DE1628054C - Hydraulically driven impact machine - Google Patents

Description

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The invention relates to a hydraulically driven control valve already back in its inner output

bene striking device has returned with one in a cylinder position, and indeed with high loading

bore back and forth movable differential piston, kinetic energy, so that there are strong pressure surges

whose smaller attack surface is permanently set under the. Unwanted pressure surges can develop

Pressure of a hydraulic fluid is, while the greater 5 - because of the incompressibility already mentioned

ßere attack surface with the help of an in the device one of the working fluid - moreover also result then,

built reversing valve to the pressure of the Drackflüs- when the working piston with his hammer on the

resistance "is intermittently exposed.. Tool encounters and this hard resistance finds

A well-known device of this type (cf. the USA.- det, so that bruises occur. Patent specification 2 672 847) works with a rotary io To solve this from the aforementioned Aufden Reversing valve, which would result from a hydraulic further task is according to the Motor is driven. When operating such an invention in the cylinder bore a locking device This may result in certain fluctuating buffers opposite the piston head problems which have their cause in the fact that the rearrangement, from one to one cylindrical "running of the rotating reversing valve completely autonomous 15 bore displaceable, through a rear Feist, d. This means that there is a regulating reaction of the piston movement when the piston is pressed against a stop on the rotation of the reversing stands, the rear of which does not take place constantly under the inlet valve. But this can be due to the pressure of the hydraulic fluid, the other side limits - the load on the one hand and the devices for bringing about a certain Impact frequency on the other hand lead to interference. so suspension of the percussion piston with hydraulically operated

In another known device (see. The enclosed striking mechanisms are known per se, but in German Auslegeschrift 1243 118) there is a different connection and with a completely different wegewisse Reaction between the piston movement kung. The German interpretation 1288 040 shows and the movement of the reversing valve. This Um- a hydraulically operated. Impact device, at The control valve is located outside of the actual one, which presses the piston in its working direction Working device, and the controlling reaction kende spring is provided. But this pen has takes place over longer lines with the help of not the meaning of a buffer, but stands of pressure peaks. , constantly in engagement with the piston and the

The invention is therefore first of all the control valve. The facility also shows a with The task is to remedy this and at 30 pressure fluid-filled cavity. Also this one A hydraulically powered percussion device cavity has neither the meaning nor the Wirder initially outlined type of ensuring that kung of a buffer; rather, it is decisive - while avoiding a rotating reversing - which is important for the entire work cycle valve and connecting line leading to the outside of the device, which of course not with a single button - Between the piston movement and the operating pressure, a differential piston and a entBewigung of the reversing valve an immediate speaking reversing valve works, but with regulating retroactive effect is possible. · Two different operating pressures. At one

According to the invention, this object is achieved by means of the other known hydraulically "operated impact propulsion"

by that as a reversing valve a through the differential. direction (see US Pat. No. 2,559,478)

piston-controlled tubular slide valve 40 finally a plurality of springs are provided,

finds application. however, none of them have the character of a buffer

Such pipe slide valves are not new. She has. Rather, the feathers are constantly in the

but only have interplay with the piston in the case of impact devices and determine the

Entrance found when it was pneumatic. entire sequence of movements.

driven devices, but not with devices with 45 A certain buffer effect in the real sense

hydraulic drive. That is also quite understandable - although it is with the establishment according to the USA.

lich; because in the case of a hydraulic drive, the publication dates from 1827,647, in the case of which the reverse

Due to the incompressibility of the hydraulic fluid and the working piston, it encounters a hollow cylinder that is

because of which a spring is held in position in relation to the compressed air. Behind this

greater viscosity difficulties, which in the case of pneumatic hollow cylinders, an air cushion is formed which

table operated devices do not occur. The shocks interact with the said spring

The inventor saw himself therefore the further task of the returning working piston should take up,

opposite, when using a through the This is, however, an impact device

Differential piston controlled pipe slide valve device with pneumatic drive, and it is not

it is possible to overcome the difficulties indicated above, the prevailing conditions on the

and to take precautions so that a physically completely different situation can arise.

neither the incompressibility "of the pressure medium nor wear, as it is when driving with a hydraulic

its higher viscosity has a detrimental effect. There is work equipment, quite apart from

Above all, the disturbances to be avoided were that the well-known device was the

have their origin in the fact that the reversing valve acts as a buffer for operationally occurring shocks,

during a certain phase of its movement that does not occur at all in hydraulic operation,

