JPS58108416A - Electronic balance - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention provides a parallel guide device for a load receptor, a transmission lever, and a connecting member for transmitting perpendicular forces between the load receptor and the transmission lever. It concerns only electrons that have .

This type of scale is described, for example, in German Patent No. 2621483 or German Utility Model No. 8008.
No. 791, it is known. In these scales 9, thin strips (German Utility Model No. 80087
91) or strips with one or several reduced cross-sections formed by stamping, punching or etching (Germany German Patent Application No. 2,621,483 is used). .

However, these components are extremely difficult to handle and assemble. In this case, even a very small deviation of the connecting element from planarity or from the parallelism of the assembly planes causes the connecting element to be tensioned during assembly. This causes, for example, a change in the point of application of the effective force due to the load, so that the effective lever arm of the transmission lever changes independently of the load. However, even if the strip-shaped connecting member is flat and the assembly surfaces are parallel, the connecting member is stressed during assembly by the torque of the fixing screw, and may collapse under extreme conditions.

It is therefore an object of the present invention to avoid the above-mentioned disadvantages of the coupling members in conventional electronic balances and to provide a coupling which can be assembled without problems and which provides a good and reproducible force transmission in the assembled state. It is to provide parts.

In order to solve this problem, the invention provides that the connecting element consists of a round bar, which rod has a reduced diameter section near each end, likewise with a circular cross section. I made it seem like it was.

Two flexure points defined by the two diameter reductions are created, by means of which small deviations from the parallelism of the assembly planes can be compensated. Due to the consistently circular cross-section of the connecting element, the flatness of the connecting element is no longer a problem. Since the coupling part with a circular cross section is a purely turned part, its manufacture is also simple.

Advantageously, the diameter of the connecting element in the area of the reduced diameter is approximately τ of the diameter in the other areas.

With this setting, sufficient rigidity of the connecting member between the two reduced diameter portions can be obtained without significantly increasing the mass of the connecting member. It is also advantageous if the transition from the full-diameter part of the connecting element to the reduced-diameter part takes place gradually, so that the notch effect can be achieved. .

Advantageously, the ends of the connecting element are clamped between the prismatic groove and the flat plate. As a result, the connecting member is fixed in a predetermined position without being displaced, and the tension due to the torque of the fixing screw is not transmitted to the connecting member during assembly.

Due to the kinematics of the bridge, the reduced diameter section of the coupling member on the side of the transmission lever is usually subjected to bending loads.

Therefore, it is advantageous if the reduced diameter portions on the sides of the transmission levers are designed to be narrow and/or long. With this embodiment, the bending stiffness of this reduced diameter section is lower than the bending stiffness of the reduced diameter section located on the side of the load receptor.

In order to protect the reduced diameter part of the connecting part particularly well, a further advantageous embodiment of the invention provides that the connecting part is surrounded in the area of the reduced diameter part by a protective tube, which It is fixed to the connecting element on one side over the entire diameter of the connecting element and is somewhat enlarged on the other side, surrounding the connecting element at a small distance over the entire diameter. This makes it possible to avoid applying extremely strong bending force to the protective tube at the thin diameter-reduced portion, both when manufacturing the scale and when buckling stress occurs in the connecting members in the assembled structure.

A connecting member with a circular cross-section has an equal bending stiffness in all directions.3 A further reduction of the bending stiffness in one direction, which is subject to bending loads during weighing, is necessary in extremely sensitive scales. In this case, an additional small area is formed in the area of the reduced diameter by material removal, e.g. by grinding, on the sides located opposite each other, which area is subjected to bending loads during metering. It is advantageous if it has only a low bending stiffness in this direction.

The invention will now be described in detail with reference to the drawings.

The electronic balance shown in FIG. 1 has a support part 1 which is immovable relative to the housing, and into which a load receptor is connected via two guide rods 4.5 with flexure points 6. 2
is fixed and movable in the vertical direction. The load receptor 2 has a load 1n on its upper part for receiving the object to be weighed.
13, and transmits a force corresponding to the mass of the object to be measured to the short lengths of the transmission lenses 7 via the connecting member 9. The transmission levers 7 are supported on the support part 1 by cross spring hinges 8. The long Lenomeau arm of the transmission lever 7 is acted upon by a noransuka. In the illustrated embodiment, this balancing force is shown as a coil 11 and a permanent magnet system 10 for producing an electromagnetic noranska.

The related control devices are not shown because they are well known and are irrelevant to the subject matter of the invention.

Instead of an electromagnetic nozzle, a vK nozzle can also be provided, for example, by means of a spring element. In this case, the deflection of the spring member from the strain gauge is detected and converted into an electrical signal. This format is also well known, so we will not discuss it in detail here.

The connecting member 9 consists of a round bar having one reduced diameter section 12, 13 with a circular cross section near the top end and the bottom end. The two diameter reductions 12 , 13 each create an area with a slight bending stiffness, which is the actual flexing point of the connecting element 9 . FIG. 2 shows an enlarged side view of the upper part of the coupling member 9. The round rod has a region with a full diameter in its upper part, by which it is clamped to the transmission lever 7. The area with the full diameter of the upper part of the round bar is followed by a transition area 14 in which the diameter gradually decreases. This transition region is followed by a region of reduced diameter 12 which has an at least approximately constant slight diameter. Then, in the transition region 15 of FIG. 2, the diameter gradually increases again to the total diameter of the round bar. The lower diameter reduction 13, which is not shown in FIG. 2, is also designed accordingly.

