DE1573116A1 - Device for measuring the liquid level in a container - Google Patents

Description

Device for leasing the liquid level in a container, The invention relates to a device for measuring the liquid level in one Container with a arranged in the liquid, connected to a pressure meter and air hammer associated with the liquid, inobeo special for the Content measurement of motor vehicle tanks, with the liquid for consumption sucked out of the container by a pump and aum build-up of the standing height of the Liquid in the container corresponding pressure in the air chamber part of this aspirated liquid with entrainment of air in the container liquid Air chamber via a jet nozzle according to patent (patent application V 29 837 DCb / 42e) is fed back.

Subject matter of the patent ....... (patent application V 29 837 IXb / 42e) iat the use of a jet nozzle to build up the measuring pressure in the air chamber and the pressure measuring device connected to it. The jet nozzle is in the with such Built-in measuring devices known return line of the liquid from the suction pump and flows into the air chamber, your is also the one with outside air or @em room dor fluid-connected air line supplied. From the flow of liquid Through the jet nozzle, fragrance is carried away from the air duct and this mixture flows into the air chamber. There aioh collects the air that is carried along and displaces it Liquid standing in the air chamber until the liquid sinks entotandene hydrostatic pressure d.r corresponds to the level of the liquid in the container. The air that is still supplied trickles through the liquid from the air chamber back up into the room via the re-container liquid. Another item of said patent is the formation of the air chamber as in the bottom of the container insertable pipe with a closure piece BUr dio container opening and the installation the jet nozzle with its supply lines in the closure piece, so that the device one closed Building unit forms on which after installation the supply and discharge lines are connected in the bottom of the tank, per purpose such a design of the measuring device was the use for container shapes, in which the upper part of the lower part of the container is so laterally offset and incorporation of known pneumatic standing height gauges which bit into must be close to the bottom of the container, into which the top of the container is not possible.

The present invention is based on the object of the main patent so that they can be further developed and designed so that the pnuematic Measuring device at any point in a side or top wall part of the container possible, which is lower than the highest possible liquid level in the container and from which the device can ride up to the vicinity of the container bottom. There may be container shapes that do not have a suitable or easily accessible location in the bottom of the tank, but conveniently located installation locations on a side or have the ceiling wall part. Duroh an installation of the measuring device on such The connecting lines can usually be laid more cheaply than in the first place when the device is installed in the container diodes, the invention solves that Goltollte task in that the air chamber of the space between two arranged and rciohenden up to the vicinity of the container bottom, any point in a Jeiten- or ceiling wall part of the container insertable tubes with a the closure piece containing the jet nozzle is formed for the container opening, The jet nozzle opens into the inner tube and the connection line for the pressure gauge is guided through the closure piece, Un a penetration of the liquid into the Air-filled connection line for the pressure gauge when it is particularly cold after filling the empty container and before using the suction pump for the first time To prevent this, the volume of the air chamber should be greater than that of the connecting line to the pressure gauge including its pressure chamber. Stand by one particularly extreme shape of the container but only one wall at a low height above the bottom of the container fV for the installation of the device available and this would result in an in advance to the volume of the connection line and the pressure gauge too Small volume of the air chamber, so that in the event of particularly unfavorable temperature fluctuations, liquid enters the connecting line could penetrate, then thieves might not flow out again and thereby falsify the measurement, in order to use the device even for such an extreme installation To make suitable, the invention further provides for the connecting line for the Pressure gauge from its mouth in the air chamber over a certain minimum length than Executing communicating double pipe and thereby an outflow of into the connecting line penetrated liquid due to the suction lifting effect of the communicating Deppel pipe to ensure. The connection cable must be in the air chamber for as long as it is ignited be set up as a double line and the communication point at least 80 high ttbcr the mouth of the line, like liquid in the most unfavorable circumstances can be wrung into the line.

A further inaccuracy of the display of the pressure gauge km occurs, if in the air space above the tank liquid and in the air space around the pressure measuring element in the housing of the pressure gauge. a pressure difference occurs. Such a pressure subdivision can e.g. in motor vehicles at high speeds by the suction of the Wind or through an air conditioner. To turn off such Display error, which may occur with the low measuring pressures of the device The invention further suggests that with the airspace the air line connected to the container liquid with the air space around the Pressure measuring element ta Connect the housing of the pressure gauge to one another by means of a line xu and thereby to ensure a pressure equalization and the avoidance of a false indication.

