CS201422B1 - Device for dosing the liquid - Google Patents

Description

The invention relates to a device for dosing liquids, in particular mineral oils, for example for assembly dosing of oil into telescopic shock absorbers of motor vehicles.

The dispensers used hitherto for the aforementioned purposes have some drawbacks which are detrimental to their extension. In particular, fluctuations in the dose size due to the change in position and length of the dosing hose should be avoided. The dose should be accurate, but the device must satisfy the requirement to change its size easily and quickly. Known dispensers, either volumetric or time controlled, do not guarantee the required accuracy. For volumetric doses, it is difficult to change the dose to a small extent, and for time-controlled dose adjustments, it is time consuming to adjust the dose.

These drawbacks are overcome by a liquid dispensing device consisting of a liquid reservoir to which both the dispensing liquid pump and the piston dispensing device are connected. This is controlled by an actuator from a transducer and a piston position sensor, in particular with a Hall probe, the object of which is that a permanent magnet is adjustable in the direction of its axis in the direction of the axis of the dosing device. the output of the transducer whose output has saved the actuator which pushes the piston rod of the dispensing device.

A trigger is then connected to the trigger input of the transmitter and the auxiliary output of the pump switch is connected to the block input of the transmitter.

The main advantage of the device according to the invention is the possibility to quickly change the dose size and achieve its high accuracy under economically advantageous conditions, with simple requirements for operation and maintenance.

An exemplary embodiment of a fluid dispensing device is shown schematically in the accompanying drawing where a pneumatic cylinder is used as an actuator together with an electromagnetically actuated slide valve. One or more electromagnets, a geared electric motor and the like can also be used as an actuator.

A liquid reservoir 2 is arranged on the frame 1 of the device, in which a sufficient amount of liquid is maintained by means of a level probe 3 controlling the pump 5 via a switch 4. The pump 5 sucks the liquid from the transport containers 6, for example from metal drums. Also disposed on the frame 1 is a metering device cylinder 7, into the cavity of which, through a first valve 9, a conduit 8 from a liquid reservoir 2 flows. The metering hose 11 is also discharged from the cylinder 7 via a second valve 10. 13 is moved by the actuator 14, in this case the piston of the pneumatic cylinder. The piston rod 13, secured against rotation about its axis, extends from both cylinders at the top of the device and is mounted on the permanent magnet holder 15 thereon. The permanent magnet 16 can move within the holder 15 within certain limits but only in the direction of the axis of the piston rod 13 A position sensor 17, such as a Hall probe, is mounted at a suitable location rigidly coupled to the frame 1, for example on the outer shell of the air cylinder of the actuator 14, so as to lie along the travel path of the permanent magnet 16 as it moves with the piston rod. 17 is connected to the trip input and transducer 18, while the output b of transducer 18 is coupled to the input c of the actuator 14.

The function of the device is as follows: When connected to the mains, the pump 5 sucks the liquid until the level in the liquid reservoir 2 reaches the MAX level. As soon as the MIN level has been reached, the converter 18 is unlocked by the pump switch 4 and the dosing device is operable. The operator grips the dispensing hose 11 in one hand and the trigger 19 into the other hand. The dispensing hose 11 is pushed into the space to dispense liquid. It then presses the trigger 19. The trigger input e displays a "1" signal. Also at the output b of the transducer 18 and at the inlet c of the actuator 14. The actuator 14 moves the piston rod 13 and hence the piston 12 of the dosing device upwards. By this movement, liquid is sucked under the piston 12 through the first valve 9. The second valve 10 is closed. The upward movement of the piston 12 continues until the position sensor 17 and the permanent magnet 16 overlap. At that moment, a "1" signal is received at the trip input and transducer 18, at the output b of the transducer 18 i . The piston 12 with the piston rod 13 returns to the bottom dead center by the action of the actuator 14, thereby expelling the liquid under the piston 12 through the second valve 10 into the dispensing hose 11. The first valve 9 is closed. This cycle is repeated continuously at the start of the starter 19. If the level in the fluid reservoir 2 drops to MIN, the level switch 3 switches on pump 4 automatically. This completes the level in the fluid reservoir 2 to the MAX level when switch 4 resumes 5 turns off. The switch 4 is preferably arranged so that after switching it on, a certain amount of time is required to replenish the level in the fluid reservoir 2. If the fluid is not replenished to the MAX level during it, switch 4 automatically switches off the pump 5 and reports failure. If the level in the liquid reservoir 2 drops below the MIN level during the duration of the fault, the dosing device is brought to a standstill by means of the converter 18 and thus the device does not work. This can be canceled by turning the machine off, troubleshooting and turning the power on again.

Claims (1)

SUBJECT A fluid dispensing device comprising a fluid reservoir to which a dispensing liquid pump and a actuator-operated piston dispensing device are connected, a transducer and a piston position sensor, in particular a Hall probe, characterized in that on the dispensing piston rod (13) a permanent magnet (16) is adjustable in the direction of its axis, alongside the invention there is a position sensor (17) connected to the tripping input (a) of the converter (18), whose output (b) is connected to the input (c) an actuator (14) that moves the dispensing rod (13) while the starter input (e) of the transducer (18) is connected to the starter (19) and the auxiliary output (f) of the switch (4) of the pump (5) with blocking input (d) of the converter (18).