JPS61127007U - - Google Patents

Description

[Brief explanation of the drawing]

Fig. 1 is a block diagram showing the basic structure of the shock absorber control device of this invention, Fig. 2 is a perspective view showing the overall structure of an embodiment of the above device, and Fig. 3 is a longitudinal section showing an example of a variable damping force shock absorber. 4 is a diagram showing the relationship between the piston speed and damping force of the variable damping force shock absorber, FIG. 5 is a block diagram showing the configuration of the controller, and FIG. 6 is a diagram showing the relative displacement between the sprung mass and the unsprung mass. A diagram showing the relationship between xR and the output voltage from the F/V converter, Figures 7a and b are time charts showing the case of bottoming as an example of the effect of this invention, and Figure 8 is a diagram showing the relationship between xR and the output voltage from the F/V converter. FIG. 9 is a flowchart showing the procedure for setting the initial value of the sprung mass displacement of each wheel; FIG.
Figure 0 a and b show the sprung mass displacement in the device of this invention in the case of bottoming shown in Figure 7 a and b;
Diagram showing changes in relative speed and damping force, Figure 11a
and b are diagrams showing changes in sprung mass displacement, relative displacement, relative velocity, and damping force when bottoming is performed using a conventional device. 1, 1a to 1d... variable damping force shock absorber, 2, 2a to 2d... sprung mass displacement measuring means,
3, 3a to 3d...Relative speed measuring means, 4...Sign determining means, 5...Control signal outputting means, 12,1
2a-12d... Acceleration sensor, 13, 13a-
13d... Stroke sensor, 14... Controller, 15... Outer cylinder, 16... Rod, 19...
Tube, 20... Piston, 27... Vasopath, 29... Plunger, 30... Return spring, 31, 31a to 31d... Solenoid,
33, 33a to 33d...Coil, 37, 37a
~37d, 38, 38a ~ 38d...Integrator, 4
1,41a-41d...L/C oscillator, 42,4
2a to 42d...F/V converter, 45...Microcomputer, 46...Interface circuit,
47... Arithmetic processing unit, 48... Storage device, 49
, 49a-49d...drive transistor, A...
Piston upper chamber, B...Piston lower chamber.

Amendment May 29, 1980 The brief description of the drawing is amended as follows. In the 8th to 9th lines of page 25 of the specification, the phrase ``Fig. 10 a and b'' has been corrected to ``Fig. 10''. In the 11th and 12th lines of page 25 of the specification, the phrase ``FIG. 11 a and b'' has been corrected to ``FIG. 11''.

Claims (1)

[Scope of utility model registration request] a variable damping force shock absorber capable of switching the damping force into at least two stages of low damping force and high damping force by inputting a control signal; a sprung mass displacement measuring means for measuring vertical displacement on the spring; Relative velocity measuring means for measuring relative velocity between unsprung masses, and sign determining means for determining the sign of the sprung mass displacement measured by the sprung mass displacement measuring means and the sign of the relative velocity measured by the relative velocity measuring means. Based on the determination result of the sign determination means, if the sign of the sprung mass displacement is positive and the sign of the relative velocity is positive, and if the sign of the sprung mass displacement is negative and the relative velocity outputs a control signal for reducing the damping force of the variable damping force shock absorber to a low damping force when the sign of is negative, and the sign of the sprung mass displacement is positive and the sign of the relative speed is negative. and when the sign of the sprung mass displacement is negative and the sign of the relative speed is positive, the control outputs a control signal that makes the damping force of the variable damping force shock absorber a high damping force. A shock absorber control device comprising a signal output means.