DE4129904C1 - Loading machine producing calibrating forces for force pick=up - accepts weights on joined stacks coupled to tensile stress rod of liftable load transferring frame accepting transducer - Google Patents

Abstract

The loading machine, for calibration of a force sensor (12), has a machine frame enclosing a load transfer frame (13) with an attached tension rod (15) to which successive weights (20, 22) are coupled. An auxiliary loading device (28) acts on the load transfer frame to provide intermediate loading steps between those provided via the weights and using a number of interchangeable individual weights (30) applied to or removed from the load transfer frame via a lifting table (36). The individual weights may be used singly or in groups. USE - Automatic calibrating machine.

Description

The invention relates to a loading machine for Generate when calibrating force transducers required calibration forces in certain stages, with one that can be raised in a machine frame Load transmitter, on its tie rod in one linked stack of weights arranged one after the other can be coupled.

In the professional world there is a difference between loading machines for force standard measuring devices, for Force control measuring devices and for Calibrating machines differed in structure and Function are the same and differ only in the degree of Distinguish measurement accuracy. Here is the expression "Loading machine" as a collective term for the three above-mentioned facilities used.

Generic loading machines are by the DE 39 09 914 C1 known. During a calibration the sensors generally in steps of each 10% of the nominal force in upward and Downward rows calibrated by suitably heavy Weights coupled to the drawbar one after the other  or be uncoupled from it. Through the weights arranged in a linked stack a special series of loads is specified. The Transition to another load series, like this for Example when changing from a calibration to Newton, kilopond or British pound required is a replacement of the chained one Weights, which is extremely cumbersome and each requires other expensive stack weights.

EP-04 03 677 A1 is one Force normal measuring device known in which the of power supplied to a loading machine hydraulically is translated. To compensate for native Force translation errors are there with certain Stress levels positive and negative additional forces the load machine to apply what is there there Levering takes place along whose adjustment weights are slidably arranged. These Weight lever arrangement is only for application relatively small correction weights suitable and therefore only for the special application there usable.

The invention has for its object a Load machine for a universally usable Interpret additional load, even at high Accuracy should be inexpensive and easy to achieve. The solution to this problem results from the Features of claim 1.  

Regardless of the given, in a chained Weights arranged by means of a stack Additional load (support plate, individual weights) one Calibration of force transducers to a large extent allows any load levels by each correspondingly heavy individual weights are used. With the loading machine according to the invention can Calibrations in Newton, Pond or British Pound be made. It is also used for calibration of hardness testers with diamonds. The The invention also allows the use of high-precision individual weights the correction of native power translation errors Force standard measuring devices with hydraulic Power transmission.

The individual weights for the additional load apply to the load transmitter and can be lifted using the lifting table placed on or off the load transmitter be lifted off. So it is possible, on the one hand to increase the base load of the calibration forces and this by lifting the individual weights from each To reduce stress level or on the other hand at each load level by depositing individual weights to gradually increase the load.

In an embodiment of the invention, it can be provided that the lifting table is in sync with the Load transfer system up and down platform is arranged. This measure ensures that the control of the lifting table only on the settling or designed for lifting the individual weights must become.  

In the generic load machines between the load frame of the load transmitter and the chained stack of weights enough space to accommodate the an additional burden conditional components including lifting table, so that Load machines can also be retrofitted according to the Invention can be equipped.

According to the invention, the individual weights can the support plate rest and a lower, in Have reduced diameter shaft, with which they penetrate holes formed in the support plate. The shafts can vary in depth over the Protrude underside of the support plate so that the Lift table arranged below the support plate at Lift the individual weights one by one from the Lift off the support plate or lower it when lowering.

Advantageous embodiments of the invention are shown in specified in the subclaims.

The loading machine according to the invention is in following explained with reference to the drawing, in that show:

Fig. 1 is a calibrating machine in front view shown with a vertical section, concatenated stack weights and having a single weights supplementary loading means,

Fig. 2 shows the calibration machine, as seen in Fig. 1 from the left;

Fig. 3 shows the use of the additional load device for applications in which positive and negative additional forces are to be applied,

Fig. 4 means a first embodiment for the design and arrangement of individual weights on the additional load,

Fig. 5 shows a second embodiment of the individual weights,

Fig. 6 shows a third embodiment of the individual weights and

Fig. 7 is a plan view of a support plate carrying the individual weights of the additional loading device.

