DE102004034706B3 - Gas spring for tailgate or boot (trunk) lid of motor vehicle has equalizing cavity for pressure fluid - Google Patents

Abstract

The gas spring (1) has a working cavity (5) containing a pressure fluid (14), and a heating device (17) to heat the fluid. The fluid can be acted on by an operating device movable relative to the working cavity. There is an equalizing cavity (7) for the pressure fluid, connected to the working cavity by two equalizing valves (12, 13).

Description

The Invention relates to a fluid spring, in particular gas spring, with a working fluid having a working space and with a Heating device for heating of the pressurized fluid, the pressurized fluid being relative to the working space movable actuating means is acted upon.

Such a fluid spring is as a gas spring for a motor vehicle for biasing a tailgate or a trunk lid of the DE 41 35 295 A1 known. The gas spring has a metallic cylinder closed on one side, a damping piston mounted therein, a metallic piston rod connected to the damping piston, and a seal provided between the cylinder and the piston rod at the open end of the cylinder. In general, the push-out force of gas springs is temperature-dependent, as the pressure of an enclosed gas volume changes as a function of the temperature. For this reason, an electric heater is arranged on the damping piston of the aforementioned gas spring, the gas volume enclosed directly arranged, with which it should be possible to achieve damping properties that are largely independent of fluctuations in the ambient temperature.

In the DE 44 21 773 A1 is, provided for use as a movement aid for moving structural parts in changing ambient temperatures exposed structures, another, a compressed gas volume having gas spring with an electric heating means. To compensate for pressure variations of the compressed gas volume as a result of changes in the ambient temperature of the gas spring this is associated with the electrical heating means in heat exchange connection with the compressed gas volume.

at the above gas springs, the heater acts directly on the pressure gas volume, resulting in a constant change in the spring properties not only in dependence from the ambient temperature, but also from the heating time and performance results.

Furthermore are known struts, which are substantially different from the ambient temperature independent Spring properties having steel springs a significant proportion take over at the extension force. Such struts have a high weight, are relatively expensive and also produce unwanted Noise.

Of the present invention is based on the prior art Object of the invention to provide a gas spring of the type mentioned, the mostly temperature independent Has spring properties and is easy to produce.

These Task is inventively characterized solved, the existence the heater having, with the working space over two counterbalancing valves connected compensation room for the Compressed fluid is provided and closed balancing valves the pressure of the pressure fluid in the expansion chamber is less than the pressure of the pressurized fluid in the working space. With the invention, the spring properties the fluid spring independent of temperature. she can by a design according to the respective requirements the balancing valves in a simple way and permanently preset become. Of particular advantage in the fluid spring according to the invention is it that the Heating device basically only temporary must be operated. A permanent heating is not required. The fluid spring can generally one with a liquid or a gas operated spring, but has one as a gas spring trained fluid spring advantageous a particularly low weight with high functionality and simple construction. Advantageous for a high level of operational safety and durability of the fluid spring is when the actuating means a guided in a cylinder Piston is.

The pressure of the pressurized fluid in the expansion chamber is less than the pressure of the pressurized fluid in the working space when the balancing valves are closed, in the case of the fluid spring according to the invention, in particular if the temperature in the working space corresponds to the temperature in the compensation chamber. If the ambient temperature rises as a result, the pressure of the pressurized fluid in the working chamber increases and one of the compensating valves allows the excess pressure to flow out of the working space against the lower pressure in the expansion chamber until the desired pressure value of the working chamber predetermined at this compensating valve has been reached and the equalizing valve closes. If, however, the ambient temperature, so the compensation chamber is heated by the heater, the pressure of the pressurized fluid in the expansion chamber increases and the other compensation valve, which is opposite to the first compensation valve, the pressure in the working space, increasing the pressure of the pressure fluid contained there, from , This takes place as soon as the pressure in the compensation chamber is higher than the pressure in the working chamber. Thus, the first-mentioned equalizing valve may, for example, be a valve which basically regulates the pressure in the working space to a predetermined desired value, and the second-mentioned equalizing valve may, for example, be a valve which then supplies the flow From the expansion chamber to the working space releases when the pressure in the expansion chamber is greater than the pressure in the working space. A Ausschubkraftanpassung the fluid spring can be initiated at falling ambient temperature, for example, by an on-board computer of the fluid spring motor vehicle when a measured temperature is a certain predetermined amount below the ambient temperature in the previous Ausschubkraftanpassungsvorgang.

