DE2125121C3 - Device for measuring the acid density of accumulators - Google Patents

Description

The invention relates to a device for measuring the acid density of accumulators, in particular Car batteries, which consists of a cylindrical chamber, at the upper end of which a suction bellows is arranged is and whose lower end has a spout for the entry of the electrolyte, and in which one in the Electrolyte immersing float is provided, which with a lever in one with the cylindrical chamber connected side chamber is mounted, the lever one in the side chamber operated by a vertical pointer oscillating on a scale and the pointer system by a Magnet is held in zero position.

In fact, there are a large number of densitometers on the market today which are used for this purpose be able to measure the concentration of an electrolyte in car batteries, because it is extraordinary there is a great increase in the use of accumulators in the automotive industry.

The devices known today and available on the market for measuring the acid density are based on the principle of Archimedes and consist essentially of a body with a suitable Weight and volume, which when completely immersed in a liquid, which in the present If the electrolyte itself is losing so much weight, what the weight of the liquid it displaces. Since in the present case the weight and If the volume are constant, the weight loss is only and solely dependent on the density of the electrolyte addicted.

Based on this principle, the present Device constructed in such a way that the aforementioned is immersed in a container filled with the electrolyte Float is attached to one end of a horizontally lying lever, the lever itself is connected to a horizontal axis that these three parts form a single solid body on which Axle end a very sensitive bearing or better

ίο a journal bearing is arranged. The camp will then be like this mounted horizontally with the float inside of the container can swing in a vertical plane.

In response to this oscillation or twisting, it gives way to weight loss when immersed in caused by the electrolyte becomes elastic System or an adjustable counterweight, such as B. a metal spring or a spring from a other elastic material or a magnetic systtm, stretched accordingly, the above takes called floating bodies according to the density of the electrolyte to be measured at different altitudes. If a fine needle as long as possible is then attached to the axle, you get a practical one Measuring system.

However, these known types of devices for measuring the acid density have certain Disadvantages that lead to incorrect readings. This is mainly due to the fact that this species Device has two chambers, which are combined into a unit. One of these chambers has the shape of a tube in which the movable body or floating body is mounted. This tubular part has a rubber bellows at its upper end and a rubber bellows at its lower end Grommet as a suction pipe. The axis of the pointer and the magnetic reaction system are then built into the other chamber.

The two chambers described together form the device and were with the previously known devices in complete communication with each other, so that when measuring in both chambers set the same level of electrolyte.

In practice it has now been demonstrated that at different levels of the electrolyte in the Side chamber, in which the measuring pointer is arranged, caused a considerable deviation. This will be done before mainly attributed to the fact that the pointer itself received a buoyancy in the electrolyte, which depending on the Density of the electrolyte was different, which one

w but on the other hand brought the pointer out of its correct position. It was found that called <"considerable inaccuracies in the reading revealed.

On the other hand, there is a minimum volume of the electrolyte when performing the measurement did not allow a maximum volume to be set because it is impossible to suck in a certain amount of electrolyte, which then results in a constant level, the task was to find a system that would do this

Mi solves problem in a satisfactory way.

The solution to the problem is that the two chambers are separated by a partition wall the lower end of which has a connection opening for the passage of the electrolyte and the floating body

·> ■> is provided by supporting lever, and that between the connection opening and the upper end of the side chamber in the partition wall one the level of the Electrolyte regulating opening in the side chamber

attached, and the spring system for the pointer consists of a bar magnet, which lies within a ring-shaped diametrically polarized magnet.

This is useful because of the regulating opening The level of the electrolyte in the side chamber can be adjusted about halfway up the pointer.

With the device according to the invention, the known difficulties are simple and effective Way has been avoided. In particular, because in the side chamber, soft the measuring chamber u> is, the level of the electrolyte always adjusts to the same level, regardless of how high the level in the cylindrical chamber, it is possible to immerse the pointer only so far in the electrolyte that influencing the pointer by the electrolyte is absolutely avoided. The pointer then swings always in the air bell, which is automatically at the same height above the level in the side chamber forms

In addition, the improvements to the magnetic spring system have also led to an improvement in the measurement result. In the previously known devices, a soft iron rod was held in a diametrically magnetized or polarized ring magnet. But this could not very; be achieved for the pointer ϊ large restoring forces.

