DE1765340B2 - Load-dependent fluid resistance - Google Patents

Description

The present invention relates to a load dependent Fluid resistance with a conductive fluid containing container made of insulating material, in which a cuboid working volume, which has openings with one above it Storage volume is connected, partly by insulating partitions, partly by at least one in the immediate vicinity Arranged near the bottom of the container Pair of two-dimensional. strip-shaped. with their Longitudinal axes arranged horizontally and assigned with their narrow sides to the bottom of the container Electrodes is limited.

Such known fluid resistances are usually used to start asynchronous motors used (see FR-PS 1492 814). The fluid resistance is designed so that in the rekim small-dimensioned work area of the with Elektrolv th filled container when switched on due to the resulting current surge an evaporation of the Electrolytes takes place, through which the electrolyte is largely driven out of the work area will. The relatively low electrical resistance initially present between the electrodes thus increases leaps and bounds very strongly. Due to the increased electrical resistance, the current flow is reduced of the secondary circuit, so that a new condensation of the evaporated electrolyte takes place. As a result, liquid electrolyte can again enter the work area penetrate the fluid resistance, so that as desired during the start-up process that takes place the electrical resistance decreases. At the end of the start-up process, the Stroni flow is in The secondary circuit of the asynchronous motor is reduced to such an extent that the evaporated electrolyte completely condenses back is, consequently the working area of the liquid residue is again entirely with electrolyte filled "- · nd the fluid resistance is initial ^ io.Ygen returned to initial value Has. The Fh ... coit resistor can then be short-circuited v \ ■ - ■ :: ■ ;, »o that the asynchronous motor without the same wenmotivated.

Such working on the principle of evaporation and recondensation of the electrolyte Liquid resistances have the advantage that they can be made relatively small. As disadvantageous it turns out, however, that these fluctuations lead to fluctuations which cannot be controlled or which are difficult to control tend and that the load- and time-dependent characteristic of such fluid resistances on the one hand bad is reproducible, on the other hand is not optimally adjustable.

With regard to this prior art, it is accordingly The object of the present invention is to provide a load-dependent fluid resistance of the initially to be designed in such a way that the resulting reduction in drag can be controlled to a large extent. and is reproducible, with the occurrence of gas formation caused by electrolysis between

schtn the electrodes is largely eliminated

According to the invention, this is achieved in that the working volumes lying between the electrodes is open to the top over its entire surface. while the volume of work goes down by one insulating, parallel to the bottom of the container bottom plate is limited, which together with the narrow sides of the strip-shaped electrodes of Liquid-filled, slit-shaped spaces are formed, and that the upper bounding surface of the working ic volume compared to the liquid level the 4 to 10 times the distance between the vertical dimensions of the electrodes.

Due to such an embodiment of the invention ·· " Load-dependent fluid resistance results in a relatively rapid, however Exactly reproducible heating of the electrolyte, which only slowly passes through the slit-shaped slots can flow into the work area from below. Such a heating of the electrode has, as desired, a reduction in the resistance value result, so that when using such a fluid resistance in conjunction with a Asynchronous motor the start-up process can be carried out in a satisfactory manner. Since evaporation and condensation processes play no or only a minor role, instabilities occur not on. while at the same time the reproducibility of the characteristic of the liquid wedge resistance is guaranteed. 3c

Because of the relatively high immersion rate of the electrodes there is only very little bubble formation within the electrolyte; Any bubbles appearing anyway are carried upwards relatively quickly because of the circulation of the electrolyte, so that they do not interfere of the company. Because the vertical dimensions of the electrodes were chosen to be relatively small are, there is also a very uniform heating of the electrolyte within the working area, so that Temperature congestion cannot occur.

Compared to working on the principle of evaporation and recondensation of the electrolyte Fluid resistance is the fluid resistance that works on the principle of heating the electrolyte according to the invention admittedly relatively sluggish, which, however, as already crwühni ils proves advantageous in terms of reproducibility and stability.

With regard to a robust, simple construction of the liquid resistance according to the invention proves it is useful if the electrodes are made from plates cut in the shape of an angled »T« exist, the vertical legs of which are provided with an insulating jacket.

