SU22310A1 - Automatic electric scales - Google Patents

Description

In the proposed automatic electric weights, the electric motor circuit and the lifting electromagnet circuit are closed by the weighing platform when the latter is lowered under the action of a weighed load and opens when it is lifted, and the rheostat slider is set to the current required for lifting the weighted load by an electromagnet. In order to keep the loaded platform in the middle position, a solenoid is applied, the winding of which is permanently connected to the circuit, and the core is fixed on the rod, which serves to suspend the platform and is made of non-magnetic material. The attached drawing schematically shows the device proposed weights. In the proposed automatic electric scales, the platform N, when lowering it under the action of a weighed load 2, closes the electrical circuit of the electric motor H and the circuit of the lifting electromagnet A; when lifting the platform, the circuit opens. Each time, the engine of the rheostat I, retracted by the spring S, is set to a position corresponding to the current required for lifting the weighed load I by the electromagnet A. To keep the platform unloaded N of the weights in the middle position, solenoid C is used, the winding electric current, and the core is fixed on the rod T, which serves to suspend the platform iV and made of a nonmagnetic material (for example, copper). To hold the platform L with loads Z in the upper position, a 1 latch D is provided rotatable on the axis, one shoulder of which is under the influence of spring F, and the other is connected with the solenoid core E, the platform M installed by means of springs is used to close the winding circuit of which d on platform L. In the motor circuit -N, a starting resistor Q is used, the engine of which the hinge is connected AND to the platform -Zv for removing the rheostat when lowering the captured platform and introducing it when it is raised. The operating mode of the lifting electromagnet A is registered with an instrument W. Before the load Z is placed on the weighing platform Jif, the latter are in the following state: the circuit with the lifting electromagnet A is turned off, since the entire scale system is out of contact with the b, c, d contacts of this circuit located under the platform N and lockable when lowering the EU. In the same state, for the same reasons, the H motor circuit is also located. This open circuit is caused by the fact that the system of weights is drawn by the continuously acting solenoid C upwards. The circuit with the electromagnetic solenoid jK is also open, as it closes when the load is lowered onto the movable platform M, which without the load Z under the action of platform N lifts above the contacts of this circuit, and therefore the latch D is pulled away by the spring F from the rod / balance. The rheostat JR is brought out by the spring 5, and the starting rheostat Q is brought out by means of the lever AND, which is shifted depending on the lowering and lifting of the scale pan, with which it is connected by a hinge. When the load 2 is placed on the scale pan, the following occurs: the load Z presses on the platform M, which closes the contacts with a solenoid E on it, which is no longer the latch D to the rod of the scale; in addition, the load will cause the entire scale system to lower, and the lower cup will close the other two chains, and the i7 lever will output the rheostat Q. The electric motor H will move and output with the help of the levers Y w. .. r rheostat R until the amperage forms in electromagnet A a sufficient amount of ampere-turns and it will be able to lift an iron bar b connected to the weighing pan. When pushing, the circuit will be switched off, and the electromagnet L will stop acting, and so that the scales do not fall, they will be hooked by the latch J} on the protrusion on the rod and will remain in this position until the load rests on the cup. As soon as the load is removed, now you are; the chain is connected to the solenoid E, and the latch L) doesn’t come from the spring F to its normal position, and the scale will be held by the solenoid C in the hanging position. During the flow of a current with an electromagnet A, an ammeter graduated in units of weight

Yu. I.

will show the weight of the body, and if there is a need, it is possible to record the weight with a recording device W. When the load is removed, the jR resistor with the help of the spring S will assume the normal position at idle contact.

The subject matter of the invention.

1. Automatic electric scales, characterized in that the spring-pulled S motor of the rheostat j located in the chain of the lifting electromagnet A is mechanically connected with the shaft of the electric motor I in order to have the specified electric motor equally (like the chain of the lifting electromagnet A, it closes the platform L of the balance when it is lowered under the action of a weighed load and opens when it is raised, set the rheostat slider to the position corresponding to the amount of current required for lifting by the electromagnet A is weighed of cargo.

2.With the balance described in paragraph 1, the application, in order to keep the platform N of the balance not loaded, is in the middle position, solenoid C, the winding of which is permanently connected to the electric current circuit, and the core is fixed on the rod T, which serves to suspend the platform of the balance from non-magnetic material.

3. In the case of the weights described in paragraph 1, the application is designed to hold the platform with a load in the upper position, swivel on the "j" axis of the latch 1}, one arm of which is under the influence of the spring Fy is differently hinged

connected to the core of the solenoid A, for closing the winding circuit of which, when a load is applied to the weighing scale, serves platform M, mounted on the arms of platform g /, fl.

4.With the balance described in paragraph 1, the use of the recording mode of operation of the lifting electromagnet A of the instrument W.

5. With the scales described in paragraph 1, the use of a starting resistor in an electric motor I circuit, the engine of which is pivotally connected to platform L, for the purpose of removing the resistor when the specified platform is lowered and inserted when it is raised.