EP1047916A1

EP1047916A1 - Device for determining the girth of a finger

Info

Publication number: EP1047916A1
Application number: EP97937541A
Authority: EP
Inventors: Yechiel Ring
Original assignee: Schnabel Harry
Current assignee: Schnabel Harry
Priority date: 1997-08-01
Filing date: 1997-08-01
Publication date: 2000-11-02
Also published as: DE19781973D2; AU4013497A; WO1999006790A1; JP2001520365A

Abstract

The invention relates to a device for determining the girth of a finger, designed so as to enable smooth and accurate measuring, said device being provided with a loop-shaped tape segment with a noose, made of a material which is flexible but virtually non expandable when pulled. The loop (2) is so big as to allow the finger to be inserted through it prior to the loop being tightened around the finger. The tape length by which the loop is drawn can be measured by means of a caliper (15, 16) on the tape and an electrical display device (18) connected with said caliper.

Description

Device for determining the circumference of a finger

The invention relates to a device for determining the circumference of a finger.

Knowledge of the scope of the contract is required to determine the size of a jewelry ring or engagement, marriage or friendship ring.

To determine the size of such jewelry rings, a so-called ring game was previously known, on which an assortment of measuring rings with a typical ring size is lined up. The measuring rings are then pushed onto the finger of the future wearer to find a suitable ring size. This measurement process was cumbersome and annoying with relatively thick finger joints.

On the other hand, it was also known to use a cone-shaped rod for measuring the inner diameter of rings, which is calibrated along its long side m ring sizes. The Use of this conical rod already requires a pattern ring that matches the finger.

The present invention has for its object to provide a device for determining the circumference of a finger, which is compact and reliable, easy to use and allows a largely automatically accurate measurement.

This object is achieved in that a loop-forming Schieufenabscnntail from a band is flexible, but pullable essentially pullable material through which the finger can be inserted, and that a length of the band around which the loop is pulled together is measurable with a measuring tap on the belt and an electrical display device connected to the tap.

The measurement to be carried out with this device is based on the principle of measuring the circumference of the ring finger at the location relevant for the ring, preferably the joint area, so that an optimal fit of the decorative ring, which is selected after this measurement, can be expected. The measurement is carried out according to the infinitely variable adjustment of the loop, which is pulled together around the ring finger, extremely precisely and precisely. The measurement result can be clearly read by means of the digital tap, which detects a length dimension corresponding to the loop size, ie proportional length dimension, in connection with an electrical display device connected to the tap. It is essential that the change in size of the loop around the ring finger is contracted, m a longitudinal displacement of the band from which the loop is formed is implemented, so that a linear change in length is detected by the measuring tap, preferably a digital tap. At the same time, as explained below, the linearly displaceable band serves to largely change the loop size automatically. The measurement can take place in any given measurement units, for example European or US size units, or can be converted to different size units. The device can be practically automatically calibrated by inserting a caliber mandrel with a predetermined size into the loop before the actual measurement.

Advantageously, the band from which the loop is formed is made of flexible plastic. This material is mechanically resistant, allows the loop to be largely adapted to the shape of the ring finger to be measured, but on the other hand is not easily stretchable in the direction of tension, so that the measurement, which is preferably under a tensile force with a section of the band which is explained below , is not falsified. The preferably rectangular, rounded cross-section of the band is chosen so that the loop is sufficiently stiff to form an approximately circular ring shape.

To form the ring-shaped loop in a loop section of the band and to form the straight band sections, on which the measurement is preferably carried out by means of the measuring tap, it is preferably provided that the band merges into a straight band section and at least at one end a point of transition of the straight band section and the loop section is maintained at different inside diameters of the loop, and that the measuring tap is arranged next to the straight band section. It can also be provided that two straight band sections are held parallel to each other at both band ends. Accordingly, in particular the preferably pivotable guides at the transition point between the variable loop section and the correspondingly variable band sections serve to maintain the approximately ring-shaped loop shape with different inside diameters of the loop. It is understood that the smaller the diameter of the loop, the longer the straight band sections.

