HU182368B - Energy storing frame suitable for moving equipments - Google Patents

Abstract

An energy storing stand for the displacement of equipments, consiting of an equalizing cylinder and a control cylinder, as well as of a load-carrying plate having been arranged on the piston rod of the equalizing cylinder. The essence of the invention lies in that the space below the piston of the equalizing cylinder is connected to a levelling tank via a conduit and a way-valve being suitable for opening and closing said conduit, while the space below the control piston of the control cylinder and the space above the control piston are connected to the control input of the way-valve through a check-valve each.

Description

BACKGROUND OF THE INVENTION The present invention relates to an energy storage rack for moving equipment comprising a balancing roller and a control roller, and a load-bearing plate arranged on the plunger rod of the balancing roller. 5

Known energy storage racks, such as. TV camera stands, drawers, are generally equipped with counterweights and a hydraulic telescope and, as required by regulations, are portable, and are equipped with a mounting device in addition to the adjusting device.

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 capable of moving the device without moving the device.

The essence of the invention is that the space below the piston of the balancing cylinder is connected to a balancing tank via a line and a valve for opening and closing the line, while the space below the piston of the master cylinder and the space above the piston are connected by a non-return valve. is connected to the control valve control input.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT The invention is illustrated in more detail with reference to the exemplary embodiment shown in Figure 1, in sectional view of an embodiment of an energy storage rack according to the invention.

The load-bearing plate 1 of the rack shown in the figure is arranged on the piston rod 4 of the piston 3 of the balancing cylinder. The part of the piston rod 4 in the vicinity of the load-bearing plate 1 is preferably solid, while its lower part is formed as a control cylinder 6 for guiding the control piston 5 as a hollow cylinder. The control piston 5 has a piston rod 7 formed as a double-walled tube, which connects the inner channel 8 in your piston 7 with a non-return valve 11 through one of the channels 10 connected to the other end of your piston 7.

The piston rod 7 is located at the lower lid of the balancing cylinder 2 to the balancing cylinder 2. however, the inner channel 8 in your plunger 7 and the tube 12 passing through it are guided through the lower lid 20 of the balancing cylinder 2. The tube 12 has an upper opening 13 and a lower opening 14. The upper opening 13 connects the inner cavity of the tube 12 with the space 15 beneath the control piston 5 and is preferably located just below the control piston 5, while the lower opening 14 is arranged below the equalizing cylinder 2 of the tube 12 and through a channel 16. and is connected to another non-return valve 17.

The non-return valves 11 and 17 are arranged in such a way that the inner duct 8 and 7, respectively, are arranged. they open at flow from the tube 12 and close at flow 30 at the opposite direction. The non-return valves 11 and 17 are output 182368

The air flows freely from the expansion vessel 21.

Simultaneously, due to the increase in space 9, air is introduced from the atmosphere into the space 9 above the control piston through an internal channel 8, one channel 10 and one throttle check valve 5 which is connected to the space 9 above the control piston. Likewise, the smoothing process can be written off in a downward motion.

Charging the system it is emptied via the feed line 27.

Patent claims

Claims (10)

