RU2494886C1 - Self-propelled operator seat - Google Patents

Abstract

FIELD: transport.

SUBSTANCE: invention relates to machine building. Seat comprises the base, carcass with pad and backrest interconnected with scissors-type guide. Damper is hinged to said carcass and consists of three articulated resilient element. Helical coil spring is arranged at the center to rest, by one end, upon chassis moving parts web and, by opposite end, on hydraulic damper circular flange. Hydraulic damper is composed of two aligned cylindrical inner and outer sleeves that make a tight annular chamber. Chamber top part is closed by moving circular sealed flange. Chamber bottom part is sealed by circular washer resting on bottom eye opening. Circular piston with orifices is arranged for passage of damping fluid. Said piston is articulated with annular flange whereon thrusts the spring. Lower end of guide rod is rigidly jointed with lower shackle while its upper end is locked on aforesaid web by flexible element made from elastomer.

EFFECT: higher efficiency of damping in horizontal direction, simplified design and better performances.

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Description

The invention relates to the design of seats, in particular to devices for vibration isolation of the seats of operators of self-propelled agricultural machinery.

The closest technical solution to the technical nature and the achieved result is a driver’s seat of a self-propelled equipment containing a base, a frame with a pillow and a back, interconnected by means of a guiding device of the “scissors” type, and a shock-absorbing device, articulated through an arm with a frame (RF Patent 2281864 - prototype).

The disadvantages of the known device are: relatively low vibration isolation properties in the horizontal direction, as well as the complexity of the maintenance of the shock-absorbing device.

The technical result is an increase in the effectiveness of vibration isolation in the horizontal direction, simplifying the design and improving operational properties.

This is achieved by the fact that in the operator’s operator’s seat containing a base, a frame with a pillow and a back, interconnected by means of a “scissors” type guiding device and a shock-absorbing device made integral, consisting of three series-connected elastic elements, one of which is a cylindrical a coil spring located in the middle part and resting at one end into the jumper of the moving parts of the chassis, and the other - into the movable annular flange of the hydraulic damper, which is the image It is surrounded by two coaxial cylindrical sleeves - external and internal, with the formation of a sealed annular cavity, the upper part of which is closed by a movable annular flange with seals on the internal and external surfaces, and the lower one is hermetically closed by an annular washer resting on a recess in the lower earring, and an annular cavity is placed in the annular cavity a piston that divides the cavity into two parts: the upper and lower, while the throttle holes are made in the piston for passage of the shock-absorbing medium from the lower part of the annular cavity into upper and vice versa, while the piston is pivotally connected by at least three rods with an annular flange on which the spring rests, and the guide rod is coaxially mounted to the sleeves - external and internal, with its lower end rigidly connected to the lower earring, and the upper it is fixed on the jumper through an elastic element made of elastomer, which serves to exclude hard blows during suspension breakdown.

Figure 1 shows a General view of the proposed seat, figure 2 - presents a diagram of the shock absorbing device of the seat.

The operator’s operator’s seat contains a base 1, a frame 2 with a pillow 4 and a back 5, interconnected by means of a guiding device 3 made according to the type of “scissors” (Fig. 1), and an arm 6, hinged, is attached to the frame 2, for example, spherical washers (not shown in the drawing) and two nuts 9 and 10, with a support-adjusting element 8 of the shock-absorbing device 7 (Fig. 2).

The shock-absorbing device 7 (FIG. 2) includes a base 11 on which the lower earring 27 is pivotally fixed by means of an arm 28 rigidly connected to the base. In the bracket 28, the lower earring 27 is fixed by means of the axis 29 and the elastomer sleeve 26 coaxial with it from the elastomer. The movable parts of the vehicle seat are connected via a rigidly connected jumper 13 to the rod 18, the lower part of which is rigidly connected to the lower earring 27. The upper end of the rod 18 is fixed on the jumper 13 through the elastic element 14 by means of a nut 15 with the washer 16. A coil spring 17 is located between the jumper 13 of the moving parts of the chassis 12 and the movable annular flange 30 of the hydraulic damper.

The elastic element of the shock-absorbing device is made integral, consisting of three series-connected elastic elements, one of which is a coil spring 17 located in the middle part and resting at one end in the jumper 13 of the moving parts of the chassis 12, and the other in the movable annular flange 30 of the hydraulic damper.

The hydraulic damper is formed by two coaxial cylindrical sleeves - external 19 and internal 24 with the formation of a sealed annular cavity 22, the upper part of which is closed by a movable annular flange 30 with seals on the inner and outer surfaces, and the lower one is hermetically closed by an annular washer 25, supported. on a recess in the lower earring 27. An annular piston 20 is placed in the annular cavity 22, which divides the cavity 22 into two parts: the upper and lower. In the piston 20, throttling holes 2 1 are made for the passage of the shock-absorbing medium from the lower part of the annular cavity 22 to the upper one and vice versa. In this case, the piston 20 is pivotally connected by means of at least three rods 23 to the annular flange 30, on which the spring 17 rests. In this case, the guide rod 18 is mounted coaxially to the sleeves - external 19 and internal 24, and its lower end is rigidly connected to the lower earring 27, and the top is fixed on the jumper 13 through the elastic element 14 of the elastomer, which serves to exclude hard blows during the breakdown of the suspension.

The seat of the operator of self-propelled machinery works as follows.

The oscillations of the operator through the guide mechanism 3 are transmitted to the shock-absorbing device 7, while the elastic element perceives vertical loads, thereby weakening the dynamic effect. When applying static load to the seat, it drops down, compressing the spring.

Shock absorbing device operates as follows.

With vibrations of the moving parts of the chassis of the vehicle 12, the jumper 13 is displaced, which leads to elastic deformation of the elastic component of the suspension.

The vibration damping occurs in the hydraulic damper due to energy dissipation as the medium passes through the throttling holes 21 in the piston 20.

Swivel suspension allows you to dampen lateral vibrations of the vehicle. In general, the seat design is efficient, technological and meets the requirements of ergonomics and design.

The proposed technical solution is an effective vibration-protective tool that can be used to protect both equipment and the operator, with ease of maintenance and reliability of the structure in operation. Due to the introduction of a pendulum suspension, additional spatial vibration isolation of the operator is provided in all six directions of vibration (along the three coordinate axes x, y, z and swivel around these axes). In general, the seat design is efficient, technological and meets the requirements of ergonomics and design.

Claims (1)

The operator’s seat of a self-propelled vehicle, comprising a base, a frame with a pillow and a back, interconnected by means of a “scissors” type guiding device, and a shock-absorbing device articulated by an arm with a frame, characterized in that the shock-absorbing device is made integral, consisting of three series-connected elastic elements, one of which is a coil spring located in the middle part and resting at one end in the jumper of the moving parts of the chassis, etc. ogim - into the movable annular flange of the hydraulic damper, which is formed by two coaxial cylindrical sleeves - external and internal with the formation of a sealed annular cavity, the upper part of which is closed by a movable annular flange with seals on the inner and outer surfaces, and the lower one is hermetically closed by an annular washer resting on the undercut in the lower earring, and in the annular cavity there is an annular piston that divides the cavity into two parts: the upper and lower, while the throttle holes are made in the piston I to pass the shock-absorbing medium from the lower part of the annular cavity to the upper and vice versa, while the piston is pivotally connected via at least three rods to the annular flange on which the spring rests, and the guide rod is mounted with a coaxial sleeve of the external and internal, and the lower end it is rigidly connected to the lower earring, and the upper one is fixed on the jumper through an elastic element made of elastomer, which serves to exclude hard blows when the suspension is broken.

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