DE4320383C2 - Device for measuring the actual gas prestressing pressure in a hydropneumatic accumulator - Google Patents

Description

The invention relates to a device for measuring the actual gas bias pressure of a gas that can be taken up in a hydropneumatic accumulator according to the features of the preamble of claim 1.

With hydropneumatic accumulators it is necessary to adjust the gas preload is necessary for the intended operation of such a memory, to be checked at certain intervals, as a rule with gas losses depending on the mode of operation of the memory can be expected. So far it has been necessary to use the corresponding hydraulic system to make it completely depressurized on the so-called oil side, at least that Part of the system that affected the hydraulic accumulator, then in this unpressurized State the gas prestressing pressure in the hydraulic accumulator Gases, usually in the form of nitrogen gas, and if necessary refill. This process is time consuming and the hydraulic accumulator is not operational during the period of the relevant review.

In EP 0 447 791 A2 is to maintain a predetermined pressure setpoint have already been proposed for hydropneumatic accumulators, at one the measurement process provided for this purpose temporarily exchanges the gas  Connection between the store and a fraction of the memory To manufacture chervolumens measuring chamber, which has a pressure measuring device. Is the actual pressure value determined in the measuring chamber at the known device is smaller or larger than the pressure setpoint filling or filling via a metering chamber identical to the measuring chamber Emptying carried out with a predeterminable dosing amount, the gas flow rende connection by means of the shut-off device cyclically released or is blocked. It has been shown that this known device is not works satisfactorily and leads in particular to measurement errors. Further is this solution in operation as well as in production and monitoring complex and therefore expensive.

Starting from this prior art, the object of the invention based on a device for measuring the actual gas bias pressure at to create a hydropneumatic accumulator so that at low cost and monitoring effort can be achieved accurate measurement results. These The object is achieved by a device having the features of claim 1.

The fact that according to the characterizing part of claim 1 Chamber having a fraction of the storage volume is part of an attachment direction is that the gas side can be connected to the memory, and that the Ab locking device is formed from a 3/2-way valve that a shut-off part with has three connections, the chamber with the reverse in the locked position Connect the exercise and in the open position the chamber on the gas side Connect the storage tank, the actual gas preload pressure can be constructively included simple means safely and accurately recorded with just a single measurement sen and therefore make a statement about the operating state of the memory. The measurement is accurate and can be done in any stationary operation Make the state of the memory and the training essentially in one piece The placement device can be placed on the memory to save space.  

In this case, the actual gas prestressing pressure is preferably determined according to the following For mel determined:

in which
V₀ = gas volume of the storage,
V _A = chamber volume,
px = gas pressure when connection is closed and
py = gas pressure when the connection to the chamber is open.

In a preferred embodiment of the device according to the invention the 3/2-way valve is formed from a solenoid valve or has a shut-off valve cock with chick, the connections provided the shut-off part of the Shut-off device forms.

In a further preferred embodiment of the invention Device is for the measurement process, the gas in the memory to a predetermined Can bring volume for which the pressure setpoint is known. This allows further simplify the measuring method to be carried out with the device. If the hydropneumatic accumulator has a storage bladder, at relaxed storage bladder, i.e. when the fluid side is essentially empty Memory, the measurement made because the target for this operating state pressure corresponds to the set pressure before the storage tank is started up for the first time, which is specified by the manufacturer and is therefore known.  

In a further preferred embodiment of the invention Device is pressure balanced to relax the contents of the chamber appropriate connection between this chamber and the environment via the Shut-off device can be produced. Through this subsequent relaxation and thus depressurizing the chamber for a new measuring process prepared.

In a particularly preferred embodiment of the invention Device is at an actual gas bias pressure that is less or greater is equal to a target gas bias pressure, the memory with a predefined Ren gas quantity can be filled or emptied via a metering device. Since the Storage usually in gas over its intended operating time loses, the metering device is in the form of a refill for Be formed gas. However, should accidental overfilling with gas or should the memory be used for another purpose? need less gas bias, the metering device can also do so serve excess gas after taking a measurement accordingly let down.

In the following, the device according to the invention is illustrated by the only one Figure explained in more detail.  

A designated as a whole with 10 hydropneumatic SpeI cher, for example in the form of a membrane or Blasenspei chers, has a gas valve body 12 . About this Gasven valve body 12 , the memory 10 can be filled with a working gas, for example in the form of nitrogen. Such storage arrangements are well known in the technical field, so that for reasons of simplification the storage 10 is only partially shown in the figure with regard to its gas side.

The gas valve body has an external thread onto which a mounting device, designated as a whole by 14 , can be screwed. The placement device 14 is essentially designed as a four-sided block and includes a spherical chamber 16 at its free end. Along the longitudinal axis of the Aufsetzvor direction 14 runs in the same a straight connection in the form of a channel 18 , which ends in the chamber 16 and into the interior of the gas valve body 12 and thus opens into the interior of the memory 10 .

The gas valve body 12 opens into the channel 18, a pressure-carrying cross-connection 20 , which extends to the outside of the mounting device 14 out in diameter and is provided with a thread, via which a Druckwerttaufneh mer 22 can be connected to the mounting device 14 . Pressure transducers measuring gas pressure are well known, so that they are not dealt with in detail. The pressure transducer 22 can be connected to a computer unit (not shown) which, provided with the appropriate software, permits automatic conversion and thus automatic monitoring of the operating state of the memory 10 . Via an appropriate display device (not shown), the actual gas prestressing pressure po _{can then be} read off and, in addition, cyclical remote monitoring of the memory is possible with the computer unit.

