DE2415345A1 - MEASURING DEVICE - Google Patents

Description

PATENT LAWYERS

KLAUS D. KIRSCHNER DR. WOLFGANG DOST

DIPL-PHYSICIST DIPL.-CHEMICIST

D-8OOO MUNICH a

BAVARIARINQ 38

Our reference: - ^ - ηη, ι · Tf / τ_

Our reference: &. ¹ VyH- Ά. / D. -

Date:

John Glover
23 Riverbourne Eoad MiIford, Salisbury
Wiltshire, England

Me ss ca rtion

The invention relates to a measuring device to measure linear dimensions to determine and form the product of the determined dimensions. The area of a rectangle can thereby be determined will involve measuring the two dimensions and multiplying these dimensions together. The volume of a parallelepiped (Cuboid) is obtained by measuring and multiplying its three dimensions. The volumes of objects for example packages, packaging containers or other freight items are often required, for example for Charging purposes and to plan their storage in a given space. The previous practice is that the volume Such objects are determined by their three dimensions individually with the help of a rule or a tape measure be measured, and that the three dimensions thus determined by the person performing the measurements either with the help of a simple calculation or with the help of tables or a slide rule. This procedure however, it is time consuming.

409842/0836

According to the invention, a measuring device has an elongated, flexible element and a memory from which arbitrarily selectable lengths of the flexible element can be repeatedly withdrawn and returned are, and an arithmetic unit in the measuring device, which is arranged for the multiplication of successive lengths is. By using the measuring device, a quick measurement of areas and volumes can be carried out, since the multiplication of the relevant dimensions takes place in the measuring device itself. In most cases it is flexible element a tape bearing a linear length scale, although this is not critical, and other examples more suitable, flexible elements are cords and chains.

It should be noted that although the measuring device mainly is intended for the area and volume measurement, the device, if the flexible element carries a scale, for the Multiplication of any factors that can be represented as a length can be used. For example, the Freight costs for a package can be determined by multiplying the three dimensions of the package and the result multiplied by a length that represents the freight rate per unit volume.

The arithmetic unit preferably comprises a converter in order to generate a signal which represents each length logarithmically, and one Adding means to add the successive signals. By adding the logarithms of the lengths, the lengths themselves are multiplied. Preferably contains the Eechenwerk uses a converter to convert the sum derived from the addition into natural numbers. Furthermore, the Eechenwerk have a "device to the Eechenwerk either during the return of the flexible element in the memory or render inoperative during the withdrawal of the flexible element from the reservoir. This allows the flexible element in the memory can be returned between each measurement process, ■ so that the subsequent measurement process with the flexible element starting from the restored! ullage. The measuring device can therefore work either? while the flexible element is removed from the storage unit up to the

409842/0836

send length is withdrawn, or after the flexible element has been withdrawn to this length while the flexible Element is returned to memory because the returned length is equal to the subtracted length. In most In some cases, however, the removal of the flexible element is effective for actuating the measuring device.

The measuring device can be designed in various ways. In one embodiment, the transducer device has markings which are on the flexible element in a logarithmic division and a counter to count when the marks pass a point in the measuring device. The term "mark" is used in a general sense to mean any, permanent, specific location indicating mark on the element that can be counted. Preferably the marking is physical formed deviation or discontinuity on the flexible element, and the counter has at least one area which is at The passage of a discontinuity is moved. The marking can therefore have a projection, for example a tooth, or alternatively have a recess or a hole. In a preferred embodiment, the counter has a gear, which is rotated by one tooth pitch when passing through each marking, and the gear is with an antilogarithmic Connected reading scale, which is arranged on a tape which is wound around a drum rotated by the gear.

In another embodiment, the flexible member is around a surface of a logarithmic spiral or rotor wrapped. The spiral can be three-dimensional, but is preferably formed from one side of a groove in the rotor formed with the spiral flights of the groove in a single plane. In this embodiment, a second rotor, the carries an anti-logarithmic scale, and a releasable coupling can be provided by means of which the two rotors can be connected to one another are. The anti-logarithmic scale can be spirally arranged on the second rotor, and there can be a pointer over it mounted on the scale and radially movable relative to the scale in that a spiral shape on the second rotor and the Interlocking hands.

