SU930127A1 - Oscilloscopic galvanometer - Google Patents

Description

(5) OSCILLOGRAPHIC GALVANOMETER

one

The invention relates to instrumentation and to be used, in particular, in light beam oscillography.

Oscilloscopic galvanometers (EGs) are selected, in which the damping of oscillations of the moving system is achieved due to a damping fluid poured either directly into the internal cavity of the EG body or into a reservoir intended for this purpose consisting of a tube surrounding the lower stretch, frame and part of the upper stretches, and parts covering the bottom of the tube. Holes are made in these parts, one of which is located along the exhaust gas axis, serves to secure the stretch, and the other, displaced along the axis, is intended to fill the damping liquid into the reservoir using a syringe. The filling hole is filled with an elastic sealant Llj. The disadvantages of this design are the low tightness of the lower part of the body or tank due to the fact that these parts are connected with glue to increase the transverse dimensions of the exhaust gas due to the presence of an additional filling hole that is offset from the axis of the galvanometer, difficulty pouring,. which is made by inserting a syringe needle into a small-diameter filling hole.

The closest technical solution to the invention is a galvanometer, in which to seal the lower part of the tank with a damping liquid, a cap or elastic rod is used, pressed by a screw, which is screwed into the threaded hole of the housing.

The disadvantage of this construction is low leaktightness, since the connecting i-joint between the conductive head and the damping tube remains uncovered elastic sleeve. Therefore, “the fluid through this DoEz has the ability to exit into the cavity of the cap or into the cavity of the housing bore. The resilient rod is pressed against the end face of the conductive head and thus blocks only the filling channel and the hole for the fastener. At small transverse dimensions of the damping tube, even a slight leakage of fluid can lead to unacceptable leaving the working range of the galvanometer. In addition, this design has disadvantages related to the casting process. So, the overlap of the pouring channel in the head, closing the lower end of the reservoir tube, occurs after pouring, so there is a gap in the time between pouring and sealing, during which liquid flows out, which leads to a change in the degree of calm and requires additional pouring. The purpose of the invention is to increase the dryness of the galvanometer. The goal is achieved by the fact that in an oscillographic galvanometer containing a liquid one: an oscillation damper, a movable system on extensions in the lower part of which a pressure gage assembly consisting of a screw and an elastic gasket is placed, an elastic gasket and a screw are fitted with axial holes in which the holder of the moving system connected to the lower stretch is arranged, made in the form of a hollow rod, the internal channel of which has an outlet into the damping cavity while the free end of said holder protrudes and the limit screw and sealing gasket vachena Pusa inner surface of the armature. The drawing shows galvanic section of its lower half. The oscillographic galvanometer includes a housing 1 with a lens 2, a basement system suspended on holders and consisting of a frame 3, an extension 4 and 5, a mirror 6, a cut (sound for damping liquid O, resting against the ledge of the body, an elastic gasket 9, intermediate rigid sleeve 10, threaded sleeve 11, screw 12, locking screw 13, electrical power supply. The lower holder of the movable system consists of a tube 15 and a finger 16 attached to it, which is connected to an extension 5. In the walls of the tube 15 one or more holes 17 are made by means of which the axial bore The tube 15 communicates with the internal cavity of the tank 7. This "target can also be achieved by means of a through axial hole in the finger 16 (not shown). The sleeve 10 can move freely in the hole in the housing, and the threaded sleeve 11 is rigidly fixed in the housing. The device works as follows: After the movable system is placed in the galvanometer housing in the required position, screw in the screw 12, which, moving the sleeve 10, compresses the elastic gasket 19 in the axial direction. Expanding in the radial direction, the gasket 9 tightly covers the tube 15 and presses against the inner surface of the housing 1, thus ensuring the tightness of the lower part of the housing. In this position, the screw 12 and the uni-lowering tube 15 with the open axial hole protrude beyond the screw 12 by the required amount, are secured with glue and screw 13. Then the damping fluid 8 is fed through the axial and transverse holes 17 of the tube 15 in an amount that provides the necessary calming vibrations, the moving system. Thereafter, the tube 15 is clamped and can be sealed for better tightness. Thus, in this construction, all joints between the parts of the damping assembly are cut off using an elastic gasket, which ensures reliable sealing of the lower part of the galvanometer. In addition, the casting process is improved and simplified, since sealing is performed prior to casting, there is no gap in time between the end of casting and sealing, therefore no liquid flows out during the casting process. The pouring process becomes convenient, so that the overhanging tube can be placed in any tank.

Claims (2)

Invention Formula An oscillographic galvanometer containing a liquid oscillation damper, a movable system on extensions, in the lower part of which a unit consisting of a screw and an elastic gasket, located in the lower part of which is sealed, has an elastic gasket and screw with axial holes in which the holder of the moving system is connected to the lower stretch 9301276 made in the form of a hollow rod, the internal channel of which has an outlet into the damping cavity, while the free end of said holder protrudes beyond the screw, and the sealing gasket is enclosed by the inner surface of the housing. Sources of information taken into account in the examination .one. USSR Author's Certificate No. 21935, cl. G 01 R 5/02, 1972. 2. US patent N, cl. 32it-97, 1959.