To make an adjustment according to the circumstances to be able to undertake the initial value of the load-dependent fluid resistance, proves it is advantageous if the insulating partitions provided at the ends of the electrodes with Openings are provided through which the electrodes can be displaced, and that over these partition walls protruding, outside the work volimicns located sections of the electrodes are provided with an insulating layer.

It is also useful in this context. if the two partitions with additional slot-shaped Openings are provided through which the at least the same longitudinal dimensions as the electrodes having bottom plate is schiebbat.

With a view to good fixation of the set At the initial value, it also proves to be expedient to put in the dividing walls with respect to the electrodes are gradually fixed by locking devices. Such locking devices are expediently designed such that the partitions are given away with recesses, through the vertical Passages for locking the base plate serving rods are created.

With a view to a robust mounting of the electrodes it appears advantageous if the electrodes provided in the partition walls are carried out and openings serving for the base plate are provided with thickenings.

About changes in the gap width? largely to be able to exclude, it proves to be useful if the base plate has at least one in the middle Area has provided elevation, which the distance between the lower edge of the electrodes and the base plate.

1 in such a liquid resistance is expediently designed such that the electrodes have a nickel surface have and that the electrolyte is an aqueous solution of soda. Knrborat. Borate or alkaline Bcnzoate is used.

In the drawing is an embodiment of the invention shown. It shows.

Fig. 1 is a perspective view of an inventive Fluid contradiction.

F i g. 2 a vertical sectional view in a / ur Plane of electrodes and vertical plane

E i g 3 is a plan view of the in F i g. 2 shown Arrangement.

The one in I 1 g. 1 has a quaderformigcn container 1 and a lid

2 on. The ends 3; / of two electrodes Fi , which are provided with external threads and which consist of tarpaulins cut in the shape of an inverted T, are guided through this cover 2. The vertical legs 30 of these plates are covered with an insulating maniel 22, so that these vertical legs 36, which are immersed in liquid up to the level N , have no influence on the electrical circuit. The active sections of the electrodes E consist only of the non-isolated middle sections 3c of the horizontal legs 3 of the electrodes. The length of the vertical legs 36 of the electrodes /: 'is four to ten times the height of the horizontal legs 3, so that they are immersed deeply in the liquid up to the vicinity of the bottom of the container 1.

On the end sections 3c / of the horizontal legs two partitions 4 are pushed. In these partitions 4 are below vertical openings 5, which serve to lead through the two electrodes, horizontal slots 6 are provided, in which a base plate 7 is inserted. The uninsulated initiate portions 3c of the electrodes E. die two partition walls 4 and the base plate 7 limit a quadcrförniiges Arbcitsvolutnen, which after is completely open at the top and which with the bottom of the container I over between the lower edge of the Electrodes found on the top of the base plate 7 are present narrow spaces 8 is in connection.

Since the end sections 3d of the horizontal legs

3 of the electrodes E as well as the vertical vision

kel 3b are surrounded by an insulating jacket 22, the electric current flows exclusively between the middle sections 3c through the liquid which is delimited from the working area. Since this working area is completely open at the top, gases and vapors can escape upwards without disturbing the current path between the electrodes E. The liquid wedge located in the work area is replaced by a relatively cold liquid in an amount limited by the size of the spaces 8. In this way, a temperature rise is obtained in the working area, the course of which can be adjusted to the respective requirements.

In order to stiffen the base plate 7, a rib 7, 7 is provided in its mill, which by an extension 6 "·; of the slot 6 is running. The openings 5 or slots 6, 6, which serve to lead the base plate 7 and the electrodes through the partition walls 4, are provided with thickenings 10 for reinforcement, which are provided on one side of the partition walls 4. These thickenings 10 have lateral extensions 10, 7 which extend as far as the vertical edges of the partition walls 4. In the center of the base plate 7, two elevations 9 are also provided symmetrically with respect to the rib Ta , which protrusions engage in the recesses 16 provided in the central section 3c of the electrodes E. These elevations 9 determine the distance between the lower edge of the electrodes E and the base plate 7 —that is, the width of the spaces 8.