409842/0836

• ■ '4-

In a further exemplary embodiment, the measuring device has a first drum onto which the flexible element is wound will. The transducer means includes a second drum rotatable with the first drum, a rotatable cam and a second, elongated element, one end of which is wound on the second drum and the other end on the Cam is attached. The arrangement is such that when the first drum is rotated, the second element is removed from the rim of the cam is unwound and rotates the cam by an amount proportional to the logarithm of the rotation of the first Drum is.

Although reference is made to a logarithmic converter device and the like in the present description, it can be seen that that additional factors can be introduced, either because these are for the specific use, for which the measuring device is intended, are required, or to take into account the geometric conditions of the special embodiment of the measuring device. For example, if the flexible element is wound onto a spool with overlapping windings and the rotation of the spool as an indicator For the withdrawn length of the flexible member being used, provision must be made for the change in the radius of the point at which the flexible element leaves the coil as the flexible element leaves the coil Coil is unwound to take into account. The base of the logarithm is also irrelevant.

Embodiments of the invention will now be based on the enclosed Drawings described. Show it:

FIG. 1 shows a schematic, perspective illustration of a first exemplary embodiment of the measuring device;

FIG. Z shows a plan view of the measuring device shown in FIG. 1, with certain parts being omitted;

FIG. 3 is a schematic, perspective illustration a second embodiment of the measuring device, with certain parts broken away;

40984 2/0833

FIG. 4 shows a longitudinal section through that shown in FIG Contraption; and

Figure 5 is a schematic, exploded, perspective Representation of a third exemplary embodiment of the measuring device.

The measuring device shown in Figures 1 and 2 has a housing which consists of a rigid base plate 1 and a cover 2, which is shown only schematically in Figure 1 and has the shape of a box with an open bottom. The lid and the The base plates are connected to one another by pillars 3 and 4 screws. A drum 5 is rotatably arranged on a pin 6, which is screwed into the base plate 1. The drum carries a band 7> clas are unwound from the drum 5 can and runs over two guide rollers 8 and 9 ″ and through a slot 11 in the cover 2. Along the center line of the band is a series of projections formed by quick-head rivets 12, the first of which is below a predetermined distance from the free end 13 of the tape and the remainder along the tape according to a logarithmic Division is arranged. A pin 14 on the base plate carries a gear 15 »which can be rotated with a socket which is inserted into the Drawings cannot be seen and has two flanges 16 and 17. The bushing and the gear are on the pin 14 by a Washer 18 and a nut 19 held. A friction lining material 21 is provided between the disk 18 and the flange 17. One end of a band 22 is attached to the socket between the flange 16 and the gear 15 and the other end is on a rotatable drum attached to a further pin 25, around this drum most of the length of the tape is wound. The band 22 is resilient and tries therefore, in which wound onto the spigot 23 on the drum State to stay. This is supported by a second spring band 24, one end of which is attached to the socket on the Pin 14 between the flanges 16 and 17 and the other end thereof attached to a second, rotatable drum on the pin 23 is. While the curvature of the band 22 is in the same direction, whether it is on the socket on the pin 14 or on

409642/0836

the drum is wound on the pin 23, the belt is curved in the same direction as its natural pretension, when it is wound on the second drum on the pin 23, and it is curved in the opposite direction, when it is wound on the socket on the pin 14. This tape therefore tends to get on top of the second drum the pin 23 so that the tape 22 is assisted in its effort to rewind onto the first drum.

A pin 3o carries a peder arm 31 'at its free end has a lug 32 which is pressed by the spring action of the arm 31 against the part of the band 24 which is on the socket is wound on the pin 14. At the end of the unwinding of the tape 24 from the socket on the pin 14, a depression is made released, in which the catch 32 falls in order to prevent that the socket continues to rotate. In this way, a positively determined zero position for the belt 22 is created. the The recess is shaped so that the socket is free to rotate in the external direction around the straps 22 and 24 on the socket wind up on the pin 14, while the bushing cannot rotate in the opposite direction «

A pawl 35 is carried by one end of a spring arm 36, the other end of which is attached to a pin 37 which is carried by the base plate 1 «the pawl 35 engages between the teeth of the gear 15, so that a positive Force is required to turn the gear. The pawl can be disengaged from the gear 15 with the aid a cam 38 carried by an axis 39 which passes through the base plate 1 and carries a thumb lever 41.