you could Imagine that Example in a built-in motor vehicle fluid spring the Heating device from the cooling water circuit of Motor vehicle is powered. By contrast, the heater is very easily adaptable to different applications and the heat output is good dosed, if according to a Another advantageous embodiment of the invention, the heater has an electric heater. A very advantageous in construction compact fluid spring results according to another advantageous Development of the invention, when a the work space and the compensation room comprehensive cylinder is provided. It can work space and compensation room for example, be arranged in series in a cylinder tube. One further simplified construction in which the compensation room for example can be integrated into a cylinder wall, resulting according to an advantageous Development of the invention, when the compensation chamber the working space concentrically. Here, for example, in a double tube arrangement of the compensation chamber arranged around the workspace.

ever after application, especially in cramped installation conditions for the Fluid spring, it may also be of particular advantage, if according to a another development of the invention, a work space comprehensive Cylinder is provided and the cylinder by means of an external Fluid line is connected to the expansion chamber. In this embodiment is the compensation space thus of the cylinder in general and the working space in particular separated.

The Compensation valves are very reliable and have a high Shelf life if, according to a Another advantageous embodiment of the invention, the compensation valves check valves are.

According to one Another advantageous embodiment of the invention is the one Flow of pressurized fluid from the working space to the compensation chamber enabling compensation valve a temperature controlled valve. Thus, this compensation valve without a control from the outside as a pressure relief valve in dependence from the temperature a certain, specifiable differential pressure between working space and compensation room hold.

One very simple, cheaper and reliable construction of the temperature-controlled valve is according to a advantageous development of the invention achieved when the valve a throttle is connected upstream and a closing body of the valve is a bimetallic spring having. The closing body becomes biased by the bimetallic spring to a sealing seat. Thereby can be advantageously achieved that the differential pressure between Working space and compensation room at high temperatures, for example in the order of magnitude of 80 ° C, small and at low temperatures, for example of the order of magnitude from -30 ° C, is high. With such a valve is after completion of a heating process not only pressurized fluid from the expansion chamber has flowed into the working space and the entire pressure system of the fluid spring heats up, but at the same time the temperature-dependent Heated valve, so that subsequently set a lower differential pressure. The but would contradict the goal, the differential pressure in dependence set by the ambient temperature of the fluid spring. For this reason is the throttle according to the invention provided a backflow of the Delayed pressure fluid from the working space in the expansion chamber. The delay the throttle is so big that the Fluid spring is cooled to approximately ambient temperature before the differential pressure has essentially degraded. As throttle may preferably for Example, a permeable membrane or a porous metal body can be used.

To another advantageous embodiment of the invention is provided that the Working space has a pressure sensor. This can be a pressure control for the Work space are made so that, for example, via a Regulator then the heater is turned on when the pressure sinks in the workroom. It can also be provided that via a fremdbetätigbares drain valve Pressure is released when the pressure in the working space a predetermined Height exceeds. Such devices can completely self-sufficient, that is independently For example, from an on-board computer of a motor vehicle, work.

you could Imagine, for example, as an external heating device provide the fluid spring applied heating tape or a Peltier element. According to one Another advantageous embodiment of the invention, the heater or at least one of the heaters, however, a heating foil on. The heating foil can in a simple manner, for example, outside on the fluid spring, in particular a gas spring tube of a gas spring, applied (preferably glued).

According to another advantageous further Forming the invention, the compensation chamber and / or the working space on a cooling device. With such a combination of heating device and cooling device, for example with a Peltier element, differential pressures between the working space and the compensation space can be generated, which are then regulated to intended setpoints by compensating valves designed as pressure relief valves.

Various embodiments the invention are shown schematically in the drawing and will be closer in the following explained. It shows

1 a first fluid spring with a heating device,

2 a second fluid spring with a heating device,

3 a fluid spring with temperature-dependent valve and heating device,

4 : a fluid spring with heater and pressure sensor.

Corresponding elements are in the 1 to 4 each provided with the same reference numerals.

