CS211308B1 - Connection of control circuits of the device for simultaneous watering of two components - Google Patents

Abstract

The invention relates to the connection of control circuits of a device for potting components for the purpose of their connection, which can be used in mechanical engineering and mainly in electrical engineering. The invention solves the connection of control circuits of a device for potting two components by selecting the potting of the left or right component separately, or both simultaneously. The essence of the invention lies in the connection of control circuits of a device for potting two components for automatic and manual control of the selected working cycle. The invention is best characterized by Fig.

Description

(54) Connection of control circuits in a device for simultaneous watering of two components

BACKGROUND OF THE INVENTION The present invention relates to the wiring of control circuits of a device for embedding components to be used in engineering and, in particular, in electrical engineering.

The invention solves the connection of the control circuits of the device for embedding two components 8 by selecting the embedding of the lava or the legal component separately or both simultaneously.

SUMMARY OF THE INVENTION The invention is based on the connection of the control circuits of a two-component casting device for automatic and manual control of a selected duty cycle.

The invention is best characterized by FIG.

no. First

The invention relates to the connection of the control circuits of a device for simultaneously casting two components! especially for casting two components in the mirror position with the general shape of the cast gap.

So far, the embedding of components with the general shape of the embedded gap has been carried out on devices which did not allow simultaneous embedding of two components in the mirror position. The glue application was not uniform due to the uneven speed of movement of the cast part over the entire length of the filler. The types of adhesives used hitherto have consumed a considerable amount of electrical energy both for curing the adhesive and for extracting the harmful fumes escaping from the cured adhesive.

These disadvantages are solved by the connection of the control circuits of the device for simultaneous embedding of two components, at least for the embedding of two components in the mirror position β by the general shape of the embedded gap consisting of the sensing, operating and control elements according to the invention. a series of four workstation switch inputs, first down position, second down position, first coast down number, second coast down number, first time contact, control mode switch, inner number, outer number, and a third trigger button contact and a self-holding trip relay input .

The first output of the workstation switch is connected in parallel to the coil input of the first contactor, through the first contact of the start button and through the first input and first output of the first bistable circuit to the input of the first solenoid valve. a second solenoid valve, a third output of the workstation switch, a first input of the second product circuit, and a first input of the fifth product circuit.

The second and fourth outputs of the workstation switch are connected through the second contact button of the start button a through the first input and first output of the second bistable circuit to the input of the third solenoid valve, through the second break contact and through the second input and second output of the second bistable circuit to the input of the fourth solenoid valve. the coil input of the second contactor, the first input of the first product circuit and the second input of the sixth product circuit.

The output of the first down position number is connected in parallel to the second output of the first product circuit and to the first input of the third product circuit. The output of the second down position number is connected in parallel to the second input of the second product circuit and to the second input of the third product circuit. The outputs of the first, second and third product circuits are connected to the first, second and third inputs of the first sum circuit whose output is connected in parallel to the inputs of the first and second time members, the first input of the fourth product circuit and the first input of the seventh product circuit.

The output of the first deceleration number is connected to the first input of the third summation circuit. The output of the second deceleration number is connected to the first input of the fourth summation circuit. The output of the first time contact is connected to the second input of the fourth product circuit, the output of which is connected to the first input of the second total circuit. The first output of the control mode switch is connected in parallel to the third input of the fourth product circuit and to the second input of the seventh product circuit, the output of which is connected to the second time contact input and through its first output to the second input of the fifth total circuit. connected to the trip relay input.

A second input of the second summation circuit is connected in parallel to the second output of the control mode switch and a first input of the fifth summation circuit is connected via the dose control button. The output of the second summation circuit is connected in parallel to the second input of the fifth product circuit and to the first input of the sixth product circuit. The output of the fifth product circuit is connected to the second input of the third sum circuit whose output is connected to the coil input of the third contactor and the output of the sixth product circuit is connected to the second input of the fourth sum circuit whose output is connected to the coil input of the fourth contactor.