A further development of the invention is characterized in that the two entries are designed and arranged adjacent to one another in such a way that the two straight band sections lie parallel to one another, at least at times a tensile force acting at the ends of the straight band sections, which narrows the loop and lengthens the straight band sections accordingly . In this embodiment, the two band sections lying next to one another evenly absorb the tensile force when they act in a suitable manner on the ends of the straight band sections, as a result of which a balanced load on the mechanism is also achieved in the region of the guides and a minimal longitudinal expansion of the straight band sections.

However, it is particularly advantageous if one of the tape ends is fixed and the other straight tape end is guided in a guide and is connected to the measuring tap. A particularly good guidance of the straight band section is achieved in that the end of the straight band section is attached in a sleeve which is guided by means of rails, a tension spring acting on the sleeve and the sleeve being lockable against displacement in the main direction of the rails, in order to prevent this Record the measurement result after the ring finger is gripped by the loop. However, the measurement result can also be stored electrically in this position on the basis of a signal triggered with a contact by electronically storing the value m determined by the measurement tap in a memory.

For locking purposes it can be provided that an arbitrarily operable locking element is arranged on the straight strap section, which in the locking state preferably clamps the straight strap section with the sleeve relative to the rails. This mechanical locking is particularly simple and reliable. The locking element can be coupled to a switch which is located in a circuit, in which the electrical displacement measuring device and / or the display device is arranged, in order to bring about the display in the measuring position or locking position.

The shape of the loop is controlled particularly well in the case of different inner diameters by the pivotable guides being designed as ring guides which can be pivoted about a swivel axis parallel to a virtual axis of the loop are, through which the band is slidably inserted, a loop control band engaging on each of the ring guides at a distance from their pivot axis inside the loop, which is parallel to the straight band sections with these in connection. The geometry and kinematics of this device are created so that the shape of the loop is essentially ring-shaped regardless of its inner diameter.

In a variant of the invention, according to claim 9, instead of the loop consisting of the flexible band, a segmented measuring ring can be provided, the segments of which can be adjusted essentially coaxially by means of the flexible band in such a way that an adjustable inner diameter ring is formed, a length dimension by which at least one straight band section of the flexible band is displaceable, can be measured with the digital tap and an electrical display device connected to it. The measuring ring can also be viewed as an adjustable ring divider. The segments of this belt divider are preferably evenly distributed over the circumference of the ring. The segments of the belt divider are connected to the flexible belt via deflection and transmission means, which in turn forms at least one straight belt section for the digital measurement of a length dimension.

The connection is explained below using a drawing with 9 figures. It shows:

1 shows a first embodiment of the device in a vertical section, 2 shows a detail of the embodiment according to FIG. 1 in the region of the loop section,

3 shows a detail of the first embodiment, namely the loop consisting of a band in a loop section with adjoining straight band sections, the band section having a relatively large inner diameter,

4 shows the loop in a loop section of relatively small inside diameter with straight band sections adjoining it,

5 shows a front view of the housing, which contains the device according to FIG. 1, with the display device,

6 shows a detail of the first embodiment, namely a locking button m on a larger scale,

7 individual parts in the interior of the locking button in a schematic representation,

8 shows the housing of the device according to FIGS. 1-7 m in a diagrammatic representation,

Fig. 9 shows a second embodiment of the device in a housing, partially cut and Fig. 10 shows a Te lschnitt in the area of the loop of a third embodiment.

In Fig. 1, a housing 1 is designated, from the top of which a loop 2 protrudes, which is formed by a band 3 made of flexible plastic, for example PTFE. The band 3 has a rectangular, rounded cross section. It consists of a loop section 4 in the area of the loop 2 and straight sections 5 and 6 adjoining it at the bottom. At the transition points between the loop section 4 and the straight sections 5 and 6, pivotable entries 7 and 8 are arranged, through which the band 3 is slidably inserted.

