HU186104B - Energy storing frame suitable for moving equipments - Google Patents

Abstract

The invention relates to an energy storing stand suitable for moving equipment e.g. TV cameras or drawing desks. In the stand, a load- bearing plate, 1, is arranged on the other end of the piston rod of the piston movable in the compensating cylinder, (Fig. 1) or on the telescopic compensating cylinder (Fig. 2). In one embodiment the space 6, Fig. 1, under the piston of the compensating cylinder (or the space of the telescopic compensating cylinder) is connected to a compensating tank 5 through a push- pull coupling-check valve system 7 consisting of two check valves 8, 9, of which the check valve 8 controlling the stream directed to the space under the piston from the compensating tank is an adjustable check valve, which can be pre-stressed to such an extent that pressure increase occurring up to the lower dead centre of the piston could be compensated. In another embodiment (Fig. 2) the space of the telescopic cylinder 4 is coupled to the compensating tank 5 through a guide valve 21, to the control input of which a servo-cylinder 14-16 is connected directly or indirectly, which, on operation of the handle 18, releases the arrestment of the guide valve 21 exclusively for the time of operation of the stand. <IMAGE>

Description

BACKGROUND OF THE INVENTION The present invention relates to an energy storage rack for moving precision devices, which is provided with a load carrier plate at the other end of a piston rod movable in a balancing cylinder or a telescopic balancing cylinder.

Known energy storage racks, such as. TV camera stands, drawing desks, etc. they are usually equipped with a counterweight and a hydraulic telescope, and since it is required by regulations to be portable, for example. the TV camera stands must be made, in addition to the adjusting device, they are also equipped with a fixing device.

There is also known an adjusting and locking device such as that described in DE-AS 2838124 Te, in which the object is moved in an oblique position when the object is moved in a vertical direction and is inclined, while a mechanical brake device is incorporated in the fixing. Both the actuator mechanism and the brake system are actuated externally by means of bowden wires.

Another similar device, described in DE 22 30 892 B 2, consists of a telescope system, the upper, movable part of which has an object to be adjusted (drawing table, apparatus, etc.) and the lower part terminates in a foot. The height adjustment is made by an electric motor - belt drive - spindle nut system. The locking is secured by the self-locking spindle nut connection. The object to be moved is unbalanced and requires external energy to move it.

It is an object of the present invention to provide an energy storage rack in which, after the removal of a fraction of the weight to be moved and of the external moving force, the actuating force required for adjustment is not moved without the arrest of the instrument or apparatus placed on the rack.

The invention is based on the discovery that the movement and stopping of a top piston-balanced piston in a cylinder in a pneumatic or hydraulically lilcus system can be accomplished by lowering the lower part through an anti-stroke ratchet orifice valve system and biasing the pressure up to the lower dead end of the piston, or engaging the cylinder under the piston with a control valve on the balancing tank and releasing the lock provided by the control valve only during actuation.

The object of the present invention is that the space under the piston of the balancing cylinder or the space of the telescopic balancing cylinder is connected to a balancing tank via a counter-stroke switch-check valve system, which is connected to a check tank It consists of a valve, from which the opening and closing non-return valve of the expansion tank to the space below the piston is adjustable and can be biased to a degree that compensates for the increase in pressure to the lower dead center of the piston. Another embodiment of the invention is that the space beneath the piston of the balancing cylinder is connected to the balancing vessel via a control valve which is connected to the control inlet of the control valve directly or indirectly to unlock the control valve only during rack actuation.

The invention will be described in more detail with reference to the following examples.

Figure 1 is a cross-sectional view of an exemplary embodiment of an energy storage rack according to the invention.

Figure 2 is a sectional view of another embodiment of the invention, also in a schematic drawing.

The load-bearing plate 1 of the energy storage rack shown in Fig. 1 is arranged on a piston rod 2. The piston 3 at the end of the piston rod 2 is disposed fixedly in an expansion vessel 5 extending into an expansion cylinder 4. The space 6 under the piston 3 of the balancing cylinder 4 is connected to the balancing tank 5 by the two non-return valves 8, 9 forming a counter-stroke valve 7 system. An opening 11 is provided in the space 10 of the balancing cylinder 4 above the piston 3, through which the piston 3 is expelled as air is drawn up and air is drawn in as the piston 3 moves downwards. The stand is provided with rollers 13 mounted on legs 12 which are adjustable for mobility.