If the band runs directly from the should 8 to the should 9, the rivets 13 are not in engagement with the gear 15. That However, tape can be deflected between rollers 8 and 9 by a shim 42 on the opposite side of tape 7

40td42 / 033l

that the rivets 12 come into engagement with the gear 15. This role is arranged on one end of a toggle lever 43 which is pivotably mounted on a pin 44, and the other end of which is connected to one end of a coil spring 45 the other end of which is fastened to a pin 46 fastened to the base plate 1. The spring 45 tensions the Roll 42 forwards in one direction to deflect the tape 7 ". The "However, preload can be overcome by having a Thumb 47 is moved, which is from the toggle lever 43 by a Slot (not shown) in the top wall of the lid 2 extends.

The mode of operation of the measuring device shown in FIGS. 1 and 2 is as follows. The thumb 47 is moved in order to move the toggle lever 43 counterclockwise (as viewed in FIG. 2) so that the tape is wound around the drum 5 under the action of a return spring which is contained in the drum and is not shown in the drawings can. The thumb lever 41 is then rotated to disengage the pawl 35 from the gear 15 to allow the bands 22 and 24 on the drums to rewind on the pin 23 by virtue of their spring force. This brings the device into its starting position. The friction lining material 21 on the disc 18 brakes the rotation of the bushing on the pin 14 during winding. The part of the housing of the measuring device next to the slot 11 is then placed against an edge of a cuboid object to be measured, and the tape is pulled out until the end 13 of the tape reaches the other end of the object. As a result, the rivets 12 on the belt 7 are pulled past the toothed wheel 15, which is further rotated by one tooth pitch by each rivet 12. Since these rivets are arranged in a logarithmic division at a distance from one ^another and ^ £ _{) the} gear 15 is rotated by an angle which corresponds to the logarithm of the length of the object to be measured, and the band 22 is on the socket on the pin 14 by a corresponding Amount wound up. The thumb 47 is moved again in the sense that the tape is not in engagement with the toothed wheel 15, so that the tape 7 can be wound onto the drum 5 again. The thumb lever ■ 41

409842/0836

24153A5

is, however, not affected. This process is along another Dimension of the object repeated so that the gear 15 is rotated again by an amount that is proportional to the logarithm of that dimension. The band 22 is therefore further on the socket on the pin 14 by a certain amount wound up at the amount previously wound up is added. This process is repeated for the third dimension as well. Now the tape on the socket on the pin 14 is around wound an amount equal to the sum of the logarithms of the lengths of the three sides. This amount is therefore proportional to the logarithm of the volume of the object. The tape carries an anti-logarithmic scale so that this volume goes through a window 48 in the housing (Figure 1) can be read directly.

The measuring device shown in Figures 3 and 4 uses a different principle to derive the logarithm of the length by which a tape is pulled out of the device. The measuring device comprises a substantially cylindrical housing 51 with a central axis 52 which can be covered up or down by buttons 53 and 54 at each end. The enopf 53 is not shown in FIG. 3; A first disc 55 is rotatably mounted on the axle 52, however, secures against axial movement relative to the axis by two snap rings 5o S ^e ~. A spring 56 presses the disk and thus the axis 52 upwards. The disk 55 has an axially extending circumferential flange 57 which carries a layer of fiber material 58, which faces a layer of fiber material 59 on a corresponding flange 61 on a second disk 62, which is rotatable about axis 52 and designed with a hub 63 which is stored in the housing 51. The hub 63 has a shoulder 60 that bears against the inner surface of the housing 51. A snap ring 7o is placed on the hub 63 and rests against the outside of the housing in order to lock the disk 62 against axial movement. The underside of the disk 55 has a continuously continuous slot 64 in the form of a logarithmic spiral. In this slot a tape 65 is arranged, which is held in the slot by a membrane wall 66 which has a sector-shaped opening 67 through which the tape from the slot

409842/0836

emerge, turn through 90 ° and can run through a slot 68 in the housing 5'i. The term "logarithmic spiral" denotes a spiral with a shape such that when the tape 65 is pulled out of the slot, the disk 55 will move rotates by an amount proportional to the logarithm of the subtracted length. A return spring 69 in the flange 57 attempts that Rotate disk 55 in such a direction that the tape is wound into housing 51 and slot 64. An end the spring is attached to the flange 57 and the other end to the axle 52. The axis has a spline 61, where your lower End passes through the housing 51 to one turn to prevent the axis. The unwinding of the ribbon begins in the middle of the spiral, and the end of the ribbon is at the outer one Attached to the end of the spiral.