Between the chamber 16 and the terminal 20 of the pressure transducer 22 , a shut-off valve 24 is connected in the channel 18 within the Aufsetzvorrich device, which can be actuated in a known manner via a lever (not shown) or via an electrically controllable actuating device (not shown) . The shut-off valve 24 has a plug 26 which forms the shut-off part of the shut-off device and which is provided with three connections 28 arranged in a T-shape with respect to one another. When the shut-off valve 24 is actuated, that is to say when the plug 26 is rotated, counterclockwise from the position shown in the figure, the upper connection 28 shown in the figure opens into a side channel 30 which opens into the open.

In the position of the shut-off valve 24 with plug 26 shown in the figure, the shut-off device is shown in its open position, in which the chamber 16 is connected on the gas side to the accumulator 10 . In the locked position (not shown), in which the plug 26 is rotated counterclockwise, a pressure-carrying connection between the chamber 16 and the environment is provided via the side channel 30 . Instead of the shut-off valve 24 could also an elec trically actuated solenoid valve (not shown), for example in the form of a 3/2-way valve, occur.

In the device according to the invention, the shut-off valve 24 is first brought into its locked position and the gas pressure px in the memory is measured by means of the pressure transducer 22 arranged in front of the shut-off device. In a further step, the shut-off device is brought into its open position, the shut-off valve 24 taking a position according to the figure. The chamber 16 is then switched on and there is a pressure drop in the system (memory 10 , mounting device 14 ), the associated pressure change py being established in a renewed measuring step by the pressure sensor 22 . The actual gas preload pressure po _{ist is then} determined from the pressure value pair px and py obtained in this way, preferably with the computer unit mentioned, according to the following formula:

in which
V₀ = gas volume of the storage,
V _A = chamber volume,
px = gas pressure when connection is closed and
py = gas pressure when the connection to the chamber is open.

As the following calculation example shows, the actual gas prestressing pressure po _ist can then be determined from the given storage gas volume V₀ and the given chamber volume V _A and the measurement pressure values px and py obtained:

po _is = 180 bar.

If the actual gas prestressing pressure po _ist determined in this way _is less than or greater than the target gas prestressing pressure po _soll for this store 10 , the store is to be filled or emptied with the corresponding amount of gas. Here, one possibility is to remove the placement device 14 and then to fill or empty the memory 10 in a conventional manner. However, it is more advantageous to leave the mounting device 14 on the storage device 10 and via a metering device (not shown) and via a further side channel 32 of the mounting device 14 , which opens into the channel 18 at the level of the cross connection 20 and which can be closed accordingly, refilling or emptying.

When a measuring process is completed, the chamber 16 is then relaxed, and therefore depressurized, by establishing a pressure-carrying connection between the side channel 30 and the chamber 16 by means of the shut-off device via the shut-off valve 24 . Instead of a spherical configuration of the chamber 16 , another configuration in the form of a cavity which is closed off from the outside is also possible.

Claims (6)

1. Device for measuring the actual gas prestressing pressure (po _ist ) of a gas which can be received in a hydropneumatic accumulator ( 10 ), in which a gas-carrying connection ( 18 ) between the accumulator ( 10 ) and a chamber ( 16 ) having a fraction of the accumulator volume is posed; which can be shut off by a shut-off device (24), by means of which is arranged between the memory (10) and the shut-off device (24) Druckwertaufnehmers (22) at abgesperrter connection of the gas pressure (px) in the memory (10) and to open the connection (18 ) the associated pressure change (py) can be measured and the actual gas prestressing pressure (po _ist ) can be determined from the pair of pressure values (px, py) thus obtained, characterized in that the chamber ( 16 ) is part of a mounting device ( 14 ) , which can be connected on the gas side to the accumulator ( 10 ), and that the shut-off device ( 24 ) is formed from a 3/2-way valve which has a shut-off part with three connections ( 28 ) which, in the locked position, the chamber ( 16 ) Connect the environment and connect the chamber ( 16 ) on the gas side to the accumulator ( 10 ) in the open position. 2. Device according to claim 1, characterized in that the actual gas prestressing pressure (po _ist ) can be determined using the following formula: in which
V₀ = gas volume of the storage,
V _A = chamber volume,
px = gas pressure when connection is closed and
py = gas pressure when the connection to the chamber is open. 3. Apparatus according to claim 1 or 2, characterized in that the 3/2-way valve is formed from a solenoid valve or has a shut-off valve with a plug ( 26 ) which, with the connections ( 28 ), forms the shut-off part. 4. Device according to one of claims 1 to 3, characterized in that for the measuring process, the gas in the memory ( 10 ) can be brought to a predetermined volume for which the pressure setpoint (po _soll ) is known. 5. Device according to one of claims 1 to 4, characterized in that a pressure-equalizing de connection ( 30 ) between the chamber ( 16 ) and the environment via the shut-off device ( 24 ) can be produced to relax the contents of the chamber ( 16 ). 6. Device according to one of claims 1 to 5, characterized in that at an actual gas bias pressure (po _ist ) that is less than or greater than a target gas bias pressure (po _soll ), the memory ( 10 ) with a predetermined amount of gas a dosing device can be filled or emptied.