The machine frame of the calibration machine essentially consists of four square columns 1 to 4 , which are stabilized by an upper, middle and lower frame 5 , 6 , 7 , and two ball screws 8 , 9 , each between a pair of columns 1 , 3 and 2 , 4 are arranged. The spindles 8 , 9 together with a controllable electric motor and a low-backlash gear form a lifting and lowering device 10 for moving a traverse 11 which is guided on the four columns 1 to 4 . A pressure force transducer 12 is placed on the crossbar 11 , on which a load transmitter 13 is supported, to which the weights of the calibration machine can be coupled. The load transmitter 13 consists of a rectangular load frame 14 and a pull rod 15 , which is connected to the linked weights via a coupling 16 and can be lifted off. Instead of a pressure force transducer 12 , the calibration machine can also be used to calibrate a tensile force transducer, which in this case is suspended between the clamping bearings 17 on the underside of the crossmember 11 and the bearings 18 on the lower frame side of the load frame 14 .

The calibration machine is equipped with a first stack 19 of fully cylindrical weight disks 20 of different thicknesses and with a second stack 21 of annular weights 22 . The two stacks 19 , 21 are arranged concentrically, and the stack 19 is housed entirely within the outer stack 21 . The weights are coupled within their stack as a chain with a small single play between two weights in the usual way. The uppermost ring disk 23 of the outer, second stack has a relatively small inner bore 24 penetrated by an extension of the pull rod 15 , which is considerably smaller than the disk-shaped weights 20 of the inner, first stack. On the uppermost weight 25 of the inner stack, a support ring 26 is arranged concentrically with the pull rod 15 . When calibrating the force transducer 12 , the traverse 11 is moved upwards by means of the lifting and lowering device 10 , the weights 20 of the inner, linked stack 19 being coupled to the force transducer 12 one after the other, and after lifting the lowest weight of the inner stack 19 from it The base 27 then hits the top disk 25 when the traverse 11 is raised further, on the top disk 23 of the outer stack, the weights of which are then also successively coupled to the force transmitter 13 . Since the top weights 25 , 23 of the two stacks are chained together, only one drive is required to couple the weights of both stacks.

Today, the stack weights 20 , 22 are usually designed for calibration in Newtons. If a calibration in another measurand, e.g. B. is to be made in Pond, the stack weights must be replaced in the known loading machine described so far.

For the additional load, the loading machine is provided with an additional loading device 28 with which a large number of intermediate stages can be generated with the calibration forces. The additional loading device 28 comprises a support plate 29 which is fastened to the pull rod 15 below the load frame 14 and which carries a multiplicity of interchangeable individual weights 30 . The individual weights 30 rest with their thickened heads on the support plate 29 and each have a lower, reduced-diameter shaft 31 with which they pass through holes 32 , 33 , 34 , 35 formed in the support plate 29 , see also FIG. 4 Shafts 31 project with different excess lengths over the underside of the support plate 29 , preferably one or more individual weights 30 with the same excess length being assigned to each weight of the stack 19 , 21 .

Below the support plate 29 , a lifting table 36 is arranged on a platform 37 , which is guided on the columns 1 to 4 and which is moved by the lifting and lowering device 10 synchronously with the load frame 14 and the pull rod 15 when coupling the stack weights 20 , 22 , so that the distance between the lifting table 36 and the support plate 29 remains constant. The lifting table 36 is by means of a separate drive device, for. Example by means of the shown hydraulic cylinder 38, adjustable in discrete steps relative to the support plate 29, wherein it contains 30 depending on their shaft excess length successively from the support plate 29, the individual weights - and thus of the load transformer 13 - stands out.

If the calibration is to be carried out only with the stack weights 20 , 22 , the lifting table 36 is moved and held in its uppermost position, so that all individual weights 30 remain lifted off the load transmitter 13 . If the calibration is to be carried out with weights that are, for example, 2% heavier, the respective individual weights are dimensioned to 2% of their assigned stack weight and the individual weights are deposited successively when the assigned stack weight is coupled onto the support plate 29 by lowering the lifting table.

The additional load device 28 can also be used to compensate for native power translation errors in a z. Example by the EP-04 03 677 A 1 Normal known force measuring means can be used with hydraulic power transmission. In this case, positive or negative additional forces are to be applied to the load transmitter 13 at certain load levels.

As illustrated in FIG. 3, the lifting table 36 is set to an intermediate height when the loading machine is in the basic position. The support plate 29 is loaded with individual weights that are dimensioned according to the correction forces to be applied. The individual weights 39 , 40 , with which a positive additional force is to be applied, are lifted from the support plate 29 in the basic position and can thus be attached to the load transmitter 13 by lowering the lifting table 36 . The individual weights 41 , 42 , with which a negative additional force is to be applied, rest in the basic position on the support plate 29 and can be suspended from the load transmitter 13 by raising the lifting table.

