DE1245607B - Precision balance with a zero point adjustment device - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Int. CL:

Number:
File number:
Registration date:
Display day:

GOIg

German class: 42 f- 34/08

1245 607.
M57893IXc / 42f
20th August 1963
July 27, 1967

A taring device is often built into precision balances, soft a continuously adjustable taring permitted. This is usually done with the help of a balancing spring, one end of which is at the Load pan bearing. Poor. of the balance beam attacks and the other end of which is suspended from a clamping device mounted in the balance frame. These Clamping device usually has a rotatable screw spindle, by means of which a Wandering nut is adjusted, which in turn directly tensions the balancing spring. The control button for the taring device sits directly on the mentioned and in the usual versions of such scales Screw spindle rotatably mounted in the balance frame.

In addition to the taring device, precision balances also have a device for adjusting the Zero point of the balance beam. This zero point adjustment can be done optically with the help of a micrometric adjustable swivel mirror, this zö Oscillating mirror can also be replaced by a tiltable plane-parallel glass plate, which is in the optical Beam path of the reading device to determine the respective inclination of the balance beam immersed. Instead of a visually effective zero point adjustment one has also had another spring attack on the shell carrier, which is about mediating an adjustable screw attached in the balance frame can be.

The main disadvantage of such a zero point correction completely independent of the taring, indifferent whether this is done optically or by means of an additional spring, however, is that before each zero point correction, the taring first in its zero position must be brought. The accuracy of a zero point correction to be made for the balance beam thus depends in a decisive way on the accuracy with which the taring device was previously used has been transferred to its zero position, and experience has shown that this process is often not paid the necessary attention.

The present invention accordingly relates to erne precision balance with a zero point adjustment device for the balance beam and with a taring spring, one end of which engages the pan support connected to the balance beam and the other end of which engages with a traveling nut, which is rotatably mounted in the balance frame and adjustable by means of an adjustment device Screw spindle sits, is adjustable. The object of the invention is to eliminate the shortcomings briefly mentioned above. This precision balance with a '■
Zero adjustment device

Applicant:

MEPAG A. G., Zollikon (Switzerland)

Representative:

Dipl.-Ing. A. Wedde, patent attorney,
Munich 27, Schumannstr. 2

Named as inventor:
Johann Meier, Stäfa (Switzerland)

Claimed priority:

Switzerland of June 28, 1963 (8008)

is achieved in that, according to the invention, the end of the balancing spring facing away from the shell support a loosely encompassing and 'guided tendon engages the screw spindle, which with the Wandering nut, held against this by a tension spring, is adjustable for taring while the tendon by a stop from the traveling nut by zeroing the setting device can be separated and placed on the screw spindle and the screw spindle axially in the balance frame is adjustable by an adjustable bearing for zero point adjustment. Such a Formation of the parts mentioned preferred that the clamping member with one of the traveling nut corresponding Surface rests on this when taring and is arranged with a cantilevered arm and one attached to it The stop is supported from above on the upper end of the screw spindle when adjusting the zero point. The adjustable bearing for the screw spindle expediently consists of a lower one End of the screw spindle supporting, adjustable in a thread of the balance frame screw. Furthermore, a pointer which can be adjusted by the screw spindle when taring is expediently is also expedient provided, which is also for. Adjusting the zero point can be used.

An embodiment of the present invention is illustrated in FIG. drawing omitting the details of the which are not absolutely necessary for an understanding of the invention Scale illustrated schematically and not to scale. In the drawings represents

709 618/109

F i g. 1 is a simplified view of the taring device and the means for adjusting the zero point of the balance, with one in the sense of one made Taring set taring device,

F i g. FIG. 2 shows a plan view of the front plate of the taring device with that corresponding to FIG. 1 Position of their reporting body,

3 shows the taring device shown in FIG. 1, however, the taring device assumes a zero position, and

F i g. 4 is a plan view of the front panel of FIG Taring device with the position of its display element corresponding to FIG.