The drawing shows an exemplary embodiment and two other installation examples of the invention shown. It shows in Fig. 1 a schematic representation of the Measuring device for installation in a ceiling wall part, in Fig.2 a sketch for the installation in a sloping wall part and in Fig. 3 the installation in little effort the tank bottom with a connecting double line tAr the connection of the Pressure gauge, in the case of an irregularly shaped container 1, the upper file is with the filler neck la so offset against the lower-lying container part and Also so narrowly shaped that a measuring device was built into the container top Above the highest possible liquid level is not possible. In a deeper one Part of the container ceiling there is provided an opening into which an open at the bottom Tube 2 is inserted into the container 1, which extends almost to the bottom of the holder. On a closure piece 3 for the container opening are an ear 2 and within this another, only slightly shorter tube 4 is tightly fastened. The space between the tubes 2 and 4 form the unton from the liquid shut off air chamber the measuring device. By screwing a fastening flange 3a of the Vershclufstückes 3 or by other suitable fastening means, efnor Seal 5, the device is firmly and tightly connected to the container wall 1, in the closure piece 3 are the double jet nozzle 6, 7 and the feed channels and the connection connections for the liquid return line 8 and the air line 9 built-in.

The connecting line 10 between the air chamber and the flees shown Pressure gauge opens between the tubes 2 and 4 also in the closure piece 3. The Liquid line 8. is stit the outlet of the suction pump, not shown connected and opens into the DUe 6, while the air line 9 with the Rptlüftungsrohr 11 is connected by the filler neck la and into the Intermediate ram 12 opens between the nozzles 6 and 7. The volume of the air chamber sell to be greater than the volume of the connecting line 10 and the pressure space in the pressure gauge, un a If you force the liquid into the line 10 with a maximum of occurring cooling To close seepage. The jet nozzle 6, 7 opens into the pipe 4.

When in the lecren container 1 through the filler neck 1a liquid is filled, it flows through the gap between the pipe ends and the bottom of the container in the pipe 4 and in the L @ ftk @ mmer between the pipes 2 and 4 and rises over the pipe 4 out through the nozzles 6 and 7 in the air line 9 as high as iD Container 1, The liquid rises in the air chamber between tubes 2 and 4 on the other hand only se long until the pressure in the air chamber and in the line 10 ooviie The pressure meter is equal to the hydraulic pressure through the liquid in the container. The pressure gauge initially shows an excess pressure that corresponds to the difference in level between corresponds to the liquid level in container 1 and that in or air chamber.

As soon as the suction pump, not shown, is put into operation, A small part of the amount of liquid pumped by the Abeau pump overflows the return line 8 and through the nozzles 6 and 7 into the innore pipe 4. wherein im annular gap 12 between the nozzles 6 and 7 creates a negative pressure, through which first the liquid standing in the air line 9 and then Air can be entrained into the tube 4. While the liquid is flowing through the pipe 4 and through the gap between the lower end of the tube 2 and the container bottom flows into the container 1, the sucked air collects in the air chamber between pipes 2 and 4 and increases the overpressure in this and in the with their connected rooms, with the liquid level in the air a @ mer up to The end of the pipe 2 drops. @ More air delivered by the jet increases the @ overpressure not, because sio as well as the returning liquid through the gap between the tube 2 and the container bottom iT 'the container flows out and in Pomn pearls upwards from vaccine bladders. The one in the air chamber between the Pipes 2 and 4, in the connecting line 10 under the pressure chamber of the pressure gauge built-up overpressure is equal to the hydrostatic pressure of the liquid, which proportional to the height II of the liquid level above the end of the pipe 2. The pressure displayed by the pressure gauge is a measure of the level in tank 1 and can be calibrated in units of volume according to the shape of the container.

If the suction pump is switched off, no liquid will flow either more through the jet nozzle 6,7, over the pipe 4, the jet nozzle 7 and the space 12, on the other hand, liquid flows from the container 1 into the air line 9 up to the level of the liquid level in the container 1 back again.

