RU56284U1 - VEHICLE SEAT WITH ACTIVE TYPE SUSPENSION - Google Patents

Abstract

The invention relates to transport machinery, namely to the suspension of car seats and agricultural tractors. The technical result from the use of the invention is to increase the efficiency of damping the vertical vibrations of the seat in a wide amplitude-frequency range. The technical result is achieved by the fact that simultaneously with the main suspension system of the seat suspension (coil spring - hydro-damper), an additional active elastic element is used in the form of a double-acting pneumatic cylinder with a pneumatic system equipped with an electronic control system including a motion sensor and a vibration sensor for tracking rms acceleration mounted on the seat frame.

Description

The utility model relates to transport engineering, namely to the suspension of car seats and agricultural tractors.

A known design of the vehicle seat, selected as a prototype, containing a base, a frame with a pillow and a back, interconnected by means of a guiding device in the form of parallel upper and lower pairs of strips parallel to one another, the ends of which are pivotally mounted respectively on the upper and lower base brackets and a seat frame, and a shock-absorbing device made in the form of a suspension bracket placed between the base and the upper pair with a damper and a mechanism for adjusting suspension stiffness, consisting of an elastic suspension element pivotally mounted on the base of the lower support flange in the form of a cylindrical helical spring and an upper stop flange pivotally connected to an anti-friction material slider interacting with the upper pair of rigidly interconnected strips and having mutually perpendicular intersecting holes, some of which are made smooth and interact with cylindrical adjustable supports of the upper stop flange, while others, threaded, interact operate with the adjusting screw, (description to RU No. 2261809, MPK ⁷ B 60 N 2/50).

The main disadvantage of the known design is the low efficiency when working in a wide amplitude-frequency range, because here, the level of rms accelerations taking place in oscillatory processes is not taken into account.

The objective of the utility model is to improve the performance of the seat suspension.

The technical result from the use of the utility model is to increase the damping efficiency of vertical seat vibrations in a wide amplitude-frequency range.

The technical result is achieved in that in the suspension of a seat containing a base, a frame with a pillow and a back, interconnected by means of a guiding device in the form of upper and lower pairs of strips parallel to one another, the ends of which are pivotally mounted respectively on the upper and lower brackets of the base and the frame of the seat, and the shock absorbing device of the suspension of the seat, made in the form of separately located between the base and the upper pair of trims of a coil spring with hydraulically a damper, and a further active elastic element in the form of a pneumatic cylinder double-acting pneumatic system provided with an electronic control system comprising a displacement sensor and a vibration sensor to monitor the RMS acceleration, mounted on the seat frame.

Figure 1 presents a schematic diagram of the suspension of the seat.

The active suspension of the vehicle seat consists of a seat frame with a cushion and backrest 1, base 2, upper 3 and lower 4 pairs of trims parallel to each other, the ends of which are pivotally mounted respectively on the upper and lower brackets of the base 2 and seat frame 1, a coil spring 5, installed between the base 2 and the upper pair of strips 3 of the seat suspension, a hydraulic damper 6, a double-acting pneumatic cylinder 7, installed between the base 2 and the seat frame 1, two electro-pneumatic valves 8, two pneumatic throttles 9, receiver 10, interconnected with two working cavities of a double-acting pneumatic cylinder 7 with pneumatic lines 14, electronic control unit 11, sensor

accelerations (vibroaccelerometer) 12 mounted on the seat frame 1 and a position sensor (reochord resistor) 13 mounted between the base 2 and the seat suspension frame 1.

The device operates as follows.

During operation, the seat suspension is exposed to vibration transmitted from the environment and vehicle mechanisms. This effect is sequentially transmitted to the base 2 and the seat 1. When vibrations occur in the seat 1, an electrical signal appears on the acceleration sensor 12, which is fed to the electronic control unit 11, where it is further processed. The electronic unit 11 controls the operation of the electro-pneumatic valves 8, with the help of which air is supplied from the receiver 10 to the working cavities of the pneumatic cylinder 7 by means of the pneumatic lines 14. The control signal from the electronic unit 11 is not supplied continuously, but only when the acceleration caused by vibration, seat 1 exceeds permissible values. This may occur as a result of the vehicle hitting a large roughness or due to the coincidence of the natural frequency of the seat suspension oscillations with the frequency of the driving force, i.e. hit in the resonance zone. The process of supplying a control signal to the electro-pneumatic valves 8 is not carried out simultaneously, but alternately, depending on the position relative to the equilibrium state or the initial position of the seat 1. This position is determined at the beginning of operation using the position sensor 13 signal, which also comes in electronic control unit 11, where it is subsequently processed. The signal level from the position sensor 13 depends on the weight of the driver. Thus, air is supplied to the supra piston cavity of the pneumatic cylinder 7 when the seat 1 approaches its extreme lower position and air is supplied to the rod cavity of the pneumatic cylinder 7 when the seat 1 approaches

to the highest position, due to which the stiffness of the suspension of the seat progressively increases, either during the working stroke or during the rebound. Such an active change in the elastic characteristics of the suspension of the seat allows you to bring its working process into the resonance zone or to reduce the amplitude of the oscillations and to prevent breakdown at the working stroke or the rebound during severe operating conditions. The optimum static characteristic of the seat suspension can be set by adjusting the intensity of air supply to the working cavities of a double-acting pneumatic cylinder 7 from the receiver 10 with pneumatic chokes 9. The receiver 10 can be filled from the pneumatic system of the tractor or car.

Under favorable operating conditions, the air supply in the cavity of the pneumatic cylinder is stopped and the suspension operates in a softer mode, determined by the stiffness of the spring 5 and the damping coefficient of the hydro-damper 6.

Claims (1)

An active vehicle seat suspension comprising a base, a frame with a cushion and a back, interconnected by means of a guiding device in the form of parallel upper and lower pairs of planks parallel to one another, the ends of which are pivotally mounted respectively on the upper and lower brackets of the base and seat frame, and A shock-absorbing device, characterized in that the shock-absorbing device for the suspension of the seat is made in the form of separately placed between the base and the upper pair of laths -cylindrical spring and a hydraulic damper and a further active elastic element in the form of double-acting pneumatic cylinder with a pneumatic system provided with an electronic control system comprising a displacement sensor and a vibration sensor to monitor the RMS acceleration, mounted on the seat frame.