DE10305001A1 - Metal bellows pressure tank for hydraulic system has sensor rod that interacts with electric coil integrated into pressure container and generates signal indicating position of metal bellows floor - Google Patents

Abstract

The tank has a pressure container with a chamber for pressurized gas and a chamber for hydraulic fluid separated by the bellows and an attached floor. The pressure container has a filling opening for pressurized gas and a fluid through channel. The bellows floor has a sensor rod that interacts with an electric coil integrated into the pressure container and generates a signal indicating the position of the metal bellows floor. The metal bellows pressure tank (1) has a pressure container (2) with two chambers, a chamber (15) for pressurized gas and a chamber (14) for hydraulic fluid, whereby the chambers are separated by the bellows (3) and an attached floor (6) and the pressure container has a filling opening (13) for pressurized gas and a fluid through channel (9). The bellows floor has a sensor rod (7) that interacts with an electric coil (10) integrated into the pressure container and generates a signal indicating the position of the metal bellows floor.

Description

technical area

The invention is concerned with a metal bellows accumulator for hydraulic systems such as brake systems in motor vehicles and the like, with a pressure vessel two chambers. A chamber for the compressed gas and a chamber for the hydraulic fluid, the chambers through the metal bellows and a floor attached to it are separated from each other and the pressure vessel with a filling opening for the compressed gas and with a passage for the fluid is provided.

Metal bellows accumulators are used when prevents gas diffusion between the chambers of the pressure vessel shall be. Membrane accumulators often used as pressure accumulators have an elastic membrane that prevents the diffusion of gases into the hydraulic fluid not entirely prevented. The gas bubbles forming in the fluid can do this Influence braking system significantly.

The metal bellows accumulators prevent a gas diffusion, but the metal bellows has a limited elasticity or strength. The metal bellows can only withstand pressure differences of a few bar and must avoid overloading protected become. Measures are therefore planned which serve to equalize the pressure. In particular, prevent that the metal bellows through a complete emptying of the fluid chamber destroyed the gas pressure becomes. Usually valves are used here, which from a certain position of the Metal bellows within the pressure accumulator the flow for the hydraulic Shut off the fluid and prevent the fluid from flowing out further.

WO 97/46 823 is a metal bellows accumulator become known in which a valve is provided in which the End plate when a desired end position is reached, move the valve tappet into the locked position of the valve moves so that the outflow of hydraulic fluid from the oil room is prevented. With a closed valve, therefore, remains if the connected hydraulic system should become depressurized, in the oil room of the accumulator maintain a pressure that currently in the gas space prevailing gas pressure corresponds. This construction remains however, the risk of damage of the metal bellows if there is overpressure on the oil side or the Gas pressure on the gas side stays away. In this case it moves the end plate of the metal bellows up to the mechanical stop on the accumulator housing. Here can a destruction of the metal bellows.

The invention is based on the object to produce a metal bellows accumulator, which has the disadvantages avoids the previously known metal bellows accumulator. The metal bellows accumulator supposed about it also inexpensive be manufactured and have a long service life.

The solution to the task is achieved with the features of claim 1. Make the subclaims advantageous developments of the inventive concept.

According to the invention, the metal bellows bottom provided with a sensor rod, which is integrated into the pressure vessel electrical coil interacts and the position of the metal bellows indicating signal generated. This measure ensures that the position of the metal bellows base in the pressure accumulator is always visible to the outside. As soon as the metal bellows is in a position that is undesirable, can by a corresponding pressure change in the gas space or Remedial measures can be taken in the fluid space. Electrical wires that in the pressure vessel to lead, are not available. The measurement is non-contact.

The electrical coil is preferred aligned concentrically to the sensor rod. It is beneficial if the sensor rod centrally and coaxially with the metal bellows on the metal bellows base is arranged.

A constructively favorable solution sees before that the sensor rod in a passage in the housing base for the hydraulic Fluid is immersed and the electrical coil surrounds the passage. The sensor rod can be conical, so that with increasing immersion depth of the sensor rod in the passage the drain of the hydraulic fluid is reduced. If necessary, the sensor rod can be designed such that they valve-like the outlet opening of the Closes fluids. Is possible but also a solution in which the sensor rod is provided with a sealing ring which the outlet opening or the passage at closes a predetermined position of the metal bellows.

Summary the drawing

Based on the embodiments shown in the drawing the invention will be closer below explained.

It shows:

1 in longitudinal section a metal bellows accumulator with a sensor rod immersed in the passage of the fluid and an electrical coil surrounding the passage and

2 a longitudinal section through a metal bellows pressure accumulator, in which the passage for the fluid is arranged within the metal bellows.