In the F i g. 1 and 3, the balance beam 6 is supported as usual on the only indicated * 5 balance frame. On its one arm it has a counterweight 7 and on its other arm an outer cutter 8 on which the shell carrier 9 is supported. The tray carrier 9 has resulted in parallel eccentric ^zo shear arrangement, the weighing pan 10 and is by means of a steering lever. 11

The taring device is operated by means of the control button 12, which is located on one of the scales 5 rotatably mounted drive shaft 13 is attached, which still has the gear 14. The gear 14 is in permanent engagement with the pinion 15 of a screw spindle 16 which is in the balance frame 5 is mounted both rotatably and displaceably in its axial direction. The thread 17 of the screw spindle 16 is encompassed by a traveling nut 18 which is rigidly fastened in the weighing frame 5 by means of a Rod 19 is guided. The guide pin is still on a cantilevered arm of the traveling nut 18 20 of a cam drive attached, which is in the spirally curved groove 21 of a cam piece 22 engages, the latter being rotatably mounted on the shaft 13. The curve piece 22 is with .A pointer 23 provided, which is indicated by the sector-shaped Window 24 of the front panel 25 is visible therethrough. The front plate 25 is on the scale frame 5 attached and the sector-shaped window 24 is attached concentrically to the control button 12, such as this the F i g. Figures 2 and 4 illustrate. The whole arrangement is made so that the respective Position of the pointer 23 in relation to the window 24 represents a measure of the Tarierurig and thus the indicates the existing setting of the taring device. For this purpose, at the edge of the Window 24 still be attached graduation lines, of which, for example, the bottom left Graduation can be numbered with zero in order to deactivate a taring or to reset the To indicate taring device. The taring spring 26 now engages on the one hand on the shell support 9 and on the other hand on a clamping member 27, which by means of the rod 19 and the screw spindle 16,17 is guided in parallel and is displaceable in the axial direction of the screw spindle 16, 17. The tendon 27 has a stop 28, by means of which it rests on the upper side of the traveling nut 18, and Between the clamping member 27 and the traveling nut 18 there is still a tension-loaded retaining spring 29 effective, which is able to overcome the action of the balancing spring 26 and the clamping member 27 or whose stop 28 presses against the traveling nut 18. The tendon 27 finally still has another stop 30, which is in the extension of the axis of the screw spindle 16,17 and its upper end face 31 is opposite.

The device for adjusting the zero point of the balance uses a sufficiently fine-turning adjusting screw 32, which in a mounted in the balance frame 5 thread 33 in the axial direction of Screw spindle 16,17 is adjustable and directly on the lower end face 34 of the screw spindle 16.17 presses. So that the lower face

34 of the screw spindle is always in contact with the adjusting screw 32, a leaf spring 35 is also provided, which overcomes the effect of the balancing spring 26 and the screw spindle 16, 17 sufficiently powerful pushes down. In the F i g. 1 and 3 presses the leaf spring 35 onto the upper end face 31 of the Screw spindle 16.17; however, it would also be possible to move the leaf spring 35 to another part of the Allow the screw spindle to act in order to achieve the desired effect.

When executing the balance according to FIG. 1 and 3, the balancing spring 26 pulls the shell carrier 9 afterwards below. Therefore, if the weight of a container placed on the weighing pan 10 is to be balanced, it must the tension exerted by the balancing spring 26 can be reduced accordingly, so that the balancing spring 26 is to be relaxed accordingly and the control knob 12 must be turned in the direction that the traveling nut 18 and thus also the clamping member 27 by the required amount upwards wanders. Such a setting of the taring device is shown in FIG. 1 and 2 reproduced, with the Pointer 23 in FIG. 2 according to the weight of the container or object to be leveled clockwise and moved up. If the pointer 23 moves over the top right located delimitation of the window 24, a shift weight is to be operated in such a way that the pointer 23 remains within the sector delimited by the window 24.

The rotary knob is used to switch off taring after risking the object in question 12 to rotate in the opposite direction, so that the traveling nut 18 and the clamping member 27 downwards hike. As soon as the pointer 23 approaches the zero line in the lower left part of the window 24 and has only approximately reached this, the stop 30 of the clamping member 27 is now on the leaf spring

35 and thus come to the upper end face 31 of the screw spindle and in cause the taring device to zero at this moment. To do this, however, you need the pointer 23 by no means can be read exactly, but the button 12 is turned in the same direction until the pointer 23 · is completely beyond the zero line, as shown in FIG. 4 illustrates. Since with such a Further turning of the knob 12 on the clamping member 27 by means of its stop 30 via the leaf spring 35 the upper end face 31 of the screw spindle 16, 17 is present, the one reached by the taring spring remains 26 exerted spring tension constant and only the traveling nut 18 will continue to move downwards • move so that the retaining spring 29 is now tensioned. The resulting position of the various Parts of the taring device are shown in FIG. 3, according to which the traveling nut 18 has removed downward from the stop 28 of the clamping member 27. According to FIG. 3 is the zero position

the buoyancy control reached, it is completely irrelevant how far the hiking nut 18 from Stop 28 of the clamping member 27 has been removed. Therefore, such a zero position of the taring device does not require any special attention or an exact reading of the Position of the pointer 23. Rather, it is sufficient if the pointer 23 is simply a little way beyond the zero mark or the zero line according to FIG. 4 moves has been. .

