DE1960572A1 - Gas spring with a spring constant determined by the ratio of two diameters - Google Patents

Description

Gas spring with a determined by the ratio of two diameters Spring constants.

The invention relates to a gas spring with a through the Ratio of two diameters determined spring constants, one of which is diameter the inner jacket of a housing filled with compressed gas and the other diameter is assigned to a displacer immersed in the gas filling o Already from the US Pat. No. 168,980 teaches that the spring constant of a gas spring on the ratio of the diameter of the housing and that in the compressed gas of the housing immersing displacer is dependent and possibly on this ratio can be changed 0 The performance of the gas spring, however, can only be changed the gas pressure can be influenced0 The construction principle resulting from this teaching has so far been realized that the same gas pressure and spring travel are assumed Depending on the desired characteristics or spring constants of the gas spring, this is mainly cylindrical housing a correspondingly large diameter for a flatter one Course of the spring constants and accordingly a smaller one Diameter for a steeper course of the spring constant 0 one after Gas spring manufactured according to this point of view is then always only for the too The underlying load case is suitable and is derived from the diameter ratio explained resulting invariable spring constant, for which the expected good suspension properties enter. A subsequent adjustment to another load case is, however not possible.

However, an adjustment to a different load case is included mechanical springs e.g. from coil springs are easily possible to a certain extent. For example, such springs for cushioning the driver's seats in the most varied Motor vehicles such as trucks, buses, tractors, tanks, construction machinery uodglo used, so can be dimensioned with these with regard to their spring travel abundantly Springs while reducing the total spring deflection changes the preload and for example, can be adapted to the respective weight of the driver. The characteristic i.e. the course of the spring constant or spring characteristic remains in the force-displacement diagram but undesirably the same.

It is therefore the object of the invention to provide a gas spring with corresponding to a spring constant determined by the ratio of two diameters to develop the characteristics of the genus explained in the first paragraph in such a way that that when changing the load case their spring constant while maintaining the Preload and the entire spring travel of this new load case is customizable.

According to the invention, this object is achieved in that for change the spring constant the housing having the displacer further with compressed gas Filled and self-contained secondary housings are assigned to the same Have gas pressure like the housing and are designed to be connectable to this.

In detail, the training can be carried out so that the secondary housing that can be connected to the housing as independent, one different Large single housing and via a continuous pipeline, a channel or the like. can be switched on in any order by means of valves. Preferably, the housing accommodating the displacer is designed as a cylinder, around which the associated, also cylindrical secondary housings are concentric are arranged, which are on a respective identical end face by a common Cover are complete, in which a hollow drilled in the axial direction, in the cover approximately radially mounted and with the axial bore opening into the housing Rotary valve is mounted, the axial bore of which via transverse holes in the valve casing and cover can be successively connected to the cylindrical secondary housings. at concentric arrangement of the secondary housing around the main housing is the common, one end of the housing closing cover on the underside in ring-shaped, receiving the secondary housing Steps offset and with an axial displaceable valve spindle provided, by means of which the secondary housing via radially Channels running in the cover can be successively connected to the main housing. With an arrangement of the secondary housing approximately over half the cross-sectional circumference of the The main housing is in the joint that closes one end of the housing Cover for each secondary housing one with the shaft protruding as well as one for Main housing leading channel final valve provided, those on the lid a rotatable dial is associated, which is for successive depressions of the valve stems on the underside about half the circumference around the valve lift is thickened.

The measures create a gas spring whose spring constant can be adapted according to the present load case and theirs the respective characteristic is then retained over the entire spring travel. In the power path The diagram shows the spring constants corresponding to the various load cases thus all radiating from a point lying on the ordinate, from the Coordinate zero point a distance corresponding to the preload of the gas pressure Has. As a result, the entire spring travel is available for the suspension in every load case available, so that it is felt to be extremely comfortable when sitting.

Several exemplary embodiments of the subject matter of the invention are shown purely schematically in the drawing. FIG. 2 shows a view of a gas spring with individual switchable independent secondary housings of a first exemplary embodiment; a third embodiment, Figo4 a longitudinal section of another embodiment of a gas spring with switchable secondary housings of a fourth embodiment, Fig. 5 the plan view of the gas spring according to Fig. 4 The structure of a gas spring is known and therefore does not require any special explanation with regard to its design and mode of operation . It is therefore only shown purely schematically with the omission of structural details and only explained to the extent that its further development according to the invention is more understandable. In principle, each gas spring is formed by an elongated housing or main housing 1 with any desired cross-sectional shape, which is filled with compressed gas and in which the so-called displacer 2 is guided in a gas-tight and axially displaceable manner. At the -free end of the displacer 2 is a pivot point which the gas spring is hinged to one part of two mutually movable parts. The opposite end of the gas spring is then supported on the second part.