The dimensions of the connecting member 9 and the reduced diameter section 12.13 are set according to the size of the scale, the maximum load and the degree of analysis. In this case, the connecting member 9 is made as strong as possible in order to simplify handling during assembly and to be able to transmit large forces, for example during an impact, without damage. Something is desired. However, on the other hand, the connecting member 9 is bent due to component errors (
It is desired that it be as flexible as possible, so that in the event of a deviation of the movable part of the scale from the desired pivoting position, as little as possible a reaction force is transmitted to the weighing system. As a compromise between these conflicting requirements, it is advantageous if the diameter in the region of the tIf diameter 12.13 of the coupling element 9 is selected to be approximately equal to the diameter in the other region of the coupling element 9.

In a scale arranged as shown in FIG. 1, in which the connecting member 9 acts on a very short Lenomo arm of the transmission Lenosafe, the upper reduced diameter portion 12 is subject to bending loads especially when the movable part is deflected. be done. Therefore, this upper reduced diameter section 1
2 is advantageously selected to be somewhat longer than the lower diameter reduction part 13 (see FIG. This can also be achieved by reducing the diameter.

Communicate and:! The tightening type of the connecting member 9 in 7 is the 6th
As shown in the figure. The transmission levers 7 are provided with prismatic grooves 17, and during assembly the connecting member 9 is placed in this groove 17 and thereby fixed in the transverse direction. A flat plate 16 is then placed and tightened with two screws 18 near the sides of the connecting member 9.

According to such a fixing method, no torque is transmitted to the connecting member 9 during assembly.

FIG. 3 shows an embodiment of the connecting element 9 with an additional protective tube 2o. In FIG. 3, the area of the upper reduced diameter section 12 is shown in an enlarged sectional view. The protective tube 20 is fixed to the connecting member 9 at its 10,000 ends 21, for example by gluing or laser welding. The protective tube 20 extends from this fixing point beyond the area of the reduced diameter section 12 to a region 22 in which the connecting element 9 again has its full diameter. This range 22
The protective tube 20 has been enlarged somewhat, so that a small annular gap is created between the connecting member 9 and the protective tube 20. With this configuration, extremely strong bending stresses in the area of the reduced diameter portion of the connecting member 90 can be avoided without impeding the freedom of movement due to slight bending that occurs during normal weighing operations. Avoided.

Of course, even if such a protective tube 20 is not provided, it is possible to protect the connecting member 9 against buckling in the assembled scale. For this purpose, for example, the load receptor 2 can have horizontal ribs with vertical holes, through which the connecting element 9 is guided.

Another embodiment of the connecting member 9 is shown in FIGS. 4 and 5. In addition to this reduced diameter part 12 with a circular cross-section, small areas 19 are provided by grinding at mutually opposite positions (see FIG. 4), which areas 19 are shown in FIG. It no longer has a circular cross section as shown in Figure 1. With this embodiment, the reduced diameter section 12 has a particularly low bending stiffness at i fil (defined by the chamfer).

This again makes the handling of the connecting element 9 difficult, but if a slight bending stiffness of the connecting element 9 is extremely desired, it is possible to This is a compromise measure.

[Brief explanation of the drawing]

FIG. 1 is a vertical cross-sectional view of an electron balance according to the present invention, and FIG.
The figure is an enlarged side view showing the upper part of the connecting member shown in FIG. 1, FIG. 3 is a sectional view showing a part of the connecting member according to another embodiment, and FIG. 4 is a connecting member according to still another embodiment. FIG. 5 is a cross-sectional view of the connecting member taken along the line V-VS in FIG. 4, and FIG. 6 is a diagram showing the manner in which the connecting member is fixed in the transmission levers.

Claims (1)

[Claims] 1. Parallel guide device for load receptor and transmission levers
and a connecting member for transmitting a vertical force between the load receptor and the transmission levers, the connecting member (9) consists of a round bar, and the connecting member (9) consists of a round bar. has a reduced diameter section (1
All electrons are characterized by having one each of 2 and 13). 2. An electronic balance according to claim 1, wherein the diameter in the area of the reduced diameter portion (12, 13) of the connecting member (9) is approximately T of the diameter in the other area. 3. The electronic balance according to claim 1 or 2, wherein the connecting member (9) gradually transitions from the full diameter portion to the reduced diameter portion. 4 The end of the connecting member (9) has a prismatic groove (17)
(16) The electronic scale according to any one of claims 1 to 3, wherein the electronic scale is tightened between the (16) and (16). 5. The diameter of the reduced diameter part (12) on the side of the transmission lever (7) is smaller than the diameter of the reduced diameter part (13) on the side of the load receiver. Only the electrons described in any one of item 4. 6. Reduced diameter part (12) on the side of the transmission lever (7)
6. The sterilizer according to any one of claims 1 to 5, wherein the length of the diameter is greater than the diameter of the reduced diameter portion (13) on the side of the load receptor. 7. The connecting member (9) connects the protective tube (
20), and the protective tube is surrounded by the connecting member (9) within the entire diameter of the connecting member (9) on the 10,000 side.
Claims 1 to 6, which are fixed to the connecting member (9) and are slightly enlarged on the other side and surround the connecting member (9) over the entire diameter at a slight distance. All electronics listed in any one of the following. 8. In the area of the reduced diameter part (12, 13) with a circular cross section, an additional small area (19) is formed by material removal on the sides located opposite each other, which area has a chamfer. 8. An electronic scale according to any one of claims 1 to 7, having only a small bending stiffness in a direction defined by the parts.