{approximately in the middle of its trajectory) while it is the subject of the invention about it

is in a transitional position in which it is no longer possible to absorb impacts that were caused by

or not yet have one of his or her directions of movement in hydraulics, which in turn is the

the defined pressure of the operating 65 pneumatic operation are completely foreign,

means is exposed. As a consequence of this, the technical progress that the invention

occur that the working piston of the percussion device moderate percussion device compared to comparable

This is guaranteed without further ado before the necessary resetting of the unknown device

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evident. It consists in making it possible to operate the hammer, the springs 50 namely

attraction of pipe spool reversing valves when borrowed from time to time, for example when '

Hydraulically operated differential piston impact - the hammer is pulled off the workpiece. at

devices without accepting difficulties- known devices of this type were comparable-

ten, "which because of the unwanted open-up feathers were arranged on the outside and could so with

when pressure peaks occur. "Objects in the vicinity in which the hammer

Examples of embodiments of the invention have been used to interact what a

* should be explained in more detail on the basis of the drawings.

the. In these 'giving' is meant.

Fig. 1 is a view of a hydraulic impact- io The bush 38 is designed with an irregular

Device according to the invention, th bore 52 provided, which is complementary

F i g. 2 is a vertical section through the in F i g. 1 trained end 54 of a tool 56 receives.

"showed the impact device, the working stroke being shown. Between the ends of the tool 56 is a collar

is placed, 58 arranged, the movement of the tool

Fig. 3 is a vertical section with another type 15 within the bore in one direction

deployment of the device borders. To limit the movement of the work

F i g. 4 is a further vertical section and at a tool 56 in the bore 52 in the other direction

In another working position, a lock 60 is provided which can be pivoted at 62

F i g. 5 shows a further vertical section with a wide one at the inwardly offset end 27 of the housing Working position, '20 partly 26 is hinged. The lock 60 has one approach

F i g. 6 is a vertical section essentially along 64, which is in the path of the tool collar 58.

the line 6-6 of Fig. 4, which arranges the channel guides. A hand lever 66 sits on the lock 60

reproduces, in such a way that it can be operated optionally

Fig. 7 is a horizontal partial section essentially and so the extension 64 from the path of the tool

along line 7-7 of FIG. 5, which can move part of a 25 federal 58 out so that the

Control valve actuation shows tool removed from hammer mechanism

Fig. 8 can be viewed in a substantially longitudinal section. A plunger 68 is in a drilling

the line 8-8 of FIG. 5, which is another part of the tion 70 in the housing part 26 and supported by a

Control valve actuation shows spring 72, which is also seated in bore 70, against

F i g. 9 έΐη horizontal partial section essentially 30 biased the lock 60, so that normally the

borrowed along line 9-9 of FIG. 2, which held a white approach 64 in the web of the federal 58

shows the lower part of the control valve actuation. will.

The in F i g. 1 hydraulic hammer shown the housing part 22 is with an inlet 74 for

20 has an upper housing part 22 with a flange for the hydraulic medium and an outlet 76 for

24 at its lower end. A lower housing part 35 of this (Figs. 1 and 2) is provided. As below

26 has a radially inwardly stepped end 27 will be shown in, there is a pressurized gas container 78,

lower end part and a flange 28 on the upper which can be of conventional construction with the

End which communicates with the upper housing part 24- inlet 74 in connection, while a similar one

fits. The two housing parts are connected to each other, container 80 with the outlet 76 in communication,

by suitable fastening means, for example 40. The containers 78 or 80 are used to smooth the

Bolts 30 and screws 32 attached. Pressure pulses within the hydraulic medium.

As best seen in Fig. 2, the un- The inlet 74 has a threaded bore 82 lower housing part26 and a bore34. Inside (Fig. 2) which via a fitting 84 a suitable half of the upper end of the bore 34 is able to receive a hose 84 which is provided with sleeve 36 within which a percussion 45 is connected to a source of hydraulic pressure oil hammer, as will be described below, is a threaded bore 82 terminates in a chamber. executes oscillating relative movement. Adjacent 86 with a pair of branch lines 88 and against the lower end of the sleeve 36 is a second, 90. Aligned with the line 90 is a bore 91, located in the sleeve designated 38, which is stepped on which a tube valve 92 sits. On the one from the Leiist. The sleeve 38 has several sections, the 50 device 90 facing away from the end of the tubular valve is broadest, denoted by 40, essentially attached by a spur toothing 94, which is of the same size as the bore 34, while spur gear 96 meshes within a bore 98 . The end of the narrower section 42 in diameter we spur gear 96 sits on a shaft 100 which is considerably smaller than the bore 34 also carries 55 is rotatably mounted. The plug 102 is held against the one keyway 44 into which a screw bolt 46 opens, bore 98 by fastening means, for example that in a threaded bore 48 in the inwardly screw 103. Additional suitable Dichabierter end 27 of the lower housing part 26 means 104 are between the bore 98 and runs. Suitable springs 50 are arranged between the end 27, which is offset on the inside after the plug 102 for reasons to be discussed later, and the narrower end 60. A hand lever or other hand cut 40 of the sleeve 38, so that it is seated against the actuator 106 on the end of the lower edge of the sleeve 36 bias. Shaft 100 and can be rotated, whereby the

