SU43976A1 - X-ray tube feeder - Google Patents

Description

The present proposal relates to small portable X-ray machines, where to save space and weight, a separate incandescent current transformer is not departed, but instead a special section of thicker wire is added to one of the high voltage coils. The disadvantage of this design is the impossibility of separate control of current and voltage, and as a result of this, the dependence of such devices on voltage fluctuations in the primary network and the inability to work if the amplitude of these oscillations is much greater than + 5%. The introduction of adjustable resistance into the filament circuit partially obviates this drawback and is structurally associated with great inconvenience due to the fact that the rheostat must be located on one of the high voltage terminals. The proposed device, which aims to eliminate these difficulties (for this purpose, uses the effect of magnetic scattering on transformers), is that the primary and secondary windings of the transformer, made 1e each of two coils, are located on opposite branches of the core frame and are provided in the primary part taps connected to the contacts of the switch for changing the voltage in the source of current that is heated and located on one of the branches of the core of the core section of the secondary winding of the transformer by including on one of the branches of the rome of the same number of sections as they are included in the second. On the attached drawing shows a diagram of the proposed device. The proposed device consists of an HF I, a primary winding P of a transformer, consisting of two coils located on opposite branches of the core and a secondary winding of B, also consisting of two coils located on opposite branches of the core. One of the sections of the secondary coils is used as a current source for heating the tube. Each of the primary winding coils is equipped with taps to connect with the contacts of switch C, including when it is rotated on one of the branches of the frame, the same number of sections of the coil as they are turned off on the second branch, and with the contacts of switch A, which turns on the same branch of the core more the number of turns of the primary winding, it turns them off simultaneously on another branch. The operation of the proposed device is based on the fact that) at small cross sections of the transformer core, the action of the magnetism

because of the magnetic scattering, it is very different for each of them, so that an equal number of turns induces a much greater electromotive force in the coil when they belong to a coil located on the same branch of the frame than in the case when they belong to a coil located on the opposite branch. By virtue of this, under the action of switch C, which, as can be seen from the diagram, turns on the same number of turns on one of the primary coils as it turns off on the other, the voltage of the coil P will change, and with it the current in the tube, since the total magnetic flux through the asymmetrically located coil I. will change. The voltage of the entire secondary winding will not noticeably change, since the loss of voltage on one of the coils will be compensated for by an excess on the second symmetrically located. By moving the switch A, which at each stage changes a greater number of turns from the side opposite to the coil H, and less from the side of the coil H, the picture is different and if the ratio of these turns is correct, it is possible to achieve that the voltage on H when switching will not change, and the total voltage of the secondary winding, on the contrary, will change due to a change in the transformation ratio.

Thus, the described device makes it possible to independently vary the amperage and voltage, i.e., makes the simplified transformer quite controllable by conventional methods. Specific to this invention should be considered the use of a magnetic flux pattern configuration for adjusting the voltage in a portion of a winding.

The subject matter of the invention.

1. A device for powering x-ray tubes using a transformer secondary winding section as a current source for heating the tube, characterized in that, in order to regulate the heating current at a constant anode voltage due to dissipation, the primary and secondary windings of the transformer are made each of the two coils, are located on opposite branches of the x-frame of the core and are provided in the primary part with taps connected to the contacts of the switch in order to change the voltage in the serving source a lump of current and a transformer secondary winding section located on one of the branches of the core of the core by switching on the same number of sections on one of the branches of the core as they are turned off on the second.

2. The form of the device according to Claim 1, characterized in that in order to control the anode voltage, an additional switch is used in the primary circuit of the transformer, which includes a greater number of turns of the primary winding on one branch of the core’s core than is simultaneously turned off on the other branch. i.e., it makes 3 quite methods, By the end of the configuration of the author's certificate of A. A. Weinshenker No. 4397d

neither

The X-ray section of the emator is set in the first half of the heating, for the purpose of 1, there is no calculation of the omnipresently laid-off frame of the gray part of the contact section of the pathway section of the frame: only

Events for the digital commutator, RMA Serv primary