The inert gas pressed into the main housing becomes an overpressure pressed, which corresponds to the desired preload of the gas spring.

To that by the diameter ratio of main housing 1 and displacer 2 to be able to adapt certain spring constants to the different load cases, add to the volume of the main housing additional volumes individually one after the other or simultaneously switched on. These switchable volumes also contain an inert compressed gas, whose pressure is exactly the same as the pressure of the gas in the main housing According to Figure 1, the connectable volumes are assigned to special secondary housings 4, 5 and 6, each of which forms an independent container of different sizes, the secondary housing are by means of a continuous pipeline 7 with the main housing via valves 8 connected and in the same way as the main housing with compressed gas of the same Overpressure filled. By opening a valve, the desired Volume enlargement the correspondingly assigned secondary housing 4 or 5 or 6 dem Main housing 1 are switched on.

Instead of a pipeline 7 designed as a collecting line can the secondary housings 4 5 and 6 are directly connected to one another by short pipelines in each of which a valve 8 is arranged. In such a case are However the secondary housings only in the order shown or one after the other can be connected to the main housing.

Another exemplary embodiment is shown in FIG. 2. Preferably, in this case the main housing 1 leading to the displacer 2 is cylindrical. Concentric The secondary housings, which are also cylindrical, are located around this main housing 9 to 12 arranged. These have the same gas pressure as the main housing Secondary housings 9 to 12 can each be the same or different from one another Have volume. All are on one of the faces that are identical to one another Housing e.g. through a plate 13 and on the opposite end faces a common cover 14 sealed gas-tight. In the cover 14 is an in axial direction hollow bored rotary valve 15 rotatably mounted, the axial Bore 16 extends over the radial extent of the secondary housing 9 to 12. It is continued via a channel 17 and opens into the interior of the main housing 1. The axial bore 16 of the rotary valve 15 is through transverse bores 18 with the Interior of the secondary housing can be connected. For this purpose, the cover 14 for each secondary housing 9 to 12 each have a bore 18 provided, the axes of which with Bez train on the rotary valve end on the same nantel line.

In the rotary valve itself, however, are each in the same division for one secondary housing e.g. 9 four, for the secondary housing to three, for the following secondary housing 11 two and finally a bore 18 for the secondary housing 12 is provided. the in the Rotary valve for the secondary housing 9 to ii provided transverse bores are always on a pitch circle on which the axis of the associated cross hole of the cover ends.

If, for example, the handwheel'-19 of the rotary valve 15 is rotated from a closed position until the two transverse bores in the cover and in the rotary valve for the secondary housing 9 overlap, the latter is connected to the main housing Secondary housing 9 again in addition, the adjacent secondary housing 1o is connected to the main housing 1 and so on, until all four secondary housings 9 to 12 are connected to the main housing 1 after turning the handwheel 19 by three hole pitches.

In the third embodiment of a gas spring according to Figo3 is the Arrangement and design of the main housing and secondary housings roughly as in the exemplary embodiment designed according to Figo2. However, only two secondary housings 9 and 10 are provided. The other difference is that the one end of the housing closes off Cover 20 on the underside in ring-shaped, each a secondary housing 9 or 1o receiving steps 21 and 22 offset and in the longitudinal center with an axially displaceable Valve spindle is provided, by means of which the secondary housing over approximately radially and axially extending channels 24 and 25 can be connected to the main housing 1. For this are for example on the valve spindle 23 at a mutual distance of about one double Valve lift two annular grooves 26 and 27 are provided, of which the lower groove 26 has a length measured on the valve spindle that is approximately twice the valve stroke is equivalent to. The upper annular groove 27 has only one valve lift corresponding to it Length0 Both ring grooves are axially in the valve spindle, for example through one 23 extending bore 28 is connected to the main housing 1 via a respective transverse bore 29. The lower annular groove 26 is located directly when the secondary housings are closed above the lower and immediately below the upper radial, in the secondary housing 9 and 1o opening channel 24, the other end of which through the valve spindle 23 If the valve spindle 23 is closed, for example, by means of an adjustable If the device is depressed by a stroke length, half the length of the lower one arrives annular groove 26 in front of the mouth of the lower radial channel 24, so that the inner secondary housing 9 via the transverse bore 29 of this groove and via the axial bore 28 of the valve spindle 23 is connected to the main housing 1. The upper ring groove 27 has arrived directly above the upper radial channel 2. At the repeated depression of the valve spindle, the secondary housing 9 remains as a result of double the length of the lower ring groove corresponding to a valve stroke and the upper annular groove 27 now occurs in front of the opening of the upper radial channel 24, so that the secondary housing lo is now also connected to the main housing 1.