As can be seen more clearly from FIG. 2, the guides 7, 8 can be pivoted about pivot axes 9, 10 which run parallel to a virtual axis 11 through the loop 2, see FIG. 1. With the guides 7, 8, the shape of the loop 2 or 2 'can be largely adapted to a circular shape despite different inner diameters. For this purpose, the entries 7, 8 can be adjusted by means of a loop control band 12 which branches at point 13 and engages the entries 7, 8. As can be seen from FIG. 1, the loop band 12 is arranged between the straight sections 5, 6 of the band 3.

3 and 4 it is indicated how the loop 2 can be made larger, ie has a relatively large inner diameter, when the straight sections 5, 6 m are pulled upwards in the direction of the arrow 14 m in FIG. 3. If, however, the straight sections 5, 6 m in the direction of the arrow 15 in Fig. 4 move down, the loop 2 'is reduced to a smaller inner diameter.

The adjustment path, i.e. a length dimension of the straight sections 5, 6 is measured with a digital tap 15, 16, see FIG. 1, the part being fixed with the digital scale 15 and the actual tap 16 being movable together with the straight belt sections 5, 6.

The position of the tap 16 relative to the fixed part 15 can be converted into a display on a display device 18 by electronics 17, which are fed by batteries 17a. Electronics 17 may also include a programmable memory according to the display.

The display takes place when em locking button 19 is pressed after the finger to be measured m is inserted in the loop 2 and the loop is contracted so far that it encloses the finger.

After loosening the locking button 19, the loop is automatically pulled downwards by a tension spring 20 which engages the lower ends 21, 22 of the straight band sections 5, 6. The displacement of the straight band sections 5, 6 is guided by a sleeve 23, to which the straight sections 5, 6 are attached below. The sleeve 23 slides between guide rails 24, 25, which can also be formed in one piece as a concentric tube.

The compact exterior of the described first embodiment of the device is shown in FIGS. 5 and 8. For this purpose it should also be noted that the locking button 19 protrudes from a vertical slot 26 from the housing.

The locking button 19 is in connection with a locking profile 27 m F g. 6 shown. The locking profile 27 is arranged in the housing in a stationary manner, and the locking button 19 can be adjusted vertically relative to this profile 27 in the direction of the arrows 28, 29.

In Fig. 7 the mechanism belonging to the locking button 19 is shown schematically. The locking button 19, which can be pivoted about an axis 30, engages the locking profile 27 by means of a pin 31 when the pin 31 is pivoted onto this locking profile 27, see also the pivoting arrows 32, 33. When the locking button 19 is released, on the other hand, the pin 31 becomes pressed out of the locking profile 27 by a compression spring 34 and the locking button 19 can, together with the straight band sections 5, 6, see e.g. B. Fig. 1, are pressed upwards against the force of the tension spring 20 in order to accommodate a ring finger to be measured in the loop 2. The tension spring 20 then pulls the loop 2 together, and after pressing or pivoting the locking button 19, the position of the straight band sections 5, 6 is recorded as a length dimension or length position on the fixed part 15 of the digital tap, for which purpose em contact by means of the locking button 19 can be operated.

The second embodiment of the device according to FIG. 9 differs from the embodiment described above according to FIGS. 1-8 essentially in that instead of Loop 2 of the first embodiment e consisting of a multiplicity of segments, segmented ring 35 is used, the inner diameter of which can be adjusted according to the radial adjustment of the segments by means of a band made of flexible plastic. The plastic band in turn has straight band sections which can be displaced vertically in FIG. 9 in order to radially adjust the segments of the segmented ring 3 which are not designated in the direction of the arrows, for example 26, 27.

The longitudinal position of the band, not shown, is again detected with a digital tap as described above for the first embodiment, although this digital tap is not shown in detail in FIG. 9. Similarly, FIG. 9 lacks a mechanism for converting the vertical movement of the straight band sections into the radial adjustment of the segments of the segmented ring 25.

