RU2028688C1 - Magnetic coupling device - Google Patents

Abstract

FIELD: radio engineering. SUBSTANCE: magnetron coupling device has section of coaxial line with coaxial connector 4 for connection to transmitting path. For connection to flange 5 of magnetron external conductor 1 is linked to flange 5 and internal conductor 2 is made in the form of socket 6 to accommodate pin of magnetron. Conductive ring 7 is mounted for movement and registration on internal conductor to measure total reactance of coupling device with reference to magnetron. EFFECT: provision for high quality of matching, facilitated manufacture, reduced manufacturing cost. 1 dwg

Description

 The invention relates to microwave technology, in particular, to designs of communication devices for a centimeter-wave magnetron with a coaxial waveguide terminal. The device can be used, for example, in microwave heating devices.

 The known construction of a communication device for a centimeter-long magnetron with a coaxial waveguide terminal contains a waveguide section in the form of a waveguide, a flange for connecting to a magnetron flange with an opening for a magnetron pin, a connector for connecting to a transmitting path, also in the form of a flange.

 A disadvantage of the known design is the high technological complexity and manufacturing cost. Since the deviations of the parameters during the manufacture of the waveguide and the assembly of the structure lead to a significant decrease in the broadband path, to the occurrence of reflection losses and, as a consequence, to rapid magnetron wear. The known device does not provide a high quality of coordination, including because the design does not provide for adjustment to the parameters of a particular magnetron, as a rule having a certain spread.

 The invention is aimed at solving the problem of creating a communication device for a magnetron, technologically simple and cheap to manufacture, providing high quality matching.

 The quality of coordination depends on the accuracy of the manufacturing of the communication device and the possibility of adjusting the device to a specific magnetron, while the minimum value of the indicator "standing wave coefficient (SWR)" is provided in the path.

 The solution of this problem is achieved by the fact that in the communication device for a magnetron containing a segment of the waveguide path, a flange with a hole for the magnetron pin, a connector for connecting to the transmitting path, according to the invention, the waveguide path is made in the form of a segment of a coaxial line with a coaxial connector at the output end for connection to the transmission path and the dielectric support washer between the inner and outer conductors, while at the input end the outer conductor is connected to the flange, and the inner conductor The IR is made in the form of a socket for a magnetron pin, and a conductive ring galvanically connected with it is placed on the inner conductor with the possibility of moving along the conductor and fixing the position.

 The design of the communication device according to the invention is technological, the manufacturing cost of the device is low, since the wave guide path is made in the form of a segment of a coaxial line. The presence of a conductive ring galvanically connected to it on the inner conductor with the possibility of moving along the conductor and further fixing the position allows additional coordination during the assembly with the magnetron, taking into account the scatter of the parameters of a particular magnetron. Thus, the proposed design of the communication device for the magnetron provides a good quality of coordination, which is reflected in the minimum value of the standing wave coefficient (SWR) in the path. In addition, when using the communication device for the magnetron of the invention in microwave heating devices with strip emitters, the design of the transmission path is simplified (since there is no need for an additional coaxial-waveguide matching device) and, accordingly, losses are reduced and matching is improved.

 The drawing shows the design of a communication device for a magnetron.

 A communication device for a magnetron contains a segment of a coaxial line with external 1 and internal 2 conductors, between which a supporting dielectric washer 3 is placed, which performs a centering function. The output end of the device for connecting to the transmitting path is made in the form of a coaxial connector 4, of known design. To connect to a magnetron at the input end, the device contains a flange 5 with an opening for a magnetron pin connected to an external conductor 1, and a socket 6 for a magnetron pin, made on the end of the inner conductor 2 in the form of a thin-walled cylinder with longitudinal sections. A conductive ring 7 is placed on the inner conductor 2, having the ability to move along the conductor 2 and galvanic connection with the conductor 2 at the contact points. In the ring 7, a device of known construction is made for fixing the selected position of the ring 7, for example, in the form of a screw connection.

 The proposed communication device is made as follows. At one end of a segment of a coaxial line of calculated length with a supporting dielectric washer 3, a coaxial connector 4 of known design is formed. At the other end, the inner conductor 2 is made in the form of a socket 6 for the magnetron pin, for example, in the form of a thin-walled cylinder with longitudinal cuts, and the outer conductor 1 is connected to the flange 5. A conductive ring 7 is put on the inner conductor 2 with a possibility of movement along and fixed in design position using the locking device 8.

 When using a communication device, connector 4 is connected to the measuring equipment, the magnetron pin is inserted into socket 6, and the flange 5 is connected to the magnetron flange. After measuring the value of the SWR of the circuit and finding it unsatisfactory, disconnect the magnetron and adjust the communication device. Why move the conductive ring 7 along the conductor 2 in the desired direction, thereby changing the total reactivity of the communication device with respect to the magnetron. In the selected position, the conductive ring 7 is fixed by the device 8.

 Thus, having determined the optimal position of ring 7, it is possible to obtain high quality matching with a particular magnetron. Experimental data showed that the prototype of the communication device of the described design provided an SWR value in the circuit of less than 1.5.

Claims (1)

 A MAGNETRON COMMUNICATION DEVICE comprising a length of a waveguide path, a flange with a hole for a magnetron pin, a connector for connecting to a transmission path, characterized in that the waveguide path is made in the form of a segment of a coaxial line with a coaxial connector at the output end for connection to a transmission path and a dielectric support a washer between the inner and outer conductors, while at the output end the outer conductor is connected to the flange, and the inner conductor is made in the form of a socket under the magnetron pin and the inner conductor is galvanically taken by the associated conductive ring is movable along the guide and the locking position.