NO161338B - BUILDING PANEL. - Google Patents

Description

Hydraulically driven impact device.

The invention relates to a hydraulically driven impact device with an impact stone which is movable in a cylinder between a turning position on the work side and a turning position remote from the tool, as well as a l'ra piston separated and in the same housing arranged s t empelsleide 1'or redirection of the movement of the impact piston. With an impact device of this kind, it is already known to arrange the guide slide... in the same housing as the impact piston, but to separate it from this. With this device, relatively long connecting lines are required between the cylinder of the 3-wheel drive and the cylinder of the impact piston. During operation, in this case, fluctuations may occur in the liquid present in the connecting lines, the effects of which become stronger the longer the lines are. In addition, the known device also requires a relatively large amount of space, so that the device becomes heavy and difficult and heavy to handle. However, the disadvantages of the known device can be avoided when, according to the invention, the piston slide is arranged in the same cylinder as the impact piston, preferably above the impact piston. With the help of this design of an impact device, it is possible to manage with short connecting lines between the guide rail cylinder and the cylinder of the impact piston and in this way to the greatest possible extent to eliminate unfavorable oscillation phenomena and also to build the impact device compressed and thus light and space-saving.

The impact device's weight can be reduced with simultaneously increased efficiency when, in a further design of the invention, the common cylinder for the piston slide and the impact piston is connected to a hydraulic accumulator which is preferably connected to the pressure line that feeds the cylinder.

According to a further embodiment of the invention, the piston slide has an axial through bore which can be connected to the main pressure line via a branching line from the main pressure line. In this way, it is possible to shorten the length of the connecting cables between the cylinder of the guide slide and the cylinder of the impact piston, and with this hollowing out of the guide slide, the weight is also reduced.

The invention shall be described in more detail in the following so that further features and advantages will become apparent, and with reference to the drawings which purely schematically show an embodiment of the device according to the invention, as fig. 1 - 9 are longitudinal sections during different phases of the device's work cycle.

A complete work cycle proceeds starting from

the one in fig. 1 showed the initial position as follows:

High-pressure sewing box through the pressure connection 6 fills the accumulator

pure 5, whose membrane 16 is pushed back. Thereby, the pressure in the channels 6, 8 and 9 in the annular chamber 19 is released. The liquid pushes the impact piston 2, the auxiliary slide 2a, and the piston slide 3 upwards and compresses the spring 17. The liquid contained in the chamber 18 is forced out into the channel 7 through the channel 10 until the guide edges a and b are adjusted. As soon as this takes place (see fig. 2), the liquid is emptied through the overhead channels 12 and the plug line 14, the annular space 15 and the channel 11 and the outlet 7. The space 15 is delimited by the piston 2 and the fixedly connected and coaxially arranged auxiliary -slei.de 2a. i The movement of the piston continues until the spring 17 is together.

the pressure to the one in fig. position shown in 3, where the guide edge c of the piston slide 3 comes into contact with the guide edge d in the housing 1, as the pressure has reached a value which, in a known manner, depends on the force

ten of the counteracting and preset spring 17 and the surface of the ten annular chambers 19•

At this stage, the device can be regarded as prepared for readout of the stroke, the prevailing pressure being referred to as "minimum tension pressure".

If the stroke is not relieved immediately, the pressure rises further,

as the collection chamber 5 is charged until it has reached the circuit

lbpét's lnnsetting pressure.

The release of the stroke is triggered by a pressure drop

in the chamber 18 in such a way that the resultant of those on the piston 2

acting forces change direction.

This increase in pressure in the chamber 18 can be achieved by means of various devices indicated at 20, such as:

a) With a constantly quantitatively adjusted supply of liquid

under high pressure, whereby a pressure is maintained in the chamber 18 which lies between the maximum pressure denoted pa and the minimum pressure denoted pe, the value of which increases with progressive narrowing of the gap between the guide edge c of the piston slide 3 and the guide edge d of the housing 1 ;

b) using a valve set at a higher pressure

than the minimum pressure;

c (by means of an externally operated valve. The operator can

in this case take place depending on the position of the chisel in the hammer.

Due to the construction, the change in direction of the resulting forces in the first round will only have an effect on the impact temp.

let 2 which is usually exposed to a hydraulic force which can be

is equal to the product of the maximum pressure times the effective surface of the piston at point S. The hydraulic fluid returns

non channel 8, the impact piston 2 is displaced as shown in fig. 1", as it gets an accelerated movement, and whereby the accumulator 5 le-

is the wash necessary for the piston's rapid displacement. The piston slide 3 is kept in contact with the guide edge d of the housing by

using the hydraulic force exerted in the annular space 21

and which akylies the pressure difference between the aforementioned pressures pa and pe, soa is "drier than the spring's 17 force.

