CS195397B1 - Connection of the circuit for the control of inserting the piston of the injection syringe - Google Patents

Description

BACKGROUND OF THE INVENTION The invention relates to a circuit for controlling the insertion of a syringe plunger on a continuous or intermittent rotary or rectilinear closed-loop assembly device particularly suitable for disposable syringes whose cylinder is fixedly mounted in the centering mechanism and above the advanced plunger a plunger plug, on which the indicating surface is fixedly fixed, the position of which is sensed by a proximity sensor, mounted on a stationary part of the mounting device together with a classifier or a non-sock.

In addition to the other features that disposable syringes have to switch on, there is sufficient ease of insertion of the plunger into the cylinder. Up to now, the inspection of piston insertion into the cylinder is carried out manually by manual assembly and mechanically mounted by means of different mechanisms. In manual assembly, the piston insertion control performed is dependent on subjective factors dependent on the operator who carries out this inspection, because it sorts out the mismatches by estimating whether the necessary torque for insertion of the piston into the cylinder does not exceed the prescribed limit. Another known operation of controlling the insertion of a syringe plunger into a cylinder on mounting devices is that the conical bore of the cylinder is sealed and a suction movement of the plunger creates a vacuum in the syringe barrel which returns it to a position corresponding to the friction of the plunger. The disadvantage of this method of measuring the insertion of the plunger is manifested mainly in small-volume injection syringes, where the generated negative pressure is not large enough to overcome the allowed friction of the plunger in the cylinder. A further disadvantage of this measurement is that the amount of vacuum changes when the piston reciprocates, thus reducing the suction torque acting on the piston. Therefore, the insertion mement required to fully insert the piston into the cylinder is not the same throughout its travel.

The aforementioned disadvantages of the syringe plunger insertion control alleviate the wiring of the syringe insertion circuit of the present invention, which is based on the fact that a non-contact dual value output contact is connected to the first input of the first product circuit, the second input of which is connected to the output. a metering switch and outputting a first load resistor. The output of the first product circuit is connected to the second input of the first bistable circuit, the output of which is connected to the second input of the second bistable circuit. The output of the shift switch simultaneously with the output of the reset reset switch is connected to the first input of the first and second bistable circuits and to the output of the second resistor. The output of the second bistable circuit is connected to the second input of the second product circuit, the first input of which is connected to the output of the unsupporting switch and to the output of the third load resistor. The output of the second product circuit is connected to the input of the amplifier circuit, the first output of which is connected to the input of the unsupport separator and the input of the suppression diode. Their outputs are connected to a first power bus along with a first at 195397 solder inputs of the first and second supine circuits, a first power input of the first and second bistable circuits, a first, second and third resistor inputs, and a first contactless sensor input. On the second power bus, a second proximity sensor input, measurement & input switching input, feed switch input, non-retrieve sorting switch input, record reset switch input, second input inputs of the first and second product circuit are connected; a second power input of the first and second bistable circuits and a second output of the amplifier circuit.

The advantage of connecting the syringe plunger insertion circuit to the assembler of rotary or linear motion devices in the closed cycle of the present invention is that it is possible to measure syringe plunger insertions of all volumetric sizes, with the load force required to insert the plunger and the cylinder. . an advantage is the non-contact sensing of the position of the indicating surface which is part of the piston rod by means of a non-contact sensing element located on a stationary part of the mounting device. It is possible to scan the position of all indication surfaces in sequence with one contactless sensor. Placing the proximity sensor on a stationary part of the mounting device allows easy application of its two-valued output signal to the appropriate electrical circuits for further processing.

The circuit according to the invention is shown by way of example in the attached drawing.

By applying a constant load force 5, the plunger plug 2 ', mounted in a sliding bearing on the mounting head, moves the forward plunger T into the syringe barrel 2. The cylinder 2 is held in the I ^t £ vytrieďovacom mechanism. The insertion surface of the piston 2 is firmly attached to the display surface 2, the position of which is sensed by the proximity sensor number 1 2. The two value output of the proximity sensor 12 is connected to the first input of the first product circuit 20. ' ^Tor R ®ho second input is connected to the output of the switch 1 3 and the measurement of the output of the first output 17 of resistance of the first AND circuit 20 is connected to the other input of the bistable circuit 2 2, the output of which is connected to the second input of the second bistable circuit 23rd The output of the shift switch 14 simultaneously with the output of the record reset switch 16 is. connected to the first input of the first and second bistable circuits 22, 23 and to the output of the second resistor 18. The output of the second bistable circuit 23 is connected to the second input of the second product circuit 21 ♦