The Indian 1 metal bellows accumulator shown in longitudinal section 1 consists essentially of a pressure vessel 2 forming housing and that in the pressure vessel 2 housed metal bellows 3 , The pressure vessel 2 is through the lid 4 completed, on which the metal bellows 3 with one end 5 is attached. The metal bellows 3 is with the floor 6 provided on which the sensor rod 7 is appropriate. The pressure vessel 2 is in its upper part seen in the drawing with the connecting piece 8th provided in which the passage 9 for the fluid. At the connector 8th is also the electrical coil 10 attached, which with the sensor rod 7 interacts and in this way the position of the metal bellows base 6 via a corresponding signal. The administration 11 leads from the spool 10 to a corresponding display device.

The filling of the metal bellows 3 with compressed gas is done with a screw 12 closed filling opening 13 in the container lid 4 , The hydraulic fluid is through the passage 9 in the pressure vessel 2 directed. The one in the pressure vessel 2 existing chambers, for the fluid chamber 14 and for the gas chamber 15 , are through the metal bellows bottom 6 and the metal bellows 3 separated from each other. The electrical coil 10 is concentric to the sensor rod 7 aligned. The sensor rod 7 in turn is central and coaxial with the metal bellows 3 on the metal bellows base 6 appropriate. The sensor rod 7 plunges into the culvert 9 in the neck 8th one and the coil 10 gives a corresponding signal depending on the immersion depth. The sensor rod 7 itself is slightly cone-shaped and thus causes depending on the position of the sensor rod 7 in the passage opening 16 a change in the flow rate of the fluid. The cone 17 can be formed on the sensor rod so that the passage opening at a corresponding immersion depth 16 is closed.

The 2 shows an embodiment of the metal bellows accumulator 1 where the neck 8th with the culvert 9 for the fluid inside the metal bellows 3 is arranged. This results in a particularly compact design of the pressure accumulator 1 , The inlet opening 13 for the compressed gas is on the bell-shaped part of the pressure vessel 2 attached and with the screw 12 locked. The sensor rod 7 is on the inward facing surface of the metal bellows base 6 appropriate. The sensor rod 7 plunges into the culvert 9 in and in the neck 8th is the electrical coil 10 , In this example is the sensor rod 7 with the sealing ring 18 provided which the inlet opening 16 of the culvert 9 at a given position of the metal bellows base 6 and thus the sensor rod 7 closes.

Claims (7)

Metal pressure accumulator ( 1 ) for hydraulic systems, such as brake systems in motor vehicles and the like, with a pressure vessel ( 2 ), with two chambers, one chamber ( 15 ) for the compressed gas and a chamber ( 14 ) for the hydraulic fluid, the chambers ( 14 . 15 ) through the metal bellows ( 3 ) and a floor attached to it ( 6 ) are separated from each other and the pressure vessel ( 2 ) with a filling opening ( 13 ) for the compressed gas and with a passage ( 9 ) is provided for the fluid, characterized in that the metal bellows base ( 6 ) a sensor rod ( 7 ) that has one in the pressure vessel ( 2 ) integrated electrical coil ( 10 ) interacts and the position of the metal bellows base ( 6 ) generating signal. Metal pressure accumulator ( 1 ) according to claim 1, characterized in that the electrical coil ( 10 ) concentric to the sensor rod ( 7 ) is aligned. Metal pressure accumulator ( 1 ) according to claim 1 or 2, characterized in that the sensor rod ( 7 ) centrally and coaxially with the metal bellows ( 3 ) on the metal bellows base ( 6 ) is arranged. Metal pressure accumulator ( 1 ) according to one of claims 1 to 3, characterized in that the sensor rod ( 7 ) in an existing passage ( 9 ) for the hydraulic fluid and the electrical coil ( 10 ) the nozzle ( 8th ) surrounds. Metal pressure accumulator ( 1 ) according to one of claims 1 to 4, characterized in that the sensor rod ( 7 ) is conical. Metal pressure accumulator ( 1 ) according to one of claims 1 to 5, characterized in that the sensor rod ( 7 ) with a sealing ring ( 18 ) is provided, which the inlet opening ( 16 ) of the passage ( 9 ) at a given position of the metal bellows base ( 6 ) closes. Metal pressure accumulator ( 1 ) according to one of claims 1 to 6, characterized in that the connecting piece ( 8th ) for the passage ( 9 ) for the fluid inside the metal bellows ( 3 ) is arranged.