1 shows a trained as a gas spring fluid spring 1 with a cylinder 2 and one in the cylinder 2 guided, a piston rod 3 having pistons 4 as an actuating means. The cylinder 2 is with a the piston 4 adjacent work space 5 and one with the workspace 5 arranged in a row, from this by a wall 6 separate compensation room 7 Mistake. working space 5 and compensation room 7 are by means of fluid channels 8th . 9 connected to each other, wherein the fluid channels 8th . 9 one each as a check valve 10 . 11 trained compensation valve 12 . 13 exhibit. Both in the workroom 5 as well as in the compensation room 7 there is a pressurized fluid 14 . 15 suitable, the fluid channels 8th . 9 depending on the position of the compensating valves 12 . 13 to flow through. The pressure p _{1 of} the pressure fluid 15 in the compensation room 7 is smaller than the pressure p ₂ of the pressure fluid 14 in the workroom 5 , It can be seen that the compensation valves 12 . 13 are arranged in opposite directions, so that the first compensation valve 12 an overflow of pressurized fluid 15 of the equalization room 7 in the workroom 5 and the second equalizing valve 13 an overflow of pressurized fluid 14 of the workroom 5 in the compensation room 7 can allow. In the compensation room 7 is one by a heating coil 16 symbolized heater 17 arranged.

One of the embodiment according to 1 deviating arrangement of a working space 5 and a compensation room 7 in a gas spring designed as a fluid spring 1 shows 2 , Here it comprises a heating device 17 holding a spiral heating wire 27 owns, having compensation space 7 the workroom 5 in a cylinder 2 the fluid spring 1 concentric.

In a form of a gas spring fluid spring 1 to 3 is a flow of pressurized fluid 14 from a workroom 5 in one with a heater 17 provided compensation room 7 enabling equalization valve 13 a temperature controlled valve 18 , The valve 18 is a throttle 19 upstream, and a closing body 20 of the valve 18 points next to a ball 21 a bimetallic spring 22 on.

After another, in 4 illustrated embodiment has a gas spring designed as a fluid spring 1 in a workroom 5 a pressure sensor 24 on. The pressure sensor 24 is with a regulator 25 connected with a drain valve 26 trained balancing valve 13 and one in a compensation room 7 arranged heating device 17 connected is.

1

fluid spring

2

cylinder

3

piston rod

4

piston

5

working space

6

wall

7

compensation space

8th

fluid channel

9

fluid channel

10

check valve

11

check valve

12

equalization valve

13

equalization valve

14

pressure fluid

15

pressure fluid

16

heating coil

17

heater

18

Valve

19

throttle

20

closing body

21

Bullet

22

bimetallic

24

pressure sensor

25

regulator

26

drain valve

27

heating wire

p ₁

print

p ₂

print

Claims (11)

Gas spring with a working fluid having a pressure fluid and with a heating device for heating the pressurized fluid, wherein the pressurized fluid is acted upon on a movable relative to the working space actuating means, characterized in that a heating device ( 17 ), with the working space ( 5 ) via two counterbalancing valves ( 12 . 13 ) associated compensation room ( 7 ) for the pressurized fluid ( 14 ), with closed balancing valves ( 12 . 13 ) the pressure of the pressurized fluid ( 15 ) in the equalization room ( 7 ) is less than the pressure of the pressurized fluid ( 14 ) in the workroom ( 5 ). Fluid spring according to claim 1, characterized in that the heating device ( 17 ) has an electric heater. Fluid spring according to one of the preceding claims, characterized in that a working space ( 5 ) and the compensation room ( 7 ) comprehensive cylinder ( 2 ) is provided. Fluid spring according to claim 3, characterized in that the compensation space ( 7 ) the working space ( 5 ) concentrically. Fluid spring according to one of claims 1 and 2, characterized in that a working space ( 5 ) comprehensive cylinder ( 2 ) is provided and that the cylinder ( 2 ) by means of an external fluid line with the compensation space ( 7 ) connected is. Fluid spring according to one of the preceding claims, characterized in that the compensating valves ( 12 . 13 ) Check valves ( 10 . 11 ) are. Fluid spring according to one of the preceding claims, characterized in that the one flow of pressurized fluid ( 14 ) from the workspace ( 5 ) to the compensation room ( 7 ) enabling equalizing valve ( 13 ) a temperature-controlled valve ( 18 ). Fluid spring according to claim 7, characterized in that the valve ( 18 ) a throttle ( 19 ) is connected upstream and that a closing body ( 20 ) of the valve ( 18 ) a bimetallic spring ( 22 ) having. Fluid spring according to one of the preceding claims, characterized in that the working space ( 5 ) a pressure sensor ( 24 ) having. Fluid spring according to one of the preceding claims, characterized in that the heating device ( 17 ) or at least one of the heating devices ( 17 . 23 ) has a heating foil. Fluid spring according to one of the preceding claims, characterized in that the compensation chamber ( 7 ) and / or the work space ( 5 ) has a cooling device.