The inner number output is connected to the first input of the dessic product circuit and the outer number output is connected to the second input of the Black Dry Circuit and its output is connected to the third input of the fifth total circuit * whose output is connected to the coil input of the fifth contactor. The first, second, third and fourth solenoid valves, the coil of the second contactor, the first and second time members, the coils of the third, fourth and fifth contactors, and the trip relay are connected to a second power terminal.

The advantages of connecting the control circuits of the two-part casting device at the same time are mainly the choice of casting the lava part or the right part separately, or both, eliminating uneven sealing of the plug. The use of a curable adhesive eliminates the considerable consumption of electrical energy to cure and evacuate harmful fumes.

The connection of the control circuits of the device for simultaneous embedding of two components is shown by way of example in the accompanying drawings, in which: FIG. 1 shows a block diagram of the overall circuit and FIG. 2 and FIG. 3 is a schematic drawing of the potting device and the layout of the controls.

The wiring of the control circuits of the two component co-embedding apparatus is directly designed with the embedding apparatus consisting of a copying apparatus 62, on which the pattern 63 and the first and second clamps are located. 57, 58. On the fixed part of the copying device 62 is a drive unit of the chucks 61.

A first optical insert 60 is inserted into the first fixture 57 and a right optical insert 60 is inserted into the second fixture 58. The first and second pneumatic cylinders 48, 49 are equipped with mixers 46, 47 with first and second mixer motors 55, 56. The lower positions of the two mixers 46, 47 are controlled by the first and second chutes of the lower position.

The mixers 46, 47 are connected via a duct 54 to the first and second metering devices 52, 53 which are driven by the first and second metering motors 50, 51, the starting position of the first metering device 52 being controlled by the first deceleration number 6 and the starting position of the second metering unit. of the device 53 is controlled by the second deceleration number 5, the initial positions in which the copier 62 will always stop after 1.5 turns of the clamps 57, 58 are controlled by the inner number 8 and the outer number 8.

The connection of the control circuits of the device for simultaneous watering of two components is as follows:

Connections to the first power terminal 9 are connected in series with four workstation switch inputs, the first down position number 2, the second down position number 3, the first deceleration number 5, the second deceleration number 5, the first switch contact 27, And the third contact * 11c of the trigger button 11 and the self-holding contact 43 of the trip relay 44.

The first output of the workstation switch 11 is connected in parallel to the coil input of the first contactor 10, via the first contact 11 and the trigger. button 11 and through the first input and first output of the first bistable circuit 14 to the input of the first solenoid valve 66, through the first switch contacts 12 and through the second input and the second output of the first bistable circuit 14 to the input of the second solenoid valve 17 to the third output of the switch the first input of the second product circuit 22 and the first input of the fifth product circuit 31.

The second and fourth outputs of the workstation switch 11 are connected via the second contact 11b of the trigger button 11 and through the first input and the first output of the second bistable circuit 15 to the input of the third solenoid valve 18, through the second break contact 13 and through the second input. and a second output of the second bistable circuit 15 to the input of the fourth solenoid valve 19, to the coil input of the second contactor 20, to the first input of the first product circuit 21, and to the second input of the sixth product circuit 34. *

The output of the first down position 2 is connected in parallel to the second input of the first product circuit 21 and to the first input of the third product circuit 23. The output of the second down position 3 is connected in parallel to the second input of the second product circuit 22 and second inputs of the third product circuit 23. The outputs of the first, second and third product circuits 21, 22 are connected to the first, second and third inputs of the first sum circuit 24, the output of which is parallel connected to the inputs of the first and second time members 25, 26, to the first input of the fourth product circuit 28 and to the first input of the seventh product circuit 38 «

The output of the first deceleration circuit 4 is connected to the first input of the third summing circuit 32 The output of the second deceleration circuit 5 is connected to the first input of the fourth summing circuit 35 The output of the first time contact 27 is connected to the second input of the fourth product circuit 28 it is connected to the first input of the second summing circuit 30. The first output of the mode switch 6 is connected in parallel to the third input of the fourth product circuit 28 and to the second input of the seventh product circuit 38. »whose output is connected to the input of the second time contact 40 and via its first output to the second input of the fifth total circuit 41«.