As shown in FIG. 2, the springs 50 are brought about rotation of the spur gear 96 and so one

reciprocating movement of the tube valve around the narrower portion 42 of the sleeve 38

and are located entirely within the 65 92 within the bore 91 and the conduit 90

lower housing part 26. This arrangement is brought about. A spring 108 lies between

highly desirable because they have the top end of tubular valve 92 and a

factor of the device is to be seen. During the closure 110, which is the upper end of the bore 91

seals. The tube valve 92 has an axial bore. its hydraulic preload and its spring tension, In order to prevent the passage of the pressurized bias of the buffer 128 try the kinetic to allow the medium to the upper end. . Energy of acting on him. Differential piston

Such a construction is particularly desirable to disperse 114 in contact with it. Secondly throw, since the pressurized medium is within 5 the operation of a hydraulic hammer of half of the chamber 86 a considerable .Kraft in such a way that extremely high. Pressure impulses inside the floor of the tubular valve 92 and thereby tries half of the pressure medium above the piston, to push the tube valve 92 upward. rend of times can exist. ' during which Through the axial bore 112, however, the Me-. the channel 126-itself not in connection with the medium to flow to the upper end and on this one io inlet 74 or outlet 76 is located. The pressure exert a balancing, downward force. such impulses can be greater than the entry

The upper housing part 22 is with a graduated pressure; these pulses can be provided by moving the bore 113, from which a differential buffer 128 is collected,
piston movable back and forth, as shown in Fig. 2. The lower end of the cylinder bore 113 is with

represents, is recorded. An upper section 116 15 a greatly enlarged section 142 for receiving the bore 113 is slightly enlarged and takes "a pipe slide valve 144 (Fig. 2) provided. In an enlarged piston head 118. The piston- this enlarged bore section 142 are located head 118 has a pair of work surfaces 120 and three ring outlet openings 146, 148 and 150, 122 which are arranged opposite to each other. wherein the openings 146 and 150 serve to the The upper work surface 120 is substantially larger than ao pressure on the opposite sides of the the lower work surface 122. An annular opening 124 spool valve 144 that is included in the enlarged portion 116 of the bore other, with the outlet header 80 and with the 113 and is in communication with the outlet 76 via a channel 151 in connection Inlet line 88. In addition, a channel 126 opens. Between outlet ports 148 and 150 with the inlet 74 periodically in communication 35 are an annular opening 154 in communication with the is set, in an annular opening 127 in the drilling channel 126 and an inlet opening 152 in Verbinrungll3 arranged above the larger piston work with a chamber 153, which area 120. ■ Again in flow connection with the line

Because of the difference in the effective area of the 90 and thus with the inlet 74 stands. The inlet both Piston working surfaces 120 and 122 occurs at 30 opening 152 also stands with inlet header 78 Absence of a pressure medium in channel 126 '-' via the connection of the latter with the chamber when the opening 127 exerts a "force" on the larger 153 in connection.

Work surface 120 exercises - that of inlet 74 above the outer circumference of the pipe slide valve

Medium flowing through the channel 88 from the 144, a first annular groove 156 is arranged so that opening 124 along the side of the differential piston 35 with a position of the tubular slide valve 144 inside

-114 in the enlarged portion 116 of the bore half of the enlarged bore portion 142 the

113, exerts an upward force on the inlet opening 152 with the opening 154 in connection Working surface 122 of the differential piston is manure and the pressurized medium

114 off and causes this to pass upward into the channel 126 and to the piston head 118, move. However, if the channel 126 with the pressure 4 ° In addition, the first annular groove 156 is in continuous medium applied, which is now also on the larger Licher connection with the inlet port 152 and Working surface 120 of the differential piston 114 acts, the inlet 74 is arranged. Also around the namely downwards, because of the larger catch of the tubular slide valve 144 is arranged around The surface area of this working surface 120 is a second annular groove 158, which is located on the tube-piston pressed down. '- _' 45 spool valve 144 is arranged so that it is for

