DE590968C - Electric weighing device - Google Patents

Description

Electric weighing device The invention relates to a weighing device, where the force exerted by a solenoid coil on a balance beam to balance the load is used and in 'which the respective required size of the flowing through the coil Amperage through an upstream and by means of a through the game of the Balance beam between two contacts controlled electric drive adjustable Resistance is automatically regulated and at the same time serves to display the weight.

Compared to the known devices of this type, the invention exists in the special type of load application directly on the solenoid core and in the arrangement the same in the vicinity of the balance beam pivot point.

In the known weighing devices, the load acts continuously on the Balance beam, and it also engages at a greater distance from the pivot point on the Balance bar on.

The invention now causes that on the balance beam acting trucks during the load balancing process down to the value zero Steadily decrease when the equilibrium is reached.

Furthermore, the bending stresses on the balance beam are also at Full load due to the small lever arm according to the invention between load application and Balance beam axis of rotation is low. D, -r balance beam can therefore be carried out more easily will.

In Figs. I to 4, an embodiment of the invention is shown.

They show: FIG. 1 a view of the device according to the invention, with individual parts cut and other parts omitted, Fig. a View of the device according to the invention for weighing heavy loads, FIG. 3 a Side view according to FIG. 2, with individual parts omitted and others cut are, _ Fig. 4 the line and circuit diagram. As can be seen from Figs. I and 4, the weighing device consists of a box-shaped base i with a cover a which a columnar frame 3 is arranged. On an arm 4 of the frame 3 is an arm 5 attached, which is preferably made of a non-magnetic material and the solenoid coil 6 carries. A movable core 7 on which the magnetic Force acting on the solenoid coil 6 is rotatably attached to the lever 8, 13 at g.

The lever 8, 1 3 is in ii io to a depending arm which is attached to the lateral arm 1z of the frame 3 stored.

One end of the lever 13 is separated from the other end of the lever 8 by a dielectric Intermediate piece 14 isolated. The lever end i3 serves to close and opening the motor circuits via the contact screws 15 and 16, which are in threaded holes the elbows 17 and 18 are screwed in. These elbows are on the frame 3 attached and isolated from the frame by the intermediate piece i9.

The box-shaped base i is used to accommodate two motors 2o and 21 with a common shaft 22 which rotate in the reverse direction. On the Extension of the shaft 2z is a gear 23, which is connected to a gear 24, which is arranged on the short shaft 25, meshes. The shaft 25 carries a worm 26, which is engaged with a worm gear-27. This worm wheel. is on a rotatable resistor 28 attached to a winding of resistance wire which is attached to the periphery of the rotating body. A contact lever 29 is available in contact with the resistance winding.

The method of operation of the device according to the invention results from FIGS. I and 4 as follows: A certain amount of direct current flows continuously from the power source 37 through the solenoid coil 6 and generates a sufficiently large magnetic force here to. to hold the core 7 with the load receiver 30 in its unloaded initial position. If a load is now placed in the load receiver 30, the magnetic force is not sufficient to balance the load, so that the core 7 goes down and in doing so takes the lever 8, 13 to which it is rotatably attached. Here, the insulated end 13 of the lever .8, 13 comes into contact with the contact screw 15, so that the circuit in which the motor 20 and the power source 38 are connected in series is closed. The motor 2o is therefore set in motion, which rotates the resistor 28 by means of the transmission gear 23, 24, 25, 26, 27, in such a way that the distance between the contact lever 29 and the beginning of the winding is reduced, whereby the resistance is also reduced will. As a result, the current flow in the solenoid 6 is increased, until the pull of the solenoid on the core 7 balances the load. If the load has now been balanced by the pull on the core 7 and the latter has returned to its original position, "the contact between the end 13 of the lever 8, 13 and the tip of the contact screw 15 is interrupted. The motor 2o then stands still until until the contact is closed again.

When the load is decreased, the current flowing through the solenoid 6 generates a larger magnetic force than is required to compensate for the decreased force. The core 7 is then pushed upwards until the lever closes the circuit of the motor 21 via the contact screw 16 by means of the insulated lever end 13. The motor 2i rotates in a different direction than the motor 2o, so that the resistor 29 is also rotated in the other direction by means of the transmission gear, until so much current flows through the solenoid coil 6 through the increased resistance that the magnetic force the tension of the load on the core 7 compensates.

At this point there is contact between the end 13 of the lever and the contact screw 16 is interrupted and the motor 2i stopped.

Then again only as much current flows through the solenoid 6 as is necessary to keep the core 7 with the load receiver 30 in its initial position.

Figures 2 and 3 illustrate a device for weighing heavy loads. In this design, the same means are used to balance the load that are used accordingly also bear the same reference numerals as in the other figures.

The change consists in that the load is not placed in a shell 30 suspended from the core 7, but is brought onto a platform 31 which rests in a suitable manner on the lever rod 32 which is mounted in the base 33. The force exerted by the load on the platform 31 is transmitted through the lever system 32 and a connecting rod 34 which is attached to the core 7 and carries a bracket 35 for receiving the pin 36 of a rocker lever.

Since the current flow through the solenoid 6 is a measure of that from the solenoid coil is the tension exerted on the core 7, an ammeter is used to display this tension 40 provided. The scale of this ammeter is chosen so that kilograms and Fractions of it are given.

Claims (1)

CLAIM OF THE PATENT Weighing device in which the solenoid coil The force exerted on a balance beam serves to balance the load and in which the respective this required size of the current flowing through the coil through a her before = switched and = by means of a through the play of the balance beam between two contacts controlled electric drive adjustable resistance automatically is regulated and at the same time serves to display the weight, characterized in that that the load on the core (7) the solenoid coil (6) of the electromagnetic Load balancing device attacks and the core (7) near the bearing (ro) of the balance beam (8, 13) with this articulated in a known manner at (9) is, so that on the one hand on the balance beam (8, 13) acting trucks during of the load balancing process steadily down to the value zero when it reaches its equilibrium position and on the other hand, the bending stresses on the balance beam even at full Load of the same as a result of the small lever arm (9, zo) are low.