The second output of the second time contact 40 is connected to the trip relay 44 input.

A second input of the second summing circuit 30 is connected to the second output of the switch mode of control parallel to the second input of the second summing circuit 30 and the first input of the fifth summing circuit 41 is connected via the dose control button 29. 31 and the first input of the sixth product circuit 34.

The output of the fifth product circuit 31 is connected to the second input of the third summing circuit 32, the output of which is connected to the coil input 33 of the third contactor. The output of the sixth product circuit 34 is connected to the second input of the fourth summing circuit 35. Its output is connected to the coil input 36 of the fourth contactor. The output of the inner number 7 is connected to the first input of the eighth product circuit 39 and the output of the outer number 9 is connected to the second input of the eight product product circuit 39 and its output is connected to. a third input of the fifth summation circuit 4.1, the output of which is connected to the coil input 42 of the fifth contactor.

Outputs of coil 10 of first contactor, second, third and fourth solenoid valves 16, 17, 18, 19, coil 20 of second contactor, first and second time members 25, 26 of coil 33 of third, coil 36 of fourth and coil 42 of fifth contactor and trip relays 44 are connected to a second power terminal 45.

The function of wiring the control circuits of the device for simultaneous watering of two components is as follows.

The 6th mode selector selects either? separate dosing and independent rotation of the clamps 5 7 »58 or automatic dosing with simultaneous rotation of the clamps 57,

58. The workstation switch J. selects the duty cycle of the first workstation or the second workstation, or both at the same time, moving the respective mixing device 46., 4. 7. In the choice of automatic operation at both workstations, the third and fourth outputs of the workstation switch and the second the output of the control switch 6 connected to the first power terminal 9.

By pressing the trigger button 11, a control voltage is applied to the first inputs of the bistable circuits 14, 15, the first outputs of which connect the control voltage to the coils of the first and third electro-pneumatic valves 16, 18 and 1 7, 1 9. ^Previously characterized ^a third elektro21 1308 air valve 16 »18 admitted air to the top of the first and second air mound ^CA £ ®» Α2. 'Which transfer mixers 46, 47 in the down position, which detects the first and second Sparky 2 »2 down position .

The control voltage is supplied from the outputs of the lower position number 2, 2 and from the third and fourth outputs of the workstation switch 2 to the inputs of the product circuits 21, 22 and 23, to the inputs of the first product circuit 24 and to the first and second timers 22 »26. Timers 25, 26 start the timer. Simultaneously from the output of the first summation circuit 24, control voltage is applied to the first input of the fourth product circuit 28 and the first input of the seventh product circuit 2. ^The control input voltage is applied ^{to the} second input of the fourth product circuit 28 via the first time contact 27 and the second output of the switch. 2, the control voltage is applied to the third input of the fourth product circuit 28 and to the second input of the eight product product circuit 38.

Through the second summing circuit 30, the control voltage is applied to the second input of the fifth product circuit 21n ^and whose first input also supplies the control voltage from the third output of the workstation switch 2. From the output of the fifth product circuit 31, a control voltage is applied via the third additive circuit 32 to the coil 33 of the third contactor, which closes the motor circuit 50 of the first dispenser.

The control * voltage from the fourth output of the workstation switch 2 is applied to the second input of the sixth product circuit 34 and to its first input the control voltage is output from the output of the second total circuit 22. The control voltage is applied via the sixth product circuit 34 and the fourth total circuit. the inlet of the coil 36 of the fourth contactor which closes the circuit of the motor 21 of the second dispenser.