Also in the embodiment of Fig0 4 'is a main housing 1- and two secondary housings 9 and lo are provided, the cross-section of which is predominantly circular can be. However, a larger number of secondary housings can also be used. The housings can also have a rectangular or square cross section and be designed as a single housing, which is then screwed together, for example will. In the exemplary embodiment there is a common cover 30 and for each secondary housing 9 and 1o a valve 31 mounted in this is provided. Each valve 31-connects the associated secondary housing with a channel 32 arranged in the cover 30, which extends over an axially extending bore 33 opens into the main housing 1. By pressing down of a valve 31 is the respectively assigned secondary housing via the channel 32 and the axial bore 33 of the cover 30 is connected to the main housing 0 all valves are preferably arranged on an arc that is slightly smaller than half The circumference of the full circle is o To press down the valves is on the cover For example, a dial 35 rotatably mounted on a bearing eye 34, which is a handle 36 may have.

The dial 5 can also be only semicircular With a circular design, the free ends of the upright shafts have the Valves 31 practically only an insignificant distance from the bottom about the half of that dial. Which is about half However, the circumference extending other half of the disc is the amount of one valve lift thickened. The approximately radial ends of this thickening 37 taper off in a ramp shape educated. If now the dial 35 is over a ramp-shaped run-out rotated, a valve 31 is depressed and the associated secondary housing with connected to the main body. When turning the dial by one valve division the second secondary housing is then connected to the main housing, etc., whereby maintain the connection of the respective preceding secondary housing to the main housing remains0

Claims (1)

Claimscbc: t'Gasfeder with one by the ratio of two Diameter determined spring constants, one of which is the inner jacket diameter a housing filled with compressed gas and the other diameter one in the gas filling submerged displacer is assigned, characterized in that to change the spring constant of the housing (1) having the displacer (2) expands with compressed gas Filled and self-contained secondary housings (4 to 62 or 9 to 12, or 9; to ') which have the same gas pressure as the housing and are designed to be connectable to it0 2. Gas spring according to claim 1, characterized in that the secondary housings, which can be connected to the housing (i) as independent, a different size individual housing (4, 5 and 6) is formed and Via a continuous pipeline (7) by means of valves (8) in any order can be connected to the housing., 3. Gas spring according to claim 1, characterized in that that the displacer (2) receiving the housing (1) is designed as a cylinder Around which the associated cylindrical secondary housing (9 to 12) are arranged concentrically, each on an identical end face through a common Lid (14) are completed in which a hollow bored in the cover and mounted radially in the axial direction the axial bore (16) mounted in the main housing opening rotary valve (15) is whose axial bore via transverse holes (18) of the slide casing and cover one after the other Can be connected to the cylindrical secondary housings. 4. Gas spring according to claim 1 characterized in that with a concentric arrangement of the secondary housing (9'10 ') around the main housing (1) the common, one end of the housing closing off Cover (20) on the underside in annular, the secondary housing receiving steps (21 and 22) and provided with an axially displaceable valve spindle (23) is, by means of which the secondary housing extending axially and radially in the cover Channels (24 and 25) are successively connectable to the main housing. 5. Gas spring according to claim 1, characterized in that at one Arrangement of the secondary housing (9 and 10 ') about half the cross-sectional circumference of the Main housing (1) around in the common, which terminates one end of the housing Cover (30) for each secondary housing one with the shaft protruding and one duct (32) leading to the main housing, closing valve (31) intended is, which on the lid a rotatable dial (35) is assigned to successive depression of the valve stems on the underside over the thickened half the circumference around the valve lift Blank page