The upper surface of the disk 62 has a spiral slot 72 which is engaged by a driver 73 carried on a slide 74 is. The slider 74 is along a rod 75 with rectangular cross-section which extends radially in the housing below a window 76. The carrier 73 carries a magnifying glass 77 * through which a scale (not shown) can be viewed on the top surface of disk 62. The scale follows a spiral path between the Turns of the slot 72 and is arranged so that the antilogarithm of the angle of rotation of the disk 62 can be read can. The arrangement with the slide ensures that the reading is taken on the correct turn of the scale. To bring the driver 73 back into the zero position, the Disc 62 can be rotated by a toothed thumb wheel 81, which is mounted on a pin 82 in the upper wall of the housing 51 is mounted. One edge of the thumbwheel protrudes through a slot 83 in the housing 51 and the other end engages one A toothed ring 84 formed on a boss 85 on the upper surface of the disk 62.

The measuring device shown in Figures 3 and 4 operates in in a similar manner to the device shown in FIGS. So the case is against an edge of the to be measured Object is applied, and the tape is along the adjoining

409842/0838

Edge pulled out. This pulls the tape out of slot 64 and the disk 55 is rotated an amount proportional to the logarithm of the length of the tape withdrawn is. During this process, the spring 56 pushes the Flange 57 against flange 61 on disk 62 so that disk 62 is rotated the same amount as disk 55. As a result, the anti-logarithmic scale rotates under the magnifying glass 77 over. When a measurement is taken, button 53 is pressed so that flange 57 is disengaged is brought from the flange 61 and the tape can be rewound without rotating the disc 62. Figure 4 shows the Device with button depressed 53 · This operation will on the other two edges of the object to be measured repeated, the amount of rotation of the disk 55 in each case being added to the amount by which the disk 62 previously has been rotated. The volume of the object can then be read through the magnifying glass 77.

In the measuring device shown in FIG. 5, a cylindrical housing 1o1 has a transparent top side 1o2 which is fastened by screws 1o3. A drum 1o4 on which a tape 1o5 is wound is mounted on the base plate of the housing 1o1. The drum 1o4 contains the usual return spring. A drum 1o6 with a smaller diameter is rigidly connected to the drum 1o4. A fine cord 1o7 is wound around the drum 1o6 and runs around a guide pulley 1o8 which is mounted on a fixed pin 1o9. The cord then runs around a cam-shaped arm 112, at the free end 111 of which it is attached. The cam arm 112 is freely rotatably mounted on an axis 113 which passes through the axis of the drum 1o4. The jib arm 112 is shown in the position it assumes when the strap 105 is fully extended. The arm is biased counterclockwise by a coil spring 114 so that it tends to rotate back into its original position, which is 2 * κ) ⁰ _VO n from the position shown. A disk 115 is mounted on the axle 11 $ and has a cylindrical blind hub 116 which fits over the axle 113 and protrudes through an opening 117 in the cover 1o2. A coil spring

409842/0836

118 lies between a collar 119 on the axis 113 and the Underside of disk 115 »around the disk against the underside of the cover 1o2 upwards. Thumb pressure on the protruding portion of the hub 116, however, can pull the disc 115 into Press down frictional engagement with three pins 121 protruding upward from the cam arm 112.

The operation of this device is as follows. In the starting position, in which the tape 1o5 is fully wound on the drum 1o4, the cord 1o7 lies in a groove 122 along the arcuate edge of the cam arm 1o2. While the tape 1o5 is being pulled off, the drum 1o4 rotates so that the drum 1o6 rotated in the direction of arrow 123 and the cord 1o7 open. the drum 1o6 is wound up. This becomes the cam arm 112 is rotated and the cord is gradually released from the groove 122. The shape of the cam arm 112 is chosen so that the cam arm 112 is rotated through an angle that is proportional. to the logarithm of the length of the peeled tape. while this process a thumb pressure is exerted on the hub 116, so that the frictional engagement between the disc 115 and the Pin 121 ensures that the disc 115 revolves around the same How much the cam arm 112 rotates. The thumb pressure is then relieved so that the washer 115 is separated from the peg 121 whereby the tape winds up again on the drum 1o4 can. This returns the cam arm 112 to its original position.

