DE931942C - Method and device for reversing a swing frame with a Schraem rod for Schraemmaschinen - Google Patents

Description

Method and device for reversing a swivel frame with a cutting bar for cutting machines The invention relates to a method and a device for Reversing a swivel frame with a cutting rod for cutting machines. She goes from known cutting machines with a horizontally in a swivel frame moved up and down and cutting bar mounted transversely to the machine feed, in which the swivel frame by a hydraulic lifting device with adjustable according to the cutting resistance Piston force can be raised and lowered (supported). The controllability is based on a manually adjustable pressure change valve in the pressure medium line.

There are now other pivoting devices in connection with a coal wedge device known, in which the pivoting movement is automatic at the predetermined ends the swivel range is reversed mechanically. Furthermore: is a hydraulically operated one Lifting device for a vertically guided cutting head with a horizontally rotating one Known Schrämkette, which is preceded by a feeler plate sliding along the hanging wall. The sensing plate eats through a push rod and a crank with a control valve connected in the pressure medium line in such a way that the lifting device the altitude of the cutting chain arm after the hanging wall scanned by the sensing plate.

You also have so-called at the outer end of the cutting frame Button or feeler lever arranged, which when in contact with the hanging wall or lying can be adjusted relative to the swivel frame outside of the coal face to be cut and: this change of position via a linkage or oil pressure lines to the control of Transfer the swivel drive. This insight requires the Storage of the transmission linkage or the oil pressure lines on the swing frame There easily exposed to damage and only responds if the hanging wall or lying is reached, but not if in an intermediate position of the swivel frame the cutting bar encounters an obstacle, for example a hard mountain material.

In contrast, there is the method for reversing the pivoting movement of a hydraulically operated swivel frame with cutting rod for cutting machines according to the invention. in that the reversal of the pivoting movement finely increases of the pivoting moment through increased resistance when encountering hard mountain means or when pushing the swivel frame against the hanging wall or the Lilegende the pressure increase of the propellant is triggered automatically.

A facility for carrying out the process, with one at the The hydraulically actuated working piston acting on the pivoting device consists of that the ends of the working cylinder with the ends of a cylinder for a pilot valve through piping and the ends of the cylinder enclosing the main spool are connected to two pipelines controlled by the pilot valve, while from the liquid pump one. Manifold controlled by the main spool to the ends of the working cylinder, as well as a second 'on the VoT control slide branched line is led to the cylinder ends of the main control slide and in this pipeline between the pump and the pilot valve an automatic Pressure relief valve is arranged.

According to a further feature of the invention are to secure the end positions of the main control spool between the cylinder covers and the faces of the main control spool spring-loaded clamping piston and on a piston section of the main control spool, arranged in a distance equal to the control stroke two annular grooves, in which one The retaining ball arranged in the cylinder wall can be locked under the pressure of a spring is.

Furthermore, the ends of the master control cylinder are manually operated by means of a Switch tap can be connected to the pressure line optionally and independently of the control or can be emptied.

It is already known in the case of cutting machines that of the liquid pump pumped hydraulic fluid several fluid motors by a hand-operated Switch tap optionally to be supplied. Here, however, the liquid motors are used. to drive a pre-shoe winch and a swivel device for the horizontal pivotable cutting arm and are only dependent on each other as one Motor can only be started when the other is stopped.

The drawing shows an exemplary embodiment according to the invention in FIG Fig. I, which is a side elevation of a swivel machine and in Fig. 2, which is a schematic representation of the fluid swing gear.

The working cylinder i is denoted in which the working piston: 2 converts its stroke movements into rotary movements of the pinion 5 connected to the swivel frame q: by means of a toothing 3, for example. The propellant fluid is supplied by the fluid pump 6, which can be coupled to the cutting engine, and fed through the pipe 7 to the ends of the cylinder i via the main control valve 8, while a branch line 9 connected to the pipe 7 via the pilot valve io pressurized fluid to one of the two ends of the main control valve 8 is supplied as soon as the pressure increase in the branch line 9 between the line 7 and the pilot valve io is opened. The pressure prevailing in front of the end faces of the working piston 2 acts on the end faces of the control slide, in that the left end face ii of the pilot piston 12 is connected to the right working cylinder side 13 and the right end face 14 is connected to the left working cylinder side 15 by lines 23, 24. Between the covers of the main control cylinder 8 and the end faces of the main control piston 16 there are spring-loaded tensioning pistons 3 i and on one piston section 18 two annular grooves i 9 and 2 o at a distance corresponding to the control stroke. A ball 21, which is constantly pressed against the piston section 18 by a pretensioned spring 22, can snap into the annular grooves of triangular cross-section.