In the upper end of the bore 113 there is a buffer, another position of the pipe slide valve 144 ″ designated by 128, which has a part 130 which widens towards the inside of the widened section 142 (FIG This part 130 sits on a suitable channel 126 and the outlet opening 148 makes recess 132 in the upper end of the bore 113 50, whereby the pressure exerted on the piston head 118. A spring 134 lies between the buffer 128 relieved of pressure will. ·
and a plug 136 which is inserted into the upper part of the pipe slide valve 144 comprises a central

End of the bore 113 is screwed. As in the bore 160 through which the piston 114 pierces from Fig. 6 recognizable, -is a ring opening leads. This hole 160 forms, together with the 138. in the upper end of the bore 113 between 55 pistons 114, a first annular channel 162, which passes through Buffer 128 and termination 136 arranged. One a web 163 (Fig. 3) of a second ring line 140 connects this ring opening 138 with the channel 164 is separated, which in turn is through Ring opening 124 and finally with the inlet 74, a web 165 of a third ring channel 166 whereby a flow path for the pressure medium is separated. Openings 167 allow pressure to be applied Space in the bore 113 between the buffer 60 medium connection between the first annular channel 128 and the plug 136 is created, 162 and the first annular groove 156 to be moved later in turn, the buffer 128 downward prescriptive purposes, while due to their is tensioned. The lower end of the buffer 128 is placement on the lower end of the pipe slide inside the bore 113 is set so that there is valve 144, the third annular channel 166 substantially against the end of the differential piston 114 to the connection 65 continuously with the outlet port 146 in front of ' comes when this is in his upper bond.

Totpunktstcllung is. The purpose of this con- So that the pipe slide valve 144 brought about

The structure is twofold: First, the ground is located within the enlarged

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section 142 to move back and forth, and so it becomes possible that the pressure exerted within the opposite ends of the tubular slide valve group of bores 168 pushes the 144 two groups of opposing slide valve 144 downward.
Bores 168 and 172 arranged. As best the lower end of the enlarged hole from Fig. 7, the group of bores 5 comprises section 142 "is closed by a plug 168 two bores, while the group of bores 180 which has four such bores in place by suitable 172, as shown in FIG. 8, fasteners, for example bolts 182, as can be seen in FIG Pins 170 are shown held within bore Fig. 3. The plug assembly 168 is located while pins 174 in the 180 are provided with a bore 184 through which bore assembly 172. One end of each of the pistons 114 is inserted Near the lower pin lies on a fixed part of the housing or at the end of the plug bore 184. As can be seen from FIG Device 188 communicates with outlet port 146 in communication 156 while the group of bores is in place with the second ring channel 164 in the pipe slide 15 of the medium escaping between the piston 114 and the shut-off valve 144 by means of an undercut part 173 in the stopper 180 and leaves the bore 160 of the pipe slide valve 144 in the medium to the outlet opening 146 and thus to the binding. As the ends of the respective groups let 76 flow. As a further measure to prevent the leakage flow from bores 168 and 172 opposite one another, a suitable seal 192 between stanchions and thus the total area of the ends of the plug 180 is located below the ring and since in the group 172 the number of bores 186 and piston 114 pre-bores are larger than group 168 is seen to be. Additional sealing means 190 when the group of bores 172 are pressurized in the manner further along the interface of the plug 180 and to be described below. the upper housing portion 22 is arranged to one, the spool valve 144 is pushed up, 25 to prevent leakage flow therebetween. As shown in FIG. 2 as can be seen from several figures. If, on the other hand, can be seen through FIG. 6, the plug 180 is not attached to the lower end of any pressure against the ends of the group of ends of the upper housing part 22. Thus, bores 172 exerted, the part of the piston 114 which extends through the ends of the group of bores 168 through the plugs 180, leads into the lower housing part 26, direct connection with the first annular groove 156 and 30 and a hammer 194 is attached to it. As can be seen from the pressure exerted on this by the inlet opening 162, which can best be seen in FIG. 2, the piston 114 ends with the tubular slide valve 144 pushed downwards in a conical end 196 which becomes this in one. matching recess 198 within the hammer

To selectively the group of holes 172 194 is added. To the hammer 194 am

To pressurize or relieve pressure, a first piston 114 is to be attached, is a screw piece 200

Annular channel 176 is formed on the piston 114, which is provided by a threaded bore 202

is received by a web 177 of a second ring channel within the hammer 194.

