FI57650B - HYDRAULIK ELLER PNEUMATISK ANORDNING - Google Patents

Description

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Patent and registration authorities Amttktn uthgd och uti.skr) ft «n publkend 30.05.80 (32) (33) (31) Pnrdectjr« tuelkeu »—Begird priority 21 + .03.72 Sweden-Sweden (SE) 3859/72 (71) AB Bygg- och Transportekonomi (BT), Svarvargatan 8, Mjölby, Sweden- "Sverige (SE) (72) Anders Ivar Bryntse, Mjölby, Karl-Erik Berkestad, Linköping,

The present invention relates to a hydraulic or pneumatic device comprising a cylinder and piston system for providing a quick stroke and a working stroke, wherein the piston, which is a hydraulic or pneumatic device, is provided by a hydraulic and pneumatic device. consists of a plunger-shaped submersible piston with two pressure surfaces, a bearing projecting from the bottom of the cylinder, the device is specially designed for goods handling trolleys, eg fork-lift cranes.

Fork-lift cranes are known, e.g. from U.S. Pat. No. 3,567,211 + 0, in which a hydraulic or pneumatic device can perform a rapid stroke and a work stroke depending on the load. Said device consists of a cylinder with a piston and a roller diaphragm seal to provide said quick / working effect. however, the device is bulky and cannot be replaced by an existing crane device that is designed to perform only the quick shock that apparently precedes the work shock. The same drawbacks are found in the device described in U.S. Patent No. 2,281+,228.

Known such fork cranes have a fixed transmission between the movement of the pump-piston and the movement of the lifting piston. The transmission is arranged so that at the maximum load of the fork crane it is possible to effect the movement of the pump piston by means of a manually operated lifting rod system. Thus, the transmission is not effective when lifting light loads or with an unloaded fork-lift truck, as is the case later, before the fork-lift truck pushed under the load is pumped up into contact with the load. This height of the unladen lifting movement depends on the structure of the pallet and usually varies between 15-2 + 5 mm. The standard transmission of the fork lift is selected so that the pump spray gives about 10 mm of movement to the lifting piston.

The object of the present invention is to provide a lifting device which, due to its structure, can be made so small that it can of course replace lifting devices which perform only one working stroke.

This object is achieved by the invention, which is characterized in that the two pressure surfaces of the plunger are arranged in two separate cylindrical working chambers arranged axially and in line with the piston and separated from each other in the direction of the piston stroke, the working chambers on the other hand being connected to the plunger and on the other hand, each is individually connected via lines to a source of pressure medium, one of these lines being provided with a shut-off valve which opens under a certain pressure only when the pressure reaches a certain maximum value and a non-return valve is arranged in the pipe.

It is fundamental to this invention that the cylinder, together with the ratchet rod, is shaped so as to form two working carriages external to the piston rod. Thus, it is possible to feed the substance almost anywhere along the entire length of the cylinder. The structure also becomes simple and economical and has a minimum number of moving parts. The method is very well suited for cylinders with a relatively short stroke length, such as in fork crane cylinders, where the freedom to select the medium in question allows the cylinder according to the invention to be created, which is completely related to a well-established and well-justified embodiment.

The features of the invention are defined in the claims after the description.

The invention will now be described with reference to the accompanying drawing, which shows in longitudinal section a device according to the invention.

The drawing has 1 cylinder body containing a plunger 5 corresponding to a piston rod, which has a uniform diameter. This piston is practically tightly and easily guided against the cylinder body 1 by guides 3 and 2+. The plunger 5 is further provided with a central bore 7. Here, there is a freely mounted tube 2, which protrudes upwards from the bottom of the cylinder body 1, but is detached from it. The bore 7, inside the tube 2, the channels 8 and 10, the plunger 5 and the channels 6 and 13 in the tube 2 and the ball 11 and the stop 12 allow the pressure medium to pass from the working chamber 1 to the second working chamber 15, but not in the opposite direction, because the ball 11 then seals the stop 12 against.

