DE802698C - Fluid gear for driving knitting and warp knitting machines - Google Patents

Description

The main patent deals with a fluid gear for driving knitting and warp knitting machines, in which the displaceable pump eccentric automatically moves to a previously set upper one when the gearbox is switched on Sets the limit value of the stroke and thus the transmission ratio.

According to a further claim of the main patent, a brake is attached to these fluid drives ίο for rapid and gentle braking of the transmission when a fault occurs, e.g. B. Tearing the Fadens, which disengages immediately after the machine comes to a standstill.

The invention relates to a further development of this brake according to the main patent and is in essentially characterized by a device that takes effect when the transmission is switched off for reversing the liquid channels in such a way that the liquid motor runs as a pump and conveys the liquid through a special restricted outlet.

This novel design of a fluid gear ensures that the vibratory energy the machine will continue to run after it has been switched off from the moment it was switched off from as a pump and in conjunction with the throttled special outlet as a soft-acting one and because of the tight adjustment of the throttle effect to each machine characteristic adjustable brake works. This braking effect is almost exclusively with the already existing ones Gear parts achieved without the need for the additional attachment of special braking devices, which are indispensable for every mechanical brake.

In the drawing, an embodiment of the subject matter of the invention is schematically shown in Fig. Ι shown in longitudinal section;

FIG. 2 shows a cross section for this along the section line AA in FIG.

The overall structure of the device according to the invention corresponds essentially to that of how it is described in connection with the main patent.

In the following description are for those with the embodiment of the main patent, corresponding parts have been chosen with the same reference numerals.

The fluid transmission is accommodated in a housing 3. The drive shaft is in its bottom 55 mounted with a vertical axis of rotation. The support body is seated in the housing 3 itself, approximately in its center 1 as a horizontal plate. In it, the tubular control slide 2 is coaxial to the and output shaft firmly fitted. The top of the support body 1 is off-center to the slide 2 a fixed eccentric 5 for the circulation of the liquid

ao keitsmotors and provided on the underside an identical but transversely displaceable eccentric 4 for the circulation of the liquid pump. The eccentric 4 engages with an extension 4 ″ in the fork of the adjusting bolt 16. Rotate on the control slide 2

«5 the ones with the input and output shaft 55 and 56, respectively coupled cylinder stars 8 with the pistons 7 movable in their cylinders. On the eccentrics 4 and 5, the support rings 6 are mounted with ball bearings, which are used for supporting and rolling from the Cylinder stars 6 serve to push pistons 7 radially outward.

The transmission works in a known manner in such a way that when the one coupled to the drive 55 starts up Cylinder star 6, the piston 7 going back and forth in its cylinders via the control slide 2 Deliver liquid to the liquid motor. The difference in the eccentricity of the eccentrics 4 and 5 determine the gear ratio. With the possibility of adjusting the pump eccentric 4, the speed of the motor can be kept within the limits while the drive speed remains the same Change continuously between a minimum and maximum value. The pump is operated when the liquid flow is depressurized driven in the gearbox (idle), the adjusting eccentric 4 is automatically in its inner end position pressed at which the stroke just allows pumping.

To start the transmission, a displaceable reversing piston 9 is against the action of the To adjust the spring 30 by pressing the switch button 51, which is engaged by a lock 29 in Position can be held. The reversing piston 9 interrupts the in this position Connection between the suction channel 54 and the transverse channel 53 on the one hand and the channel 11 with the pressure channel 10 on the other hand. At the same time, the pressure chambers 14 and 58 are opened via the bores 59 connected to the pressure channel 10. In the now closed pressure channel 10, the generated Pump, which at this moment is still set to the smallest stroke, applies pressure and delivers liquid to the liquid motor, which begins to turn slowly. The hydraulic fluid also flows Via the bores 59 to the pressure chamber 14 of an adjusting piston 15 and the pressure chamber 58 of a reversing piston 62. The latter causes a displacement when the adjustment movement it triggers of the adjusting eccentric 4 in the sense of an increase in stroke, namely via the approach 4 ", until it rests against the stop 16. This stop 16 can be moved by an adjusting wheel i6 ° and thereby the self-adjusting maximum speed of the driven machine is set will. The adjustment of the control piston 62 against the action of the spring 65 gives the discharge line 63 free, which is then connected to the discharge channel 64 in the control slide 2. on In this way, the liquid expelled by the liquid motor enters the housing 3, from the it is then sucked in again through the suction pipe 70 by the liquid pump.

To stop the machine, i. H. to switch off the liquid motor when it is idling Liquid pump, the locking lever 29 is pivoted and the lock is released. The switch button 51 is then released. The release of the lock 29 can either arbitrarily by hand or happen automatically when a thread breaks. When the switch button 51 is released, the spring pushes 30 moves the piston 9 into the position shown in FIG. Now the connection is from the pressure channel 10 via the channels 53 and 11 to the suction line 54 free. In addition, the bores 59 are free, so that the pressure fluid from the spaces 14 and 58 can escape. The changeover piston 62 is moved into that shown in FIG. 2 by its spring 65 Moved position in which he blocks the discharge channel 63. While those about the Channels 10, n, 53 and 54 short-circuited pump, without doing any work, driven on by drive 55 the engine part is only alive from the one stored in the machine Force kept circulating. As a result, it sucks through the suction pipe 70 and the suction channel 54, the connecting channels 53 and 11 and the pressure chamber 10, which has become the suction chamber, liquid on, which as a result of the blocking of the discharge channel 63 is now via the channel 66 by a throttle valve 67 must be pressed. The size of the associated energy destruction will be no correct by the bias of the valve spring 69 by means of the screw 68. This can be any Adjustment of the throttle resistance. According to this setting, the one to the pump brakes fluid motor has become the machine more or less quickly.

After the motor has come to a standstill, all parts of the transmission are at a standstill without any special switching measures ready again for the unbraked start of the motor.

Claims (4)

Patent claims: i. Fluid gear for driving knitting and warp-knitting machines according to the main patent No. 800 237, marked by a when switching the pump to idling effective device for reversing the Channels in such a way that the liquid motor runs as a pump and the liquid through a special throttled outlet presses. 2. Fluid transmission according to claim i, characterized in that the for switching The piston (9) provided for idling the pump at the same time the organ for reversing the channels representing the pump work of the engine. 3. Fluid transmission according to claim ι and 2, characterized in that the reversing piston (9) in the reversing position on the one hand the suction channel (54) with the now as Suction channel acting pressure channel (10) connects and at the same time with the pressure chamber (14) of the adjusting piston (15) communicating pressure chamber (58) of an outflow control piston (62) releases, which thereby blocks the normal outflow channel (63) and only leaves a throttled special outlet free. 4. Fluid transmission according to claim 1 to 3, characterized in that the throttled The outlet consists of a valve (67) which can be adjusted in terms of its throttling effect. 1 sheet of drawings QM75 2.51