The arrangement may be constructed in a manner different from that shown in the example, e.g. telescopic version, or the expansion vessel 5 may be disposed independently of the rack, in which case the switch-back valve system 7 may be incorporated in the conduit connecting the expansion cylinder 4 to the expansion vessel 5.

Movement by means of a stand is carried out as follows: When lowering the load-bearing plate 1, the fluid used from the space 6 below the piston 3, e.g. gas flows through the non-return valve 9 to the expansion vessel 5 and the non-return valve 8 is closed. At this point, the pressure in the expansion tank 5 is increased and air is introduced into the space 10 above the piston 3. In the desired position, the rack stops steadily, without additional attachment, because the pressure formed in space 6 strikes the piston between the atmospheric pressure of space 10 and the piston together with it. the frictional forces of the moving elements keep a balance.

During lifting, the non-return valve 9 is closed and the fluid used is returned through the adjustable non-return valve 8 from the expansion vessel 5 to the space 6. Meanwhile, air from the space 10 flows through the opening 11 to the outside. The non-return valve 8 must be configured so that it can be pre-tensioned to compensate for the pressure difference between the extreme (lowest and highest) positions of the system.

The embodiment of the invention is illustrated in FIG. 2 by means of a telescopic balancing cylinder 4. Otherwise, a telescopic design may be used in the former embodiment.

The load-bearing plate 1 is mounted on a servo cylinder 14. The rod 16 of the piston 15 of the servo cylinder 14 is operatively connected to the double-acting lever 17. Using the handle 18 of the lever 17, the load-bearing plate 1 can be lowered or raised. The servo cylinder 14 is connected to the control valve 21 via the servo system conduit 19 filling and venting valve. The main branch of the control valve 21 is connected to an overhead line 22 connecting the balancing cylinder 4 and the balancing tank 5.

Moving with the help of a tripod in this ki65 transport example is as follows: All that

-2186104 lifting and lowering are only possible with the handle 18 engaged. When the lever 17 is moved from its rest position to the switching direction, the control valve 21 is opened by moving the piston rod 16 upwards through the conduit 19. However, when lowering by means of the handle 18, the flow from the balancing cylinder 4 is directed to the balancing tank 5, while when raising by means of the handle 18, the medium flows from the balancing tank 5 to the balancing cylinder 4. When the movement is stopped by returning the lever 17 to the rest position, the piston 15 also returns to its original position and the control valve 21 closes.

In the servo cylinder 14 and the system connected thereto, the actuating medium is preferably oil.

The invention is not limited to the embodiments described herein, but encompasses all the exceptions defined by the claims, in particular the claims.

Claims (6)

Patent claims First moving rack Energatárolós precision appliances, which load-bearing plate has compensating cylinder rack at the other end a movable piston rod or telescopic balancing cylinder arranged, characterized in that the balancing cylinder ³⁰ Ovalbumin (4) is a piston (3) of chamber (6) or (4) Square telescopic compensating cylinder (5) compensating for the push-pull switch-return valve system (7) of a container connected, which consists of ³⁵ check valve (8, 9) of the push-pull switch-return valve system (7) comprises two back, of which the countervailing an open / close non-return valve (8) from the reservoir (5) to the space (6) beneath the piston (3), which can be biased to compensate for the increase in pressure to the lower dead center of the piston (3). 5 An embodiment of the stand according to claim 1, characterized in that the lower part of the equalizing cylinder (4) or at least the equalizing cylinder (4) is coaxially arranged in the equalizing tank (5) and consists of two non-return valves (8, 9). the counterclockwise valve ¹⁰ (7) connects the balancing cylinder (4) to the balancing tank (5) through the wall of the balancing cylinder (4), preferably through the bottom of the balancing cylinder (4). 3. Energy storage rack precision equipment 15 having a load-bearing plate at the other end of the piston rod movable in a balancing cylinder or on a telescopic balancing cylinder, characterized in that the space (6) below the piston (3) of the balancing cylinder (4) or the balancing cylinder (4) it is connected to the balancing tank (5) via a control valve (21), which is connected to a servo cylinder (14) which releases the control valve (21) only during locking operation of the stand. A rack according to claim 3, characterized in that the servo cylinder (14) is connected to the control inlet of the control valve (21) via a filling and venting valve (20). An embodiment of a rack according to claim 3 or 4, characterized in that the servo cylinder (14) is arranged coaxially between the load-bearing plate (1) and the balancing cylinder (4) with the balancing cylinder (4). A rack according to claim 5, characterized in that a double-acting lever (17) terminating at the bottom of the servo cylinder (14) terminates in an actuating handle (18).