The cylinder body 1 also includes a reservoir 16 for the pressure medium and 3 57650 passages 17 and 18, which allows the pressure medium to flow from the reservoir 16 into the working chamber 1U, but not in the opposite direction, since the valve ball 19 then seals against the stop 20.

The cylinder body further includes a passage 21 which, in a manner known per se, with a valve system not shown here, is connected to the pump during pumping up and to the tank 16 when lowering.

In addition, the cylinder body 1 in the hole 29 includes a valve consisting of a hole 22, a ball 23, a piston 2k, an O-ring 25, a spring 26 and a screw 27 provided with a hole 28. A piston 2h with an O-ring 25 is easily movable through the hole 29 regarding. When the spring-loaded valve opens, the channel 21 is connected to the working chamber IU via the channel 22, the ball 23 and the channel 30.

The device works as follows:

To cause the plunger to protrude, the pressure medium is compressed, "" through a valve system known per se, through the channel 21 into the working chamber 15 and through the channels 8 and 10 into the bore 7, the ball 11 being pressed tightly against the stop 12 and the tube 2 pressed against the bottom of the cylinder body 1. Since the connection of the channel 21 with the working chamber IU is closed so that the ball 23 is pressed by the spring 26 by the piston 2b tightly against the opening of the hole 22, the pressure in the pressure medium only acts in the bore 7. Thus a large movement in the plunger 5 is obtained. at the same time, the pressure medium is also sucked from the tank 16 through the channel 17, past the ball 19 and through the channel 18 into the working chamber 1U. When the plunger 5 is loaded so that the pressure of the pressure medium reaches a value such that the total force acting on the cross-sectional area of the hole 22 exceeds the spring force 26, the ball 23 is depressed and the medium is allowed to flow into the chamber formed by the hole 29 and the piston 2b IU. The ball 19 then rises against its abutment 20 and prevents the medium from flowing into the container 16. The pressure of the medium then immediately drops to a value corresponding to the load on the plunger 5 divided by its cross-sectional area. The screw 27 is provided with a hole 28 to ensure that the cross-sectional surface of the piston 2k facing the spring 26 is always under air pressure. Said connection does not always have to take place with the valve 23-39 shown and described here, but can be achieved with a small gap or the like, whereby pressure equalization can take place at a certain piston rod load and pumping speed. However, such a system is dependent on the viscosity of the pressure medium and also causes losses with the constriction caused by the gap. The described switch valve 23-29 is independent of viscosity differences and can in principle be made lossless.

In order to calculate the immersion pattern, the duct 21, via a valve system known per se, is connected to the tank 16, where there is always approximately

Claims (2)

5 7 6 5 0 u barometric pressure. Thus, the pressure medium under overpressure in the working chamber 15 can flow freely into the tank 16, whereby the medium in the working chamber 1¾ can also pass into the tank 16 through channels 6 and 13, past the ball 11, through the pipe 2 interior, bore 7, channels 8 and 10, into the working chamber 15 and channel 21. Instead of hydraulic oil, this described device can be used with the gas or liquid as the pressure medium. The invention is of course not limited to the embodiment shown, but can be modified within the scope of the idea underlying the invention. A hydraulic or pneumatic device comprising a cylinder and piston system for providing a quick stroke and a working stroke, wherein a piston consisting of a piston rod-shaped plunger with two pressure surfaces is supported by a tube projecting from the bottom of the cylinder, characterized in that the plunger (5) has two pressure surfaces. arranged in two separate working chambers (IU, 15) formed in a cylinder (1), arranged axially and in line with each other along the piston (5) and separated from each other in the direction of the piston stroke, the working chambers (lit, 15) being connected to the plunger (5) ) and the channels (6, J, 8, 10, 13) formed in the pipe (2) and on the other hand are each separately connected via lines (22, 30 and 21) to a source of pressure medium, one of these lines (22, 30) being provided with a shut-off valve ( 23), which opens under the action of the pressure of the medium only when the pressure has reached a certain maximum value and a non-return valve is fitted in the pipe (2) ( 11, 12, 13), which allows the flow of pressure medium between the working chambers (li +, 15) in only one direction. Device according to Claim 1, characterized in that the tube (2) is detached from the bottom of the cylinder (1).