Connected to the first input of the second product circuit 21 is the output of the unsupervising switch 15 and the output of the third load

Claims (2)

Insertion Check Circuit Connection. syringe plungers on a continuous or intermittent, rotary or rectilinear, closed-cycle rotary or linear motion assembly device, particularly suitable for disposable syringes, the cylinder of which is firmly gripped in the sizing mechanism and a piston retractor located above the advanced syringe plunger; a fixed display surface, the position of which is sensed by a proximity sensing element mounted on a stationary part of the mounting device together with a reject separator, characterized in that the proximity sensing element (12) with a dual value output is a contact resistance 19. The output of the second product circuit 21 is connected to the input of the amplifier circuit 24, the first output of which is connected to the inlet of the unsupporting separator 25 and the input of the suppression diode 26. The output of the unsupporting separator 25 and the output of the suppression diode 26 are connected to the first power bus 10 together. with a first power input of the first and second power circuits 20, 21 with a first power input of the first and second bistable circuits 22, 23 with inputs of the first, second third resistors 17, 18, 19 and a first input of the proximity switch 12. A second contactless sensor 22 input is connected to the second power bus 11; a metering switch input 13, a shift switch input 14, a non-retracting switch input 15, a record reset switch input 16, a second power input of the first and second product circuits 20, 21, a second power input of the first and second L i a and L i Ir. CHC circuit 22 c 23 dr \ ^"in" "wweťnn amplifier circuit 24th The proximity sensor 12 senses the position of the indicator surfaces on all mounting heads. When the piston pusher 2 does not fully insert the advanced piston 7 into the syringe barrel 8 under the action of a constant biasing force 5, the non-contact sensing number 12 will send a signal to the input of the first bistable circuit 22 1. A measuring switch 13, which mechanically controls the assembly and not the device, provides a time dependence of the appropriate moment for the measurement. As the assembly head moves with the intermediate conveyor, the displacement switch 14 shifts the measurement record from the first bistable circuit 22 to the second bistable circuit 23, and the first bistable circuit 22 is ready to receive a new measurement signal. The output signal from the second bistable circuit 23, at the same time as the unslotting switch 15 is turned on, connects the amplifier circuit 24 via the second product circuit 21. This circuit connects to the second power pole 11 the unslotter 25, which actuates the sorting mechanism 2, which discharges the syringe barrel 2 with the plunger 2 insufficiently inserted into the unsupported receptacle. The suppression diode 26 protects the amplifier circuit 24 from the wrong inductance of the unsortifier 25. The unslotting switch 15 mechanically controls the mounting device. If necessary, the record reset switch 16 is used to cancel the measurement record in the first and second bistable circuits 22, 23, respectively. The resistors 17, 18, 18 serve as ohmic strokes for switches 13, 14, 15 and 16. BACKGROUND OF THE INVENTION coupled to a first input of a first power circuit (20), the second input of which is connected to the output of the measurement switch (13) and the output of the first load resistor (17), the output of the first power circuit (20) is connected to the second input of the first bistable circuit 22, whose output is connected to the second input of the second bistable circuit (23), while the output of the shift switch (14) simultaneously and the output of the record reset switch (16) is connected to the first input of the first and second bistable circuits (22, 23); the output of the second bias resistor (18) and the output of the second bistable circuit (23) are connected to the second input of the second product of the circuit (21), at the first input of which the output of the unsorting switch (15) is connected; resistor (19), the output of the second product circuit (21) is connected to the input of the amplifier circuit (24), whose first output is connected to the input of the sorting unit (25) and to the input of the suppression diode (26). Their outputs are connected to the first power bus (10) together with the first power inputs of the first and second product circuits (20, 21), with the first power inputs of the first and second bistable circuits (22, 23), with the inputs of the first, second and third His Resistance / 17, 18, 19 / and a second contactless sensor input (12), a measurement switch input (13), a shift switch input (14), a switch input 15 / are connected to the first contactless sensor input (12) and a second bus (11) to the second power bus (11). reject sorting, record reset switch input (16), second power input of first and second product circuit (20, 21), second power input of first and second bistable circuits (22, 23) and second output of amplifier circuit (24).