In the third, particularly advantageous embodiment shown in a partial section in FIG. 10, the one band end 21 'of the loop 2 is fixed to the device. The other end of the loop 2 merges into an introduction 8 ^' deflecting the band into the one, longitudinally movably guided, straight band section 6'. The straight band section 6 'is connected in the manner already described with the tension spring 20 and the digital measuring tap 15, 16, which are already shown in FIG. 1. The strap section 6 ′ is actuated by a trigger which, similar to the locking button 19, is connected to the strap section 6. The locking can be done by a separate locking mechanism (not shown).

Claims

Patent claims

1. A device for determining the circumference of a finger, characterized in that a loop section (2) forming a loop section made of a band (3) is flexibly but contractibly supported when the material is essentially non-stretchable, by which the finger can be inserted, and that em length dimension of the band (3) around which the loop (2) is contracted can be measured with a measuring tap (15, 16) on the band (3) and an electrical display device (18) connected to the tap.

2. Device according to claim 1, characterized in that the band (3) consists of flexible plastic.

3. Device according to claims 1 or 2, characterized in that the band (3) merges at least at one end with a straight band section and at a point of transition from the straight band section (5 or 6) and the loop section (4) in one The insertion (7, 8) is slidably held in such a way that the loop shape of the loop section (4) is maintained with a different inside diameter of the loop (2), and that the measuring tap (15, 16) next to the straight band section (5 or 6) is arranged.

4. Device according to claim 3, characterized in that two straight band sections (5, 6) are held parallel to each other at both band ends.

5. Device according to claim 1 or 2, characterized in that one of the tape ends is fixed and the other, straight tape end m a guide (7) is guided and is connected to the measuring tap.

6. Device according to claim 4, characterized in that the two guides (7, 8) are designed and arranged adjacent to one another in such a way that the two straight band sections (5, 6) lie parallel to one another, and that at ends (21, 22) of the straight strip sections (5, 6) at least temporarily attack a tensile force which narrows the loop (2) and correspondingly lengthens the straight strip sections (5, 6).

7. Device according to claim 4 or 5, characterized in that the end (21, 22) of the straight band section (5, 6) of a sleeve (23) is attached, which is guided by means of rails (24, 25) that on the Sleeve (23) engages a tension spring (20), and that the sleeve (23) can be locked against displacement in the main direction of the rails (24, 25).

8. Device according to claim 5, characterized in that an arbitrarily operable locking element (19) is arranged on the straight band section (5, 6), which in the locked state, the straight band section (5, 6) preferably with the sleeve (23) opposite the Rails (24, 25) jammed.

9. Device according to claim 6, characterized in that the locking element (19) is coupled to a switch which is m in a circuit, m which the electrical displacement measuring device (15, 16) and / or the display device

(18) is arranged.

10. Device according to one of claims 3 to 8, characterized in that the pivotable guides (7, 8) as a pivot axis (9, 10) parallel to a virtual axis (11) of the loop (2) pivotable belt guides are formed , through which the band (3) is slidably inserted, and that each of the belt guides at a distance from its pivot axis (9, 10) engages in the loop (2) and loop control band (12) which runs parallel to the straight band sections (5, 6) is connected to this m in such a way that the shape of the loop (2) is essentially ring-shaped regardless of its inner diameter.

11. The device according to claim 1, characterized in that instead of the loop consisting of the flexible band (3) em segmented Meßrmg (35) is provided, the segments of which are substantially coaxially adjustable by means of the flexible band (3) so that em ring Adjustable inner diameter is formed, and that em length dimension, by which at least em straight band section of the flexible band (3) is displaceable, can be measured with the digital tap and an electrical display device connected to it.

12. Device according to one of the preceding claims, characterized in that the value determined by the measuring tap is stored electronically in a memory.