SU862252A1 - Device for measuring direct current - Google Patents

Description

The invention relates to the field * of electrical engineering, namely to devices of measuring transducers of direct current, is called in systems and can be used control and regulation.

Known construction magnitomodulyatornogo contactless measuring large direct currents, consisting of a 0-form closed magnetically ^υ wires made of two ferromagnetic elements with recesses in the end portions and with through holes in which a modulation coil is arranged, consisting iy.dvuh 15 series-connected sections, and a measuring winding, consisting of two sections connected in series and according to, and placed on top of the field winding [1]. 20

The disadvantages of this design are its complexity, which makes it difficult to manufacture a detachable magnetic circuit and the winding of a modulation winding, low performance * 5, as well as a low upper limit of the measured currents and the inability to smoothly control the amplitude sensitivity over a wide range. thirty

A device for measuring direct current is also known, comprising a magnetic circuit, an excitation winding, a direct current winding and a measuring winding made with the possibility of movement relative to the magnetic circuit Ϊ2].

This design is the technical essence and the achieved result is the closest to the described invention.

Its disadvantages are the structural complexity of the implementation and low performance.

The purpose of the invention is to simplify the design and improve operating conditions.

To do this, in a device for measuring direct current, containing a magnetic wire, an excitation winding, a direct current winding and a measuring winding made with possible movement relative to the magnetic circuit, the direct current winding is made in the form of a rectilinear section, and the magnetic circuit consists of three rectangular parts along the perimeter of each of which longitudinal grooves are made, and the parts of the magnetic circuit ^ are arranged in such a way that two of them are parallel, on both sides of the DC winding a, and the third is perpendicularly adjacent to the first two, forming a U-shaped · shape of the magnetic circuit, with the field winding made of three sections connected in series and according to each of which is placed in the grooves of the parts of the magnetic circuit, covering them around the perimeter, and the measuring winding is located on one of the parallel parts of the magnetic circuit perpendicular to the excitation section.

The drawing schematically shows the proposed device.

Device for measuring direct current. It contains a magnetic circuit, an excitation winding, a direct current winding 1 and a measuring cell ^ 2 made to move relative to the magnetic circuit, moreover, the direct current winding 1 is made in the form of a rectilinear section, and the magnetic circuit consists of three parts 3 , 4 and 5 are rectangular in shape, along the perimeter of each of which J5 longitudinal grooves are made. Moreover, the parts of the magnetic circuit are arranged in such a way that two of them (3 and 4) are located in parallel, on both sides of the DC winding 1, and the third (5) __ is perpendicular to the two first 30 parts 3 and 4, forming p- shaped shape of the magnetic circuit. The field winding is made of three sections B, 7 and 8, connected in series, and according to each of which is placed 35 in the grooves of the parts of the magnetic circuit, covering them around the perimeter, and the measuring winding 2 is located on one of the parallel parts of the magnetic circuit, for example, part 3 perpendicular to section 40 of the 6th field winding.

A device for measuring direct current operates as follows.

The field winding is connected to an AC voltage source and creates a pulsating transverse magnetic field in the magnetic circuit, which causes a periodic change in its differential magnetic permeability. A constant winding ^then “§dka 1. connected to the measured direct current, creates a constant magnetic field in steady state, the phase of which changes with frequency. equal to the frequency of change of the differential magnetic permeable - 55 ty. A change in this flux induces in the measuring winding 2γ transformer coupled to the DC winding 1, a variable EMF with a double frequency, the magnitude of which is proportional to the DC voltage. Moving the measuring winding 2 to the leftmost polo. moving with the coordinate Xo provides ⁵ maximum sensitivity, and moving it to the extreme right position with the coordinate XMatwf minimum sensitivity when measuring constant currents.

In the manufacture of the device does not require special devices for installing a single-turn DC winding. The manufacture of the device is a time-consuming 15 process. Installation, overlay and dismantling of the device during operation is carried out without disassembling its electrical and magnetic circuits and without breaking the circuit of the measured direct current.