FIGS. 4 to 6 show different embodiments for the design and arrangement of the individual weights on the support plate.

In Fig. 4, the individual weights sit with their thickened head 43 on the top 44 of the support plate 29 . Their shafts 45 each have different diameters and different lengths. In FIG. 5, the individual weights in diameter have identical shanks 46 and the diameter of same head portions 47 which are inserted in identically shaped, stepped holes 48 of the support plate. Such individual weights are inexpensive to manufacture as stepped full cylinder bodies. Fig. 6 shows a set of equally heavy individual weights 49 , each of which is provided with a recess 50 to compensate for their shafts 51 of different lengths.

FIG. 7 shows a top view of a support plate 52 , which is provided with holes 53 for receiving the shafts of individual weights 54 along a plurality of diagonals, which are each at an angular distance of 20 °. Three identical individual weights are arranged with the same radial distance from the center on three diagonals offset by 120 °. These groups of three I and II each together form the additional load associated with a specific stack weight 20 , 22, which loads the pull rod 15 only in the vertical direction without torque. Eighteen holes are provided on each of six radii, so that a total of thirty-six different additional load levels can be realized in the exemplary embodiment shown, if three individual weights are combined.

Reference symbol list

1 pillar
2 pillar
3 pillar
4 pillar
5 upper frame
6 middle frame
7 lower frame
8 ball screw
9 ball screw
10 lifting and lowering device
11 traverse
12 pressure force transducers
13 load transmitters
14 load frames
15 tie rod
16 clutch
17 clamping bearings
18 bearings
19 inner stack
20 weight
21 outer stack
22 weight
23 top washer
24 inner bore
25 top weight
26 support ring
27 base
28 Additional load device
29 support plate
30 individual weights
31 shaft
32 holes
33 holes
34 holes
35 holes
36 lifting table
37 platform
38 hydraulic cylinders
39 individual weight
40 individual weights
41 individual weight
42 individual weights
43 thickened head
44 top of 29
45 shaft
46 shaft
47 headboards
48 graded holes
49 individual weights
50 turn
51 shaft
52 support plate
53 holes
54 individual weights

I group of three individual weights
II Group of three individual weights

Claims (7)

1. Load machine for generating the calibration forces required for calibrating force transducers ( 12 ) in certain stages, with a load transmitter ( 13 ) that can be raised in a machine frame, with weights ( 19 ) arranged on its tie rod ( 15 ) in a linked stack ( 19 , 21 ) 20 , 22 ) can be coupled one after the other, characterized by a support plate ( 29 ) fastened to the pull rod ( 15 ), onto which or from which a plurality of interchangeable individual weights ( 30 ) can be directly or individually placed one after the other by means of a lifting table ( 36 ). or can be withdrawn. 2. Loading machine according to claim 1, characterized in that the lifting table ( 36 ) on a synchronously with the load transmitter ( 13 ) up and down platform ( 37 ) is arranged. 3. Loading machine according to claim 2, characterized in that the individual weights ( 30 ) each have a lower, reduced-diameter shaft ( 31 ) with which they pass through holes ( 32 , 33 , 34 , 35 ) formed in the support plate ( 29 ) that the shafts ( 31 ) can protrude to different extents from the underside of the support plate ( 29 ) and that the lifting table ( 36 ) is arranged below the support plate ( 29 ), so that the individual weights ( 30 ) one after the other when the lifting table ( 36 ) is lifted can be lifted off the support plate ( 29 ) or can be successively placed on the support plate ( 29 ) by lowering the lifting table ( 36 ). 4. loading machine according to claims 1 to 3, characterized in that the individual weights ( 30 , 39 to 42 , 49 , 54 ) are stepped cylinder bodies. 5. loading machine according to claim 4, characterized in that equally heavy individual weights ( 49 ) are identical in their outer dimensions to their different shaft length and that the individual weights are provided with bores ( 50 ) to compensate for the different weight of their shafts ( 51 ). 6. loading machine according to one of claims 1 to 5, characterized in that three identical individual weights, distributed at angular intervals of 120 °, arranged at the same radial distance from the tie rod ( 15 ) on the support plate ( 29 ) and at the same time as a group (I , II) can be lifted off the support plate ( 29 ). 7. loading machine according to claim 6, characterized in that for each weight ( 20 , 22 ) of the stack ( 19 , 21 ) a group (I, II) of identical individual weights is provided.