In the present case, the soft iron part has been replaced by a bar magnet, which is a Ring magnet has opposite pole position. This results in significantly greater restoring forces .in and in addition there is the possibility of using the device with industrially manufactured magnets to produce much smaller dimensions.

In the drawings, an example embodiment of the invention is shown, namely shows F i g. 1 a section through the device,

F i g. Figure 2 is a partial representation of the magnetic recovery.

According to FIG. 1, the device for measuring the acid density consists of two chambers 1 and 2. The material is -10 Glass or a clear plastic material has been used. The chamber 1 is cylindrical and in her is the movable floating body 3 for immersion in the electrolyte. At the top of this cylindrical chamber 1 is a rubber bellows 4 and am -t> arranged at the lower end of a spout 5 for sucking in the Elektro'ytes. In the side chamber 2 is the pointer 11 with the scale for the density of the electrolyte.

The chambers 1 and 2 are separated by a partition 7> o separated from each other. At the lower end of this partition 7 is a connection opening for the Passage of the electrolyte and the lever 8 carrying the floating body 3 between this connection opening and the upper end of the side chamber τ> 2 is a regulating opening 11 in the partition wall 7 arranged

According to Fig.2, the elastic return system of the pointer consists of a bar magnet 13, which is firmly connected to the lever 8 to which the floating body 3 is attached. The bar magnet 13 is located while inside a ring magnet 14, which is diametrically polarized, as indicated by the letters Wound. ^ Is shown The ring magnet 14 is fixed arranged on the housing

When using this device, electrolyte is sucked into the interior of the device with the rubber bellows 4 through the spout 5 However, if the level of the electrolyte in the side chamber has reached level 10, which is slightly above the regulating opening 11, the level 10 in the side chamber 2 is not changed by further suctioning in of electrolyte, however, the level V2 increases depending on the amount sucked in Amount in the cylindrical chamber 1. The level 10 remains constant about half the height of the pointer 6 regardless of the level 12 in the cylindrical chamber unaffected, which gives an exact indication of the result on the scale

The float 3, which is now completely immersed in the electrolyte, now arises depending on the Density of the electrolyte higher or lower, e.g. B. as shown in dashed lines in the drawing is shown By adjusting the height of the float 3, the lever 8 will also be around The bearing is pivoted and takes the bar magnet 13 with it, for example in the position according to FIG. In this position is due to the different Poiarität exerted a restoring force on the lever 8 by the magnetic restoring force is the lever 8 with the floating body 3 in the absence of electrolyte liquid turned to the zero position. Since the pointer 6 is connected to the lever 8 in its axis, is then the pointer 6 also in the zero position. On the other hand, the pointer 6 when the device is filled Electrolyte density displayed if the scale is properly calibrated.

The regulating opening 11 is expediently so in the partition 7 arranged that the level 10 of the electrolyte with at least above the axis of the lever 8 is, but on the other hand not higher than half the length of the pointer 6 increases », thus influencing the Shows 6 is avoided. The magnets can include Metal magnets or ceramic magnets are used, which are now industrially manufactured.

1 sheet of drawings

Claims (2)

Claims; 1. Device for measuring the acid density of accumulators, especially car batteries, which consists of a cylindrical chamber, at the upper end of which a suction bellows is arranged and whose lower end has a spout for the entry of the electrolyte, and in which one in the Electrolyte immersing float is provided, which with a lever in one with the cylindrical chamber connected side chamber is mounted, wherein the lever is one in the Side chamber operated by a vertical pointer swinging on a scale and that The pointer system is held in the zero position by a magnet, characterized in that that the two chambers (1, 2) are separated by a partition (7) at their lower end a connection opening for the passage of the electrolyte and the float (3) supporting lever (S) is provided, and that between the connection opening and the upper End of the side chamber (2) in the partition (7) a level (10) of the electrolyte in the Side chamber (2) regulating opening (11) is attached, and the spring system from one Rod magnet (13) consists of a ring-shaped diametrically polarized magnet (14) lies 2. Device according to claim 1, characterized in that through the regulating opening (11) the level (10) of the electrolyte in the side chamber (2) about half the hone of the pointer (6) is adjustable.