Claims (1)

(54) DEVICE FOR MEASURING A CONSTANT The invention relates to the field of electrical engineering, namely to devices of direct current measuring transducers, and can be used in control and regulation systems. The known design of a magnetomotor non-contact measuring instrument of high direct currents consists of an O-shaped closed magnetic circuit made of two ferromagnetic elements with notches in the end sections and with through holes in which the modulation winding is placed, consisting of two sections connected in series, and a measuring winding consisting of two sections connected in series and according to, and placed on top of the winding of the bore. And the disadvantages of this construction are its complex The efficiency, the cause of low-quality manufacturing of the split magnetic core and the winding of the modulation winding, low performance, as well as the low upper limit of the measured currents and the inability to smoothly adjust the amplitude sensitivity in wide limits. CURRENT It is also known a device for measuring direct current, comprising a magnetic core, an excitation winding, a direct current winding and measuring. The body winding is movable relative to the G2 magnetic circuit. This construction by technical essence and the achieved result is closest to the described invention. The disadvantages of it are the structural complexity of implementation and low performance. The purpose of the invention is to simplify the design and improve the operating conditions. For this purpose, in a device for measuring direct current, comprising a magnetic conductor, an excitation winding, a direct current winding and a measuring winding configured to move relative to the magnetic conductor, the direct current winding is made in the form of a straight line section and the magnetic conductor consists of rectangular parts , along the perimeter of each of which longitudinal grooves are made, with parts of the magnetowire placed in such a way that two of them are parallel / in both: the corons from the DC winding, the third perpendicularly adjoins the first two, forming the P-shaped form of the magnetic circuit, the excitation winding is made of three sections connected in series and according to, each of which is located in the slots of the magnetic core parts, oh & from parallel parts of the magnetic circuit perpendicular to the excitation winding section. The drawing schematically shows the proposed device. A device for direct current ecology contains a magnetic circuit, an excitation winding, a direct current winding 1 and a measuring: circumference 2 / configured to move relative to the magnetic core, the direct current winding 1 B1 filled in the form of a straight line section, and the magnetic circuit consists of three parts 3, 4, and 5 rectangular Follol, along the perimeter of each of which in (longitudinal grooves are made. Moreover, parts of the magnetowire are placed in such a way that two of them (W and 4) are parallel, on both sides of the winding This current 1, and the third (5), perpendicularly adjoins the two first parts 3 and 4, forming a p-shaped magnetic circuit. The excitation winding is made of three sections B, 7 and 8, connected in series and according to, each of which are placed in the grooves of the parts of the magnetic circuit, covering them around the perimeter, and the meter on the winding 2 is located on one of the parallel parts of the magnetic circuit, for example part 3, perpendicular to the winding section 6 of the excitation unit. A device for measuring direct current operates as follows. The field winding is connected to a source of alternating voltage and creates a pulsating transverse magnetic field in the magnetic circuit, which causes a periodic change in its differential magnetic permeability. A constant current winding 1. connected to the measured direct current creates in steady-state a constant magnetic field whose noi-oK changes with a frequency equal to the frequency of change of the differential magnetic permeability. This flow is induced in the measuring winding 2t trans. formatted with a DC winding 1, a variable EMF with double frequency, the value of which is proportional to the intensity of the DC current. Moving the measuring winding 2 to the extreme left position with the XQ coordinate provides maximum sensitivity, and moving it to the extreme right position with the coordinate minimizing sensitivity when measuring DC currents. In the manufacture of the device, no special adaptation is required for the installation of a single-turn direct-current winding. The manufacture of the device is a simple process. During operation, installation, padding and dismantling of the device are performed without disassembling its electrical and magnetic circuits and without breaking the circuit of the measured direct current. DETAILED DESCRIPTION OF THE INVENTION A device for measuring direct current, comprising a magnetic core, an excitation winding, a direct current winding, and a measuring winding adapted to move relative to a magnetic core, characterized in that, in order to simplify the design and improve the conditions of operation, the DC winding made in the form of a rectilinear section, and the magnetic circuit consists of three parts of a rectangular shape, along the perimeter of each of which longitudinal grooves are made, and part of the magnetic circuit is Screws in such a way that two of them are parallel on both sides of the DC winding, and a third perpendicularly adjoins the first two, forming the U-shape of the magnetic conductor, the excitation winding being made of three sections connected in series and according to each; Aa of which are the pastt & meHa in the grooves of the parts of the magnetic circuit, covering them around the perimeter, and the measuring winding is located on one of the parallel parts of the magnetic core perpendicular to the section of the excitation winding. Sources of information taken into account in the examination 1. Llahtiev A.M. Non-contact transducers and meters of high DC currents. FAN Uzbek SSR. Tashkent, 1979, p.53, fig.206.