178 is separated. The channels 176 and 178 on the lower end of the screw 200 is opposite

Pistons 114 are with respect to the line channels 162, a snap ring 204, which is seated in a

164 and 166 in the bore 160 of the tubular slide 40 has an annular groove 206 in the piston 114. By tightening

valve 144 arranged such that for a position of the screw 200 against the snap ring 204 is

(Fig. 3) of the piston 114 within the barrel - the hammer 194 effective against movement

slide valve 144, the first annular channel 176 is locked relative to the piston 114 and moves

Connection for the pressure medium between the herewith inside the sleeve 36 in the lower housing

first ring channel line 162 and the second ring 45 part 26.

Kanalleitung 164 and thus the group of Boh- The device works as follows: Consider

rungen 172 creates; for a different position of the piston initially Fig. 2, and it is assumed that the

(Fig. 5) with respect to the pipe slide valve 144 he inlet 74 with a container under pressure

the second ring channel 178 allows a connection of hydraulic oil and that the tubing for the medium between the second ring channel valve 92 extends into the line 90 and

line 164 and thus the group of bores thus a connection of the latter with the inlet

172 and the third ring channel 166. This ratio opening 74 prevents. Then it is under pressure

Nits can be clearly seen in FIGS. 4 and 5. standing medium through the line88. the ring-

Since the first ring channel line 162 is in a permanent groove 124 and the enlarged bore section 116 Is connected to the inlet 74, it results that 55 to the smaller working surface 122 of the piston head whenever the position of the annular channel 176 118 flow and so push it upwards until is such that there is a connection between the first and the buffer 128. The piston is in Ring channel line 172, the second ring channel line of this position held until the valve 92 is opened. 164 and the group of bores 172 created. If the piston 114 is in this position, so is; the pipe slide valve 144 moved 60 upwards leaves the second ring channel 178 on the piston 114 and held there until all of the group of bores 172 is depressurized. Since, in addition, the third ring line 166 in the Iiches pressure oil to the outlet 146 through the rear essential in constant connection with the stringed part 173. the second Ringkunalleitung Outlet, it becomes apparent that whenever 164, the second ring channel 178 and the third ring channel second ring channel 178 a connection with the 65 channel line 166 flow. The pipe cutter valve The second ring cancitiing 164 and the third ring 144 fills in under the influence of gravity canal line 166 allowed to extend to the group from its lowest position within the expanded Boh-Bolirungcn 172 pressure exerted is lifted approximately 142, or it is in this 1 age

Claims (5)