The pressure gauge display drops only slightly because of the @ overpressure In the air chamber only your small length differences of the ears 2 and 4 as well as the very little drop in the level of the container liquid sinks. When the suction pump is started up again, it builds up in the air chamber by sucking off the liquid which has penetrated into the air line 9 of the hydrostatic Pressure of the container liquid corresponding overpressure very quickly again, whereby the liquid leveling gel, in the air chamber again sinks to around the end of the tube 2 U a measurement error due to the occurrence of pressure differences in the air space V. above the Container liquid and the air space around the measuring element (e.g. a pressure gauge box) To avoid the pressure gauge, the air line 9 can be through a compensation line 13 be connected to the air space in the housing of the pressure gauge, not shown.

The measuring device can also if it is the container shape and the installation of the container, e.g. in a motor vehicle, at an inclined location and installed in an inclined position in the container, as shown in Fig.2 of the drawing '. The only prerequisite for such installation is that the device with its open Oil-drawing ends 2 and 4 extend to the vicinity of the deepest part of the bottom of the container can. The function of the measuring device is not impaired by the inclined installation.

This results from a particularly extreme container shape or from the installation conditions deti container or an installation of the device for other reasons of expediency at a point on the wall at a low height above the bottom of the container and therefore only one relatively small air chamber of the measuring device, so liquid can penetrate in the connecting line 10 to the pressure gauge may not be avoided will.

To prevent the liquid from flowing out of the line tO during commissioning @ taking the suction pump Oicher, this line -as in Fig.3 schematically shown - from their opening into the air chamber over a certain length of the mouth as communic @ erendes Deppelrohr @@ and only from the communication point as a simple one Connection line 10 executed. The Deppelleitung riuB must be at least as long as How liquid can get into them under the most unfavorable circumstances and which Communication point higher than its termination in the air chamber. The at start-up the suction pump can collect air at the mouth of the Deppel line 10 ' thereby penetrating into one of the branch lines while leaving the other expansion branch the corresponding liquid eye ao runs out until a line branch is free from liquid. Then the other branch of the line empties immediately. Even if, theoretically, the columns of liquid standing in the lines are completely the same, there is already an outflow of the liquid due to vibrations guaranteed by an arrangement of the mouth points of the two line branches of the communicating double turn at slightly different heights, the in Columns of liquid penetrating the double line are unequal in size from the outset be made.

While the @ eating device according to the main patent only for installation 4iW has been present in the container base, specifically at its deepest point Design of the measuring device the advantage to everyone. any, over the container bottom built-in wall part of the container and thus also for the most bizarre container shapes to be used. It also has the advantage that the display of the pressure gauge drops no less after the suction pump has been switched off, because the tn the air line 9 penetrating Liquid in lesser Dimensions are included in the display.

There will be a larger drop in the pressure gauge display when it is switched off the suction pump is taken in, then when using a Kommiinizicrenden Double line 10 'for connecting the pressure gauge, the inner tube 4 is omitted and the air chamber is made very small, i.e. the device is made into a side wall part of the tank can be installed just above the tank bottom.

Claims (3)

Claims 1. / Device for measuring the liquid level in a container with a pressure gauge arranged in the liquid connected air chambers in communication with the liquid, in particular for measuring the contents of motor vehicle tanks, the liquid from the container sucked through a tumbler and to build up the level of the liquid in the container corresponding pressure in the air chamber a part of this extracted liquid with the entrainment of air from the container liquid in the air chamber via a spray nozzle according to patent ......... (patent application V 29 837 IXb / 42e) is supplied again, thereby characterized in that the air chamber of the intermediate frame of two, nested and up to the vicinity of the bottom of the container in a boliobiger point Side or top wall part of the container (1) insertable ears (2,4) rode a the jet nozzle (6,7) containing the closure piece (3) for the container opening is, whereby the jet nozzle opens into the inner tube (4) and the connecting line (10) for the pressure gauge is passed through the closure piece. 2. / Device according to claim 1, characterized in that the connecting line (10) for the pressure gauge from its end in the air chamber over no particular one Minimum length is designed as a kemmunizierendes double tube (10 '). 3. / Device according to patent ............. (patent application V 29 837 IXb / 42e) or one of the preceding claims 1 or 2, characterized in that that the air line (9) and the air space around the pressure measuring element in the housing of the pressure gauge connected to each other by a pressure equalization line (13).