Patent claims An energy storage rack for moving equipment, comprising a balancing roller and a guide roller, and a load-bearing plate arranged on the piston rod of the balancing roller, characterized in that the piston (3) of the balancing roller (2). The space (20) is connected to a leveling vessel (21) via a conduit (22) and a path (18) for closing the conduit (22), while the control piston (5) of the control cylinder (6) and the The space (9) above the control piston (5) is connected via a non-return valve (11, 17) to the control input of the travel valve (18). The rack according to claim 1, characterized in that the balancing roller (2) and the guide roller (6) are arranged coaxially 30, that the piston rod (4) of the piston (3) of the balancing cylinder (2) is a tube having an inner surface formed as a surface for guiding the piston (5) of the control cylinder (6). An embodiment of the stand according to claim 2, characterized in that the piston rod (7) of the control piston (5) is disposed axially in the piston (3) of the balancing cylinder (2) but sealed relative to the piston (3). . 40 An embodiment of the stand according to claim 3, characterized in that the piston rod (7) of the control piston (5) is fixed to the lower cover of the balancing cylinder (2). An embodiment of a rack according to claim 3 or 4, characterized in that the control piston (5) The piston rod 45 (7) is formed as a double-walled tube having an inner channel (8) in the tube through the control piston (5) to the space above the control piston (5) to the other end of the piston rod (7) through a channel (10). one of the non-return valves of connector (11). 6. A rack according to any one of claims 1 to 5, characterized in that the space (15) under the control piston (5) is connected to the other non-return valve (24) via an opening (13, 14) and another channel (16). 7. An embodiment of a stand according to claim 6, characterized in that the upper opening (13) in the piston rod A tube (12) 60 (7) coaxially surrounding the inner channel (8) with a space (15) below the control piston (5), while a lower opening (14) located under the lower cover of the balancing cylinder (2) ) through another channel (16) to the other non-return valve (17). 8. Figures 1-7. The rack according to any one of claims 1 to 4 is connected together to the control input of an open-close travel valve 18. The pilot valve 18 is an exemplary remotely operated shut-off valve. Incidentally, the check valve 18 is incorporated in a conduit 22 which connects the space 20 below the piston 3 with the reservoir 21 through an opening 19 at the bottom of the expansion cylinder 2. A throttle valve 23, 24 is connected to the atmosphere between one channel 10 and one check valve 11 and the atmosphere, and between the other channel 16 and the other check valve 17 and the atmosphere. , respectively. to provide air suction from the atmosphere. Preferably, the filling vessel 27 is connected to the balancing vessel 21 via a line 22 between the balancing vessel 21 and the path valve 18 with a stopper 25 and a pressure gauge 26. The energy storage rack works as follows: The mass M on the load-bearing plate 1 is equalized by the pressure of air or gas enclosed in the balancing cylinder 2. When lifting the weight M, When lowered, the balancing air or gas flows into or out of the balancing vessel 21. from there back. The flow is through the two-way road 182 Valve. This is the main circuit for balancing the stand. The principle of balancing the rack is that, when at rest, the travel valve 18 disconnects the balancing cylinder 2 from the balancing tank 21, thereby automatically applying a balancing pressure M in the balancing cylinder 2. However, if the rack is moved in any direction with the mass M, the valve 18 will allow free flow between the balancing cylinder 2 and the balancing tank 21 so that the volume change 20 of the piston 3 of the balancing cylinder 2 may be compensated. As the volume 28 above the piston 3 of the balancing cylinder 2 also changes, the space 28 must be connected to the atmosphere via an arrow 29. The channels and fittings connecting the control cylinder 6 to the control valve inlet 18 form a secondary circuit for the rack balancing apparatus. In the example, the control cylinder 6 is configured such that the control cylinder 6 moves and the control piston 5 stands relative to the balancing cylinder 2. After the inner channel 8 of the piston rod 7, formed as a double-walled tube, the space 9 above the control piston 5 is connected via one channel 10 and one throttle check valve 23, while the tube 12 connects the space 15 below the control piston 5 through the other throttle valve 55 to the atmosphere, one through the non-return valve 11, or in turn, it is connected via a non-return valve 17 to the control input 18 of the check valve. If the piston 3 is in any direction e.g. As it moves upward, air from the space 15 is discharged through the upper opening 13, the pipe 12, the lower opening 14, the other channel 16, and the other throttle check valve 24. the other opens the way valve 18 through the non-return valve 17 and the control valve inlet of the way valve 18, so that the increased space 20 has an embodiment 65, characterized in that the way valve (18) is a remotely controlled shut-off valve. 9. Figures 1-8. A rack according to any one of claims 1 to 6, characterized in that between the common point of one channel (10) and one non-return valve (11) and one throttle non-return valve (23) between the atmosphere, the other channel (16) and the other a non-return valve (24) is connected between the common point of the non-return valve (17) and the atmosphere. 10. Figures 1-9. Embodiment 5 according to any one of claims 1 to 3, characterized in that the filling tank (25) with a stopper (25) and a pressure gauge (26) is connected to the equalization tank (21). 1 drawing, 1 figure Responsible for: Kiajágert: Director _of Economic Food Law Publishing House $ 6.5609.66-4 Alföldi Nyomda, Debrecen Chief Executive Officer: István Benkő Chief Executive Officer