9 10 driven when the valve 92 is reduced by the inlet of face size that is close to those Pressure oil to the group of holes 168 is open. of the inlet pressure is through the Nachist the valve 92 is open, so pressurized oil flows from the enter of the movable buffer 128 and its ver inlet 74 to the larger piston area 120 via a liaison with the inlet 74 via the opening 138, device 90, chamber 153, inlet port 152, first 5 the line 140, the opening 124, the line 90 and Ring groove 156, ring opening 154, channel 126 and opening the chamber 88. During the return of the piston ring 127 and drives the piston 114 and the urinary head 118 into the uppermost position 194 downwards, in such a way that the latter is blocked for a long time to the channel 126 which runs through the Tool 56 hits. The resulting location of the displacement of the medium by the surface 120 various elements is shown in FIG. 3 shown. Pressure impulse caused by yielding at io This downward movement of the piston 114 one of the buffer 128 is consumed. Working medium connection between the inlet 74 from FIG. 5 also shows that the web and the group of wells 172 via line. 177 and the second ring channel 178 on the piston 90, chamber 153, inlet port 152, first annular groove 114 with respect to the second and third annular channel 156, openings 167, first. Ring channel line 162, 15 lines 162 and 164 are arranged so that the first ring channel 176, second ring channel line 164 pressure in the group of bores 172 on the and undercut part 173 made. Thus the aforementioned way is canceled, namely the spool valve 144 upward in substantially before the piston 114 is its topmost F i g. 4 position shown driven. Position. This will cause the pipe This leads to the fact that the connection between spool valve 144 moved downwards before the the inlet 74 and the larger working surface 120 piston 118 is in its uppermost position. the of the piston head 118 is lifted and a piston 118 is thereby slowed down to a new connection path from the larger piston stop around the time at which it is with the Adjusts working surface 120 to outlet 76, whereby buffer 128 comes into contact, initially the pressure exerted on this is removed. 25 due to the pressure increase above the larger one The connection path is established via the opening work surface 120 due to the blocking of the 127, channel 126, opening 124, second annular groove 158, channel 126 through the pipe slide valve 144 select outlet opening 148 and channel 151. The mutual rend of its movement, and secondly, by the fact that The position of the elements in this operating stage is exposed to the inlet pressure in the larger working area F i g. 4 shown. 30 is when the pipe slide valve 144 essentially The resulting lack of borrowed on the larger one has stopped moving before the time canvas 120 of the piston 114 exerted pressure point at which the piston head 118 is its uppermost causes the piston to reach through the continuous position. Should the pipe slide valve 144 If the force exerted on its smaller work surface 122 hang only slightly, the buffer mechanism will hold on is moved above, whereby this force by the 35 mus on the piston and needs the kinetic Pressure medium is applied, which is applied to it from energy without damaging the housing. Even that Inlet 74 via line 88, port 124 and 'can be understood by optionally adjusting the enlarged bore portion 116 is directed. With tubular valve 92 on the larger work surface The upward movement of the piston 114 is set by 120 pressure exerted by the piston 114 a print media connection between group 40, thereby increasing the speed of traversal Bores 172 and outlet 76 through the reciprocation of piston 114 and hammer undercut part 173, which can regulate the first ring channel line 194. The number of periods that 164, the second annular groove 178, the outlet opening 176 the device during a certain time and channel 151. The resulting ratio duration can be adjusted in this way between the various elements is shown in FIG. 5 45 will. shown. From the above it follows that the invention By eliminating the hydraulically driven percussion device on the ends of the group of bores 172 act on the path mentioned - because of the special type of assignment of veins The pressure presses continuously on the ends. tilen to the piston an extremely compact device of the group of holes 168 pressure exerted the 5 °. is. It brings - apart from the ones already mentioned at the beginning Pipe slide valve 144 down until it reaches the advantages mentioned in - a significant advantage F i g. 2 position shown is reset. Again, compared to known devices, The communication between inlet 74 and 74 is a number of flow paths within the the larger working surface 120 of the piston 114; Hammer housing come in elimination and thereby the device begins with a new working 55 an expensive drilling in the housing to form the cycle. · The periodic work is continued, which flow paths are avoided. Furthermore until valve 92 is closed. demand the control of the effect of the ham- As can be seen, the pipe slide valve does not allow any means necessary to move 144 at a point approximately in the middle between that of the valve element in the hydraulic hammer outermost lower and the outermost upper layer 60 according to the invention, the assignment of any- (F i g. 3, 4) no connection between the channel of rather special mechanical actuation device 126 and the inlet opening 152 or the outlets and the associated handlebar opening 148. In other words, the channel 126 is systems, which obviously to a substantially temporary blockage. Any pressure impulses in the simpler construction leads to
hydraulic medium above the piston 114 65 .., and within the channel 126, the ratentansprucne by the shock: or striking the hammer 194 on the tool 56 1. Hydraulically powered striking device are initiated, however, back and forth in a cylinder bore on an assumption movable differential piston, the smaller contact surface of which is permanently under the pressure of a Hydraulic fluid is available, while the larger contact surface with the help of a built-in in the device Reversing valve is intermittently exposed to the pressure of the hydraulic fluid, thereby characterized in that the reversing valve is a through the differential piston ' (114) controlled pipe slide valve (144) and that in the cylinder bore (113) a closing, the piston head (118) opposite buffer (128) is arranged, which consists of a displaceable in a cylindrical bore, consists of a piston pressed against a stop (132) by a rear spring (134), the back of which is constantly under the inlet pressure of the hydraulic fluid. 2. Impact device according to claim 1, characterized in that a single channel (88) is provided is for connection between the smaller working surface (122) of the differential piston (114) and the reversing valve (92), the inlet (74) of the channel (88) alternatively with the outlet (76) or the channel (88) connects. 3. Impact device according to claim 2, characterized in that the drive of the differential. piston (114) is guided through the channel (88) through which a pressure medium is continuously applied the smaller working surface (122) of the differential piston (114) is given. 4. Impact device according to any one of claims 1 to 3, characterized in that the Pipe slide valve (144) two ring grooves (156, 158) serving as connecting devices wearing.- . 5. Impact device according to claim 4, characterized in that a line (90) is provided which connects the annular grooves (156, 158) to the inlet (74), and that a valve element (92) in the region of the inlet (74) optionally and adjustable a connection between the said Line (90) and the inlet (74) allows. For this purpose 2 sheets of drawings