The first and second metering devices 21, 53 begin to move and force the adhesive 54 through the duct 54 into the mixers 46, 22 'which are driven by the motor 55, 56 of the first and second mixers. After the start of operation of the two dosing devices 22, 53, control voltage is applied to the coil 33 of the third contactor and the coil 36 of the fourth contactor from the deceleration devices 32, 2 ^{through the} summing circuits 32 and 35.

After a period of time less than the time required to process a single batch, the first time contact 27 opens and the second input of the third and fourth circuits 32, 35 is de-energized. Input coils 22 »36 third and fourth contactor is then fed as control voltage from the output deceleration Cudi £ 2 ^through P ^rv Y input of the third and fourth summation circuit 22» 3.5 ♦

The metering devices 21, 53 are operated until they are in the initial position. At the same time as the dosing is started, the rotation of the first and second fixtures 22, 2 '', ⁱⁿ which the lava and the right optical insert 59, 60 of the automotive headlamps are mounted, is activated. A control voltage from the seventh * product circuit 38 is applied to the coil input 42 of the fifth contactor via the fifth total circuit 4.1.

The coil 42 of the fifth contactor closes the electrical circuit of the chuck drive unit 61, the copier 62 describing the curve of the pattern 62 that is identical to the curve of the lava optical insert 59.

The copier performs a mirror movement with the right optical insert 40. Leaving any of the starting positions of the copier 62, which outside the inner number 7 and the outer number 8, are brought to the on state and control voltage is applied to the coil input 42 of the fifth contactor via the eight product circuit 39 and the fifth total circuit 41 26 is shorter than 1.5 turns of clamps 22 »5® ·

After the set time of the second time member 26 has elapsed, the second time contact 40 is switched.

from the first output to the second, thereby applying control voltage to the coil inlet 42 of the fifth contactor from the inner and outer numbers 2 '. The product circuit 39 and the fifth total circuit are separated

41, Upon reaching the outside number 2 by the copier 6 2, the power supply to the coil 42 of the fifth contactor is interrupted and the copier 62 with the clamps 57, 58 is stopped.

By switching the second time contact 40 to the second output, a control voltage is applied to the coil 44 of the trip relay, the input of which is self-holding via the contact 43 to the third contact 11c of the start button 11. A control voltage is applied to the second inputs of the bistable circuits 14, 15 via the tripping contacts 12, 13, thereby flipping the circuitry and the control voltage is applied through their second outputs to the coil of the second and fourth electro-pneumatic valves 17, 19 49 lift the mixers 46, 47 to the upper position at which the duty cycle ends. The trip relay 14 remains in the closed position and its circuit is not interrupted until the trigger button 11 is pressed again.

The automatic function of the control circuits is similar for the operation of individual workplaces.

In manual operation, whether the metering device 5.2, 53 or the rotation of the clamps 5 7, 5 8, the control mode switch 6 is switched to the second output and the metering device 52 or 53 is actuated by the metering control button 29, depending on the workstation the workstation switch J is set. The chuck control button 37 controls the rotation of the first and second chucks 57, 58.

Claims (1)

