DE8717560U1 - Device for damping pointer movement in moving iron measuring instruments - Google Patents

Description

The invention relates to a device according to the preamble of claim 1 and generally to a device of a measuring instrument which dampens the rotary movement of a rotary element by means of silicone fluid, in particular in electrical moving iron measuring instruments.

The invention is based on the object of creating a device for liquid damping of the rotary element in electrical measuring instruments, in which the damping function, in contrast to known solutions, is separate and independent of the axis bearing of the rotary element.

There are several known solutions for damping the rotary movement of the rotary element in electrical measuring instruments. The most commonly used system, which is based on air damping using a damping chamber and a movable flap, is unfavorable due to the high manufacturing and adjustment costs. Magnetic damping is also hardly used anymore due to the manufacturing costs and the increased mass of the rotary element. The disadvantages of liquid damping using oil are that the oil becomes pitchy over time and that its viscosity and therefore its damping parameters (the pointer overshoot, settling time) are strongly dependent on the ambient temperature. These disadvantages have only apparently been eliminated by the use of silicone fluid.

In known designs of silicone fluid damping (e.g. CH 530 069), one of the two bearings of the rotating part of the measuring instrument is designed in the shape of a chamber, with the chamber containing the silicone fluid. The axis of the rotating element is inserted into the chamber so that the silicone fluid wets the axis and, due to its high degree of viscosity, slows down or dampens the rotary movement of the rotating element. The disadvantage of such a damping design is that the functions of the bearing and the damping are combined. The rotating element cannot therefore be mounted between spring bearings, since the spring-loaded bearing block must not be submerged in the damping silicone fluid. This fluid would prevent the consistent and uniform movement of both bearing blocks in the rhythm of the mechanical shocks or vibrations acting on the measuring instrument.

The object is achieved according to the invention essentially by the features of claim 1, while claims 2 to 7 contain two variant embodiments and details of the invention.

The device according to the invention for damping the pointer movement is formed from an axis of the rotating element of the measuring instrument and a stationary damping element, the axis being inserted with its pointed ends on both sides into the same bearings and being guided through a bore of the damping element, which is a component of the stationary frame of the measuring instrument, the axis and the bore wall of the damping element forming a gap which contains the viscous oil-silicone fluid for damping the axis movement and allows unhindered axial axis movement.

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The advantage of the invention is that the rotating element responds to shocks and vibrations. On both sides of the axis of the rotating element, identical bearings are used, which follow the rhythm of the shocks and vibrations in the same way. Another advantage of the invention is that the bearing design can be arbitrary. Both bearings can be spring-loaded bearings of the standard design. The rotating element can also be fastened between two spring-loaded metal bands (bearing on tensioned bands).

The advantages and details of the invention are apparent from exemplary examples and the associated drawings. They show

Fig. 1 a section through the measuring instrument with

a first embodiment of the damping element 2,

Fig. 2 the design of the attenuator 2 according to a variant/ and

Fig. 3 shows the design of the attenuator according to a further variant.

The basic design of the device according to the invention is shown in Fig. 1, which shows a moving iron measuring instrument in section. The axis 1, which carries all parts of the rotating element, is fastened in a stationary frame 8 by means of two spring-loaded bearings 7a, 7b, passed through a hole in the sleeve-shaped damping element 2 and inserted into the frame 8. The borehole wall of the damping element 2 forms together with the axis 1 a gap 3, which due to capillarity and

the surface tension stops the viscous silicone liquid that is fed in. The liquid slows down or dampens the rotation of axis 1 of the rotary element, which enables the scale to be read quickly enough.

The damping element 2 is completely separated from the bearing 7a. This ensures that the damping silicone fluid does not penetrate into the bearing 7a, which in this case is designed as a spring-loaded bearing. Therefore, when the instrument is subjected to mechanical loads, the rotary element with the axis 1 is moved freely in the axial direction . The functions of the fluid damping and the spring-loaded bearing are independent of each other.

The bore of the sleeve-shaped damping element 2 has funnels 4/5 on both sides. These funnels 4, 5 serve to hold the dosed

Damping silicone fluid before it fills the gap 3 and to absorb the liquid flowing out during the axial movement of the axis 1 of the rotary element in the rhythm of the mechanical shocks. Since the silicone fluid creeps on the surface, it could completely flow out of the gap 3 of the damping element 2. Therefore, the two peaks of the funnels 4, 5 in the damping element 2 are designed as sharp edges that prevent the liquid from flowing out. The flow of the silicone fluid can also be prevented by making the damping element 2 from a special material or by treating its surface with a varnish or liquid that prevents the silicone fluid from creeping.

A variant of the invention is shown in Fig. 2. This embodiment is characterized in that the damping member 2 is formed in one piece with a casing 9 which carries one of the deflection irons 10. The casing 9 is injection-molded from a thermoplastic material and is a component of the stationary frame 8.

Another variant of the damping element 2 is shown in Fig. 3. The damping element 2 is here manufactured in one piece with the frame 8, which eliminates the need to insert the damping element 2 into the frame 8.

In all three versions, the silicone fluid is fed into the funnel 5 of the damping element 2 through a side opening 6 in the frame 8; namely when the measuring instrument is already assembled and the axis 1 of the rotary element is inserted between the bearings 7a, 7b.

Claims (7)

ISKRA-SOZD elektrokovinske industrije n.sol.&ogr;. Ljubljana / Yugoslavia Device for damping pointer movement in moving iron measuring instruments&n Claims 1. Moving iron measuring instrument with a device for damping the pointer movement/ which has a stationary damping element (2) and a rotating axis (1) of a rotary element of the measuring instrument, characterized characterized in that the axle (1) is inserted with pointed ends on both sides into identically designed bearings (7a/ 7b) and is guided through a bore of the damping element (2) which is a component of the stationary frame (8) of the measuring instrument, the axle (1) and the bore wall of the damping element (2) forming a gap (3) which contains viscous silicone fluid for damping the rotation of the axle (1). 2. Moving iron measuring instrument according to claim 1, characterized in that the damping element (2) is inserted as an independent component in the frame (8) of the measuring instrument. 3. Moving iron measuring instrument according to claim 1, characterized in that the damping element (2) is formed in one piece with a casing (9) which carries one of the deflection irons (10) and is a component of the frame (8) of the measuring instrument. 4. Moving iron measuring instrument according to claim 1, characterized in that the damping element (2) is formed in one piece with the frame (8) of the measuring instrument. 5. Moving iron measuring instrument according to one of claims 1 to 4, characterized in that the sleeve-shaped damping element (2) is designed on both sides of its bore with funnels (4, 5) for receiving the metered damping fluid. 6. Moving iron measuring instrument according to claim 5, characterized in that for shocks and vibrations, i.e. in the case of axial displacements of the axis (1) of the rotary element and for the absorption of the damping fluid, the funnels (4, 5) of the damping element (2) are connected to the gap (3). 7. Moving iron measuring instrument according to claim 5, characterized in that a soap opening (6) is provided on one side of the damping element (2) in the frame (8) of the measuring instrument for supplying the damping fluid into the funnel (5).