On the long edges of the base plate 7 are also Notches 12 are provided which are used to lock the partition walls 4. For this purpose are also 4 recesses 14 and 15 are provided in the two partition walls. The depth of these recesses is 14.15 greater than the thickness of the partition walls 4 at those points where no thickenings 10 or protruding salts 10.7 are provided. The lateral boundaries 14.7 and 146 of the recesses 14 correspond to the upper and lower boundaries of the extensions 10.7 while the upper edge of the recesses 15 the upper edge of the thickening 10 surrounding the slot 6 corresponds. In this way arise after Removal of the ram with which the recesses 14 and 15 are made in that side of the Partition walls 4. on which the thickenings 10, 10, 7 are provided, vertical passages

20. Rods 17 are inserted vertically into these two passages 20, one above the other, which are each brought into a notch 12 of the base plate 6 to engage. In this way, the partition walls 4 are locked with respect to the base plate 7, which in turn is fixed in relation to the electrodes E by the elevations 9. The rods 17 can consist of relatively flexible and elastic plastic, so that they can in turn be blocked by projections 19 which are integrally formed on the partition walls 4 above the feedthroughs 20.

By appropriate choice of the electrolyte and by appropriate adjustment of the partitions 4 opposite the notches 12 on the longitudinal edges of the base plate 7, the values of the liquid resistance for the respective purpose and in particular for the various engine outputs be precisely graded.

For this purpose 2 sheets of drawings

Claims (9)

Patent claims: 1. Load-dependent fluid resistance with a conductive fluid containing container made of insulating material, in which a cuboid working volume, which is connected via openings to a storage volume located above, partly by insulating partition walls, partly by at least one pair of flat hops arranged in the immediate vicinity of the bottom of the container , slit-shaped. with their longitudinal axes arranged horizontally and with their narrow sides associated with the bottom of the container electrodes is limited. characterized. that the working volume between the electrodes (3) is open at the top over its entire surface. while the work is limited towards the bottom by an insulating base plate (7) lying parallel to / around the bottom of the container. which, together with the tendons of the strip-shaped electrodes (3), forms slit-shaped spaces (8) filled with liquid, and that the upper boundary surface of the working volume compared to the liquid level (N) is four to ten times the distance of the vertical dimensions of the electrodes (3) . 2. Liquid resistance according to claim 1, characterized in that the electrodes (3) from in Shape of an inverted "T" cut plates exist, the vertical legs (36) with an insulating jacket (22) are provided. 3. Liquid resistance according to claim I or 2. characterized in that the insulating partition walls provided at the ends of the electrodes (3) (4) are provided with openings (5) through which the electrodes (3) are displaceable, and that the over these partition walls (4) protruding, Sections (3c /) of the electrodes (3) located outside the working volume with a Insulating layer are provided. 4. Liquid resistance according to claim 3, characterized in that the two partitions (4) are provided with additional slot-shaped openings (6) through which the at least the same I. longitudinal dimensions like the bottom plate (7) having the electrodes (3) can be pushed. 5. Liquid resistance according to claim i or 4, characterized in that the partition walls (4) with respect to the electrodes (3) by locking devices (12, 17) can be fixed in stages. 6. fluid resistance according to claim 5, characterized in that the partition walls (4) with Recesses (14, 15) are provided through which vertical passages (20) for locking the bottom plate (7) serving rods (17) are created. 7. Liquid wedge resistor according to any uer claims 3 to 6, characterized in that provided in the partition walls (4), the implementation the electrodes (3) and the base plate (7) serving openings (5, 6) provided with thickenings (10) are. 8. Liquid resistance according to one of the preceding claims, characterized in that the base plate (7) has at least one elevation (9) provided in the central area, which defines the distance between the lower edge of the electrodes (3) and the base plate (7). 9. Fluid resistance according to one of the preceding Claims, dadurcii characterized in that the electrodes (3) have a nickel surface and that the electrolyte is an aqueous solution of Soda, carborate. Borate or alkaline benzoate is used.