5 211308 the tension on the coil 42 of the fifth contactor and the copier 62 with the clamps 57, 58 are stopped. By tilting the second time contact 40 to the second output, the control voltage coil 44 of the trip relay is energized, the input of which is held in contact with the third contact 11c of the trigger button 11 by a self-holding contact 43. A control voltage is applied to the second inputs of the bistable circuits 14, 15 via the tripping contacts 12, 13, thereby flipping these circuits and bringing the control voltage through the second outputs to the coil of the second and fourth electropneumatic valves 17, 19 when pneumatic the rollers 48, 49 lift the mixers 46, 47 to the upper position in which the work cycle ends. The switch-off relay 14 remains in the closed position and the circuit is interrupted only when the lowering button 11 is pressed. With manual control, whether the metering device 5.2, 53, or the rotation of the clamps 5, 5, 8, and the operating mode switch to the second output, the metering device 52 or 53 is actuated by the metering control button 29, according to which station switch j is switched on workplaces. The clamp control button 37 controls the rotation of the first and second clamps 57, 58. BACKGROUND OF THE INVENTION Involvement of actuating control circuits for the simultaneous embedding of two components, in particular of two components in a mirrored position with a general casting gap shape consisting of sensing, actuating and control elements, characterized in that the first supply is provided. the terminal (9) is connected in series by four inputs of the switch (1) of the workstations, the inputs of the first bypass (2) of the lower switch, the second by the switch (3) by the lower clock, the first bypass (4), the second by the clock (5), the first timer a contact (27), a switch (6) of the control method, an internal button (7), an external button (8) and a third contact (11c) of the trigger button (11) and a self-holding contact (43) input of the switch relay (44), wherein the first output of the switch (1) of the workstation is connected in parallel to the input of the coil (10) of the first contactor via the first contact (11a) of the trigger button (11) and through the first input and the first output of the first bistable circuit (14) to the input of the first solenoid valve (16), through the first break contact (12) and through the second output and the second output of the first bistable circuit (14) to the input of the second electromagnetic valve (17), to the third output of the switch (1) of the workplace, to the first input of the second product circuit du / 22 / a on the first input of the fifth product circuit (31), the second and fourth outputs of the switch (1) of the workstation are connected via a second contact (11b) of the trigger button (11) and via the first input of the first output of the second bistable circuit (15) to the input of the third electromagnetic valve (18) /, through the second switch contact (13) and through the second input and the second output of the second bistable circuit (15) to the input of the fourth solenoid valve (19), to the input of the coil (20) of the second contactor, to the first input of the first product circuit (21) and on the second input of the sixth product line (34), the output of the first downstream / 2 / downstream position is parallel connected to the second input of the first product circuit (21) and to the first input of the third product circuit (23), / 3 / lower position is parallel connected to the second input of the second product circuit (22) and to the second input of the third product circuit (23), wherein the outputs of the first, second and third efficiency circuits water (21, 22, 23) are connected to a first, a second and a third input of the first summing circuit (24), the output of which is parallel connected to the inputs of the first and second timing elements (25, 26), to the first input of the fourth product circuit / 28 / and to the first input of the seventh product circuit (38), the output of the first stopwatch (4) is connected to the first input of the third circuit (32), the output of the second stopwheel (5) is connected to the first input of the fourth circuit (32) the output of the first time contact (27) is connected to the second input of the fourth product circuit (28), the output of which is connected to the first input of the second sum circuit (30), the first output of the switch (6), control is connected in parallel to the third input of the fourth product circuit (28) and to the second input of the seventh product circuit (38), 211308 6 whose output is connected to the input of the second input contact (40) and via its first output the second input of the fifth sum circuit (41), the second output of the second timing contact (40) being connected to the input of the trip relay (44), to the second output of the actuator switch (6) is in parallel via the dosing control button (29) the second input of the second circuit (30) connected and the first input of the fifth suit circuit (41) via the clamp actuator button (37), the output of the second sum circuit (30) is parallel connected to the second input of the circuit product circuit (31) and to the first input of the ninth product circuit (34), the output of the fifth product circuit (31) is connected to the second input of the third sum circuit (32), which output is connected to the input of the coil (33) of the third contactor and the output of the co-operative circuit / 34 / is connected to the second input of the fourth summing circuit (35), the output of which is connected to the coil input (36) of the fourth contactor, the output of the inner coil (7) is connected a second input of the eighth product circuit (39) is connected to the first input of the fourth product circuit (39) and an output of the external device (9) and its output is connected to a third input of the fifth billet circuit (41), the output of which is connected to the coil input (42) a fifth contactor, a coil outlet (10) of a first contactor, a first, a second, a third and a fourth electromagnetic valve (16, 17, 18, 19), a coil (20) of a second contactor, a first and a second time member (25, 26), a coil (33) of a third coil (36) of a fourth and a coil (42) of a fifth contactor and a trip relay (44) are connected to a kind of power supply terminal (45). 3 sheets of drawings. Severografia, n. P. Plant 7, Most '