This process is carried out on the second and third edge of the to be measured The object is repeated with the hub 116 depressed each time the tape is withdrawn from the housing 1o1 so that the successive rotations of the cam arm 112 are added to the final rotation of the To effect disk 115. The volume of the object can then be compared with the aid of an indicator marking 124 on the pane 115 an antilogarithmic scale 125 on the cover 1o2 can be read.

409 * 42/0836

Claims (15)

Claims 1. Measuring device with an elongated, flexible element and a memory from which any length of the element can be selected repeatedly removable and traceable are marked by an arithmetic unit in the measuring device, which multiplies successive such lengths. 2. Measuring device according to claim 1, characterized in that the arithmetic unit has a converter device (Ί2; 64; 122), which generates a signal that represents each length logarithmically and has an adder (15; 62; 115), to add successive signals. 3- measuring device according to claim 2, characterized in that that the arithmetic unit has a device (22; 72, 74, 77; 124, Ί25) to calculate the sum derived from the addition to convert into natural numbers. 4. Measuring device according to claim 2 or 3 »characterized in that that the arithmetic unit has a device (42, 43; 58 »59; 12i) which the arithmetic unit either during the return of the element (7; 65; 1o5) in the memory or render ineffective during the withdrawal of the item from storage. 5. Measuring device according to claim 2, characterized in that the transducer means markings (12) on the Element (7) in a logarithmic division at intervals are arranged, and a counting device (15) to the passage of the markings (12) at a point in the Counting device. 6. Measuring device according to claim 5 »characterized in that that the markings are projections (12) on the element (7) and that the counting device has a gear (15), which is rotated by one tooth pitch when each projection is passed. ^ 098 A 2/0836 7. Measuring device according to. Claim 6, characterized in that that the gear (15) has an anti-logarithmic reading scale which is arranged on a belt (22) wound around a drum rotated by the gear (15) is. 8. Measuring device according to claim 2, characterized in that the element (65) around the surface of a logarithmic Spiral is wound on a rotor (55). 9. Measuring device according to claim 8, characterized in that the logarithmic spiral from one side of a rage (64 ·) is formed in the rotor (55), the turns of the groove (64) lying in a single plane. 10. Measuring device according to claim 8 or 9j characterized by a second rotor (62), which carries an anti-logarithmic scale, and by a releasable coupling (58, 59) which the two rotors (55 * 62) can be connected to one another. 11. Measuring device according to claim 1o, characterized in that that the anti-logarithmic scale is arranged in a spiral on the second rotor (62), and that a display device (74, 77) arranged above the scale and radially opposite the scale by interlocking between a spiral shape (72) on the second rotor (62) and the display device (74, 77) is movable. 12. Measuring device according to claim 2, characterized in that the memory has a drum (Io4 ·) on which the flexible element (1o5) is wound up in such a way that a rotation of the drum (1o4 ·) is approximately proportional to the length of the element (Io5) withdrawn from the drum and that the transducer means (112, 115) the Rotation of the drum (Ίο4 ·) converts into signals that the Represents rotational movements logarithmically. 409842/0836 13- measuring device according to claim 12, characterized in that that the Uandleinrichtung an output element (H5) and a cam transmission device (io6, 1o7 »112) between the drum (io4) and the output element (115), wherein the profile of the cam (112) is selected such that the output element (115) upon rotation of the Drum is rotated by an amount that has a logarithmic relationship to the rotation of the drum (1o4) stands. 14. Measuring device according to claim 12, characterized in that that the converter device has a second, with the first . Drum (1o4) rotatable drum (1o6), a rotatable one Cam (112) and a second, elongated element (1o7), one end of which on the second drum (Io6) and the other end of which is attached to the cam (1 2), the arrangement being such that, while the first drum (io4) is rotated, the second element (Io7) unwinds from the edge (i22) of the cam (112) and rotates the cam an amount proportional to the Is the logarithm of the rotation of the first drum (Io4). 15. Measuring device according to claim 14, characterized by a pointer (115 »124), which is movable over an antilogarithmic output scale (125), and through, a detachable one Coupling (121) through which the pointer can be connected to the cam (112). 409842/0836 Blank page