mm stand apart. This value can be found on a measuring scale that is above the narrow edge of the slide leg is attached, can be read.

To solve special measuring tasks, e.g. B. strongly profiled Door panels with extra width, it is provided according to the invention that both the connector and the measuring leg extended can be. This can be achieved by having both legs are separated in the middle, are guided in a spring construction, and can be locked with a locking screw.

According to the invention are for devices for performing the Measuring method other materials such as metal or plastic, as well further combinations of metal, wood and plastic are provided,  provided this for aesthetics, precision, economy and Use value is useful. For the same reasons according to the invention further tongue and groove constructions or Guide structures are provided, which embrace Survive, pull apart and push together Allow measuring legs and feel the material thickness. Farther According to the invention, the measurement result is electronically closed determine, display electronically, and for the purpose of further Store and process data electronically.

To implement the invention it is also provided that with one and same device not only the wall thickness at a door opening is determined and saved, but also their opening width and opening height. It is also envisaged that these will be determined Data through one with the measuring device directly or wirelessly connected microcomputers can be edited, and this Data in normal commercial and customary Software programs for construction site management adopted become. This would have the invaluable economic advantage that Errors due to repeated transfer of dimension lists, such as B. Door lists or row measurements can be minimized.

The invention will hereinafter be in the preferred form explained in more detail with reference to the drawing. In the show:

Fig. 1: the measuring method in its practical implementation, shown using the example of a built-in wooden frame in a perspective view.

Fig. 2: A device for practicing the invention in perspective view.

Fig. 3: on a scale of 1: 1, the floor plan of a device for performing the measuring method. This shows that the beginning of the halving of one leg is also the measuring point on the scale. It also documents the relationship between the measuring point and the distance between the cross-sectional areas on the short sides, in this case 230 mm.

Fig. 4: the side view of the device designated in Fig. 2 from the left on a scale of 1: 1, showing the ridge groove and ridge spring construction.

Fig. 5: the side view of the device shown in Fig. 2 from the right on a scale of 1: 1, which documents the principle of the recess, which enables a particularly close pushing together of the construction.

Fig. 6: the representation of a device, which shows the principle of a measuring process, based on a telescopic tube construction.

Reference list

1.

Masonry

2nd

Built-in wooden frame

3rd

Measuring leg

4th

Measuring surfaces

5.

Sliding arm

6.

Connecting part

7.

Scale

8th.

brand

9.

Recess

10th

Ridge groove

11.

Ridge feather

12th

Doubling up

13.

Folding

Claims (3)

1.Device for carrying out an indicating measuring method for determining the thickness of material, the cross section of which cannot be measured directly due to protrusions, protrusions, doublings, thickenings, bends or material structures, with two mutually movable curved or angled measuring legs with measuring surfaces, which around the protrusions, protrusions, doublings, bevels or material structures reach around, the two measuring surfaces resting on the two sides of the material, and with the device a measured value can be displayed, characterized in that two L-shaped elements made of one of the materials wood, metal or Plastic or a combination of these materials with a rectangular cross-section are provided, the long sides of which as a sliding leg ( 5 ) can be shifted squarely against one another by means of a ridge groove and ridge spring guide and whose short sides (6) each form egg nes measuring leg ( 3 ) are angled inward again by 90 °, the sliding legs being detachable from one another in the fully pulled-apart state, a recess ( 9 ) on a short side of a sliding leg allows the measuring legs ( 3 ) to be pushed together to a predetermined distance, and the measured value corresponding to this state can be read off on a measuring scale attached to one of the sliding legs. 2. Device according to claim 1, characterized in that both the short side of the L-shaped elements and the Measuring legs are designed to be extendable so that they are in guided by a tongue and groove construction and by means of a fixed Screw can be locked. 3. Device according to claim 1 or 2, characterized in that they can directly or wirelessly with a microcomputer for the purpose data processing and transfer is connected.