In the drawn right end position of the Hauptstenxerkalbens 16 wiTd through its left shaft section pressure fluid from the line 7 to the left end half 15 of the working piston and further through the channel 24 to the right end face of the pilot piston 12 at 1q. directed. This is .in its left end position. Is the working piston; As far reaches 2 to the right, that the pivoting movement is impeded of about 3 and 5 with him drivingly connected swing frame., The fluid pressure in the Lei, tung 7 and in the branch line 9 so strongly, the pressure relief valve 30 .that opened and the pressure fluid flows through the right-hand recess in the pilot piston 12 onto the right end face of the main control piston 16. Due to the fluid pressure, in conjunction with the tensioned buffer spring 17, the retaining ball 2 1 is lifted and the piston 16 is pushed to the left until it reaches the other end position secured by the retaining ball 2i snapping into the annular groove 2o. Then pressure fluid is passed from line 7 via the right piston shaft rotation to the right end 13 of the working cylinder and via line 23 also to the left end ii of the pilot piston i2, which then moves into the right end position preparing the next reversing movement. The connecting channels 25, 2.6 between: the pilot valve and the front ends of the main control valve only lead hydraulic fluid when such is supplied by lifting the pressure relief valve 30 and through the pilot valve. By means of the manually operated switch valve 28 arranged in a branch line 27, hydraulic fluid can optionally be passed into the lines 25 and 26 when the work process is to be switched on by the operator. All lines carrying hydraulic fluid are secured against overstressing by a pressure relief valve29.

Claims (4)

PATENT CLAIMS: i. Method for reversing the pivoting movement of a hydraulically operated pivoting frame with a cutting rod for cutting machines, characterized in that the reversal of the pivoting movement in the event of an excessive increase in the pivoting moment due to increased resistance when hard recovery equipment is encountered or when the pivoting frame hits the hanging wall or the lying surface through the , Pressure increase of the propellant is triggered automatically. 2. Device for performing the method according to claim i, b i of the work Koilben of the hydraulic swivel device connected to the swivel frame in a geared manner is, characterized in that the ends of the working cylinder (i) with the ends (11, 14) of a pilot valve (12) through propellant pipes (23, 24) and the ends of the main control slide (16) enclosing cylinder (8) with two pipelines (25, 26) controlled by the pilot valve (I2) are connected, while from the liquid pump (6) one controlled by the main control slide Pipe branch (7) to the ends of the drive cylinder (i) and a second one the pilot valve (12) in .die lines (25, 26) branched line (9) to the cylinder ends of the main control spool is guided and in this pipeline (9) an automatic pressure relief valve between the pump (6) and the pilot valve (12) (3o) is arranged. 3. Hydraulically operated swivel device according to claim 2, characterized in .that between the covers of the main control cylinder (8) and the end faces of the main control piston (16) spring-loaded tensioning piston (31) and open a control piston section (18) at a distance equal to the control stroke, two annular grooves (19, 2o) are arranged, in which a retaining ball arranged in the cylinder wall (21) snaps under the pressure of a spring (22). 4. Hydraulically operated swivel device according to claim 2 and 3, characterized by the ends of the main control cylinder (8) which can be connected or emptied to the propellant discharge (7) optionally and independently of the pilot control by means of a manually operated switch tap (28). Cited Pamphlets German Patent No. 833,342: British Patent No. 494,784; U.S. Patent No. 2,368,863; "AüszügeDeutscher Patentanmmeldung", vol. 15, p. 31, under E 5542 VIb; Journal of the Association of German Engineers, Vol. 92 vii 1950, p. 22, 1st column, last paragraph.