In the zero position according to FIG. 3 and 4 the zero point of the balance beam 6 can now be adjusted, and for this purpose the adjusting screw 32 is adjusted. When the adjusting screw 32 is adjusted the axial position of the screw spindle 16,17 changed to a lesser extent, and this change in their axial position is transmitted via the spring 35 to the stop 30 and thus to the clamping member 27. The tensile effect of the balancing spring 26 itself changes accordingly and this effects the adjustment the zero position of the balance beam 6. In this by means of the adjusting screw 32 brought about adjustment of the The zero point of the balance arm remains the respective existing distance of the traveling nut 18 from the stop 28 of the tendon 27 received; compared to the scale frame 5, however, follows the traveling nut 18 of the axial adjustment of the screw spindle 16, 17, so that the zero point correction made documented by a corresponding adjustment of the pointer 23 within the window 24. Falls this normally only slight adjustment of the pointer 23 is impermissibly large, so indicates this immediately indicates an inadmissible mode of operation that must be avoided. With the normal adjustment of the Zero point of the balance beam 6, the pointer 23 should only be in the area between the zero mark and the move adjacent lower edge of the window 24.

The scale described is therefore extremely easy to use and all of the settings made - Regardless of whether it is a taring or an adjustment of the zero point of the balance beam 6 acts - ■ can with a single glance through the resulting position of the pointer 23 can be detected. In addition, apart from the balancing spring 26, there are no other devices for the Zero point correction, such as optically effective compensation means or an additional one, only the zero point correction Serving spring, required, so that related sources of error are eliminated and operational safety is improved.

In addition, the mode of operation of the described scales with regard to the control of taring and the adjustment of the zero point in principle the same if, in deviation from FIGS. 1 and 3, the upper end of the balancing spring 26 on the tensioning member 27 and the lower end of the balancing spring 26 on the shell support 9 is hooked, i.e. if, in other words, the shell support 9 is below the Wandering nut 18 is located. In this case, the balancing spring 26 has the tendency to raise the shell support 9, which is to be compensated for by a correspondingly smaller counterweight 7 on the balance beam 6.

The lifting of the clamping member 27 then causes an increased tension of the balancing spring 26, and at a Such a type of balance can then both the retaining spring 29 and the leaf spring 35 omitted because the balancing spring 26 then also takes on the tasks required by these springs. In the zero position of the taring device, this variant results in the lowest Tension of the taring spring 26. The Ehv direction described is therefore very adaptable and can can be used in scales of various types.

Claims (4)

Patent claims: 1. Precision balance with a zero point adjustment device for the balance beam and with a balancing spring, one end of which is attached to the pan support connected to the balance beam attacks and the other end by a traveling nut, which is on one in the balance frame rotatably mounted and adjustable by means of an adjusting screw spindle is adjustable is, characterized in that the end facing away from the shell support Taring spring (26) on one of the screw spindles (16, 17) loosely encompassing and guided clamping member (27) engages, which is adjacent to the traveling nut (18) by means of a tension spring (29) held, is adjustable for taring, while the clamping member (27) by a stop (30, 31) from the traveling nut (18) by setting the setting device (12 to 15; 20 to 25) can be separated and placed on the screw spindle and the screw spindle axially in Balance frame (5) through an adjustable bearing (32 to 34) is adjustable for zero point adjustment. 2. Precision balance according to claim 1, characterized in that the loose the screw spindle (16,17) comprehensive clamping member (27) with a surface corresponding to the traveling nut (18) (28) rests on this during taring and has a protruding arm (27) and a the stop (30) arranged thereon from above onto the upper end (31) of the screw spindle (16, 17) is supported during the zero point adjustment. 3. Precision balance according to claims 1 and 2, characterized in that the adjustable Bearing for the screw spindle (16,17) from the lower end (34) of the screw spindle supporting screw (32) adjustable in a thread (33) of the balance frame (5) consists. 4. Precision balance according to claims 1 to 3, characterized in that a through the Screw spindle (16, 17) when taring, adjustable pointer (23) for adjusting the zero point can be used. Considered publications:
Mettler spare parts directory K4, K 5, K 7, K 4T, K 5 T, K 7 T from E. Mettler, Zurich, December 1959, last page. 1 sheet of drawings 709 618/109 7. 67 © Bundesdrudcerei Berlin