The guide edge of the auxiliary slide 2a then fashions as shown in • fig. 5, the house's edge f, whereby the chamber 22 is still closed off from the drain.

As the impact piston 2 continues its movement, the guide edge g of the auxiliary slide 2a crosses the edge h of the housing as shown in fig. 6, whereby the chamber 22 is connected to the pressurized liquid through the overhead valve 12 and the connector lj. The resulting forces exerted on the piston slide 3 therefore change direction and the piston slide 3 in turn carries out accelerated movement in the same direction as the movement of the piston, the piston slide being actually exposed to the action of the spring 17 and, secondly, to a hydraulic force due to the effect of the difference between the pressures pa and pe on the annular surface 23.

When, as shown in fig. 71 the edge of the piston slide 3 meets the edge of the housing j, the supply of high-pressure fluid is interrupted and the piston 2 continues its movement by means of inertia up to the tool city k.

When the piston slide 3, as shown in fig. 8, likewise continues its movement, its edge a will pass the edge b of the housing, whereupon the chamber 18 is put in connection with the waste through the channels 10 and 7. The singpiston 2 lean then again begin its movement towards kiargjbring or tension tilling.

During the continued movement, as shown in fig. 8 and 9, the edge 3 of the piston slide meets the edge 1 of the housing, as the non-compressible liquid in the chamber 2J is collected or held and the piston slide is braked and brought to a standstill. At this stage, however, the piston 2 and the auxiliary slide 2a unite with the piston slide 3 again and feed the latter upwards. The cycle ends and a new cycle begins.

Of course, the invention can be varied in different ways. Thus, the downward movement of the auxiliary slide 3 can be produced with the help of non-hydraulic means, which mediate the chamber 23 disappearing. This force can either be mechanical (spring) or pneumatic. It is also possible to make the tool city's stamp hollow to serve for the reception of accessories.

Claims (8)

1. Hydraulically driven impact device with a kind of temple which is movable in a swivel between a turning position on the tool side and and i, a turning position remote from the tool city, as well as a separate piston slide in the same housing for redirecting the impact piston's movement, characterized by the fact that the piston slide (3) is arranged in the same cylinder as the saw piston (•' £) , preferably above siagstemyjlo t (2). 2. Apparatus according to claim 1, characterized in that the common cylinder for the piston slide (3) and the saw piston (2) is connected to a hydraulic accumulator (3) which is preferably connected to a pressure line (6) for liquid supply to the cylinder. 3. Apparatus according to claim 2, characterized in that the accumulator (3) is provided with a membrane (lo). h. Apparatus according to one of claims 1-3, characterized in that the piston slide (3j) is an axial through bore that can be connected to the main pressure line (b) via a line (ba) which forms a branch to the same. 3. Apparatus according to one of the claims 1 - k, with a piston slide (2a) which is fixedly connected to the saw piston and arranged coaxially with respect to the same and controls an overhead channel (12) which opens at a point in the cylinder of the piston slide, which is further away from the tool city than the turning points of the piston slide, characterized by the fact that from the overhead channel (12) there are two plug channels (131 1^) which open into the cylinder of the auxiliary slide (2a) at a distance from each other in the direction of the cylinder axis, as the closest to the tool city (4) lying plug-channel (l'<) in the impact piston (2) far from the tool city (k) lying turning position is connected to the outlet lip (7) above the cylinder space that lies between the piston slide (2a) and the upper side of the impact piston (2) and a line (11) that opens at a place in the cylinder that is further away from the tool city ( k) than the upper side of the impact piston (2) in the turning position located far from the tool city ( k), while the farthest away from the tool city ( k) plug duct (13) opens onto a s ted in the cylinder of the auxiliary slide (2a) which is higher than the free end surface of the auxiliary slide in the turning position closest to the tool city, as the distance between the two plug channels (l3i 1<*>0 is less than the width of the auxiliary slide (2a). 6. Apparatus according to claim 3t characterized in that the auxiliary slide (2a) in the turning position farthest from the tool city closes the mouth of a channel (8) connected to the main pressure line (6) which opens at a place in the cylinder of the auxiliary slide which is further away in the direction of the cylinder axis from the industrial city ( k) than the plug-in channel furthest away from the utility city. (13). 7. Apparatus according to one of claims 1-6, characterized in that the underside of the impact piston (2) is permanently connected to the pressure line (6). 8. Apparatus according to one of the claims 1-7"characterized in that the cylinder of the piston slide (3) is connected via a connecting line (lo) to the outlet (7) at a location that is closer to the tool city (k) than the one of the two end barrels of the piston slide (3) which is furthest away from the tool city in the turning position which is furthest away from the tool city, this place being in the area of the end surface of the piston slide (3) which is furthest away from the tool city.