CN204406078U - First controller, second controller and control system - Google Patents

Abstract

The utility model discloses a kind of first controller, comprise the first chip, the first circuit for controlling motor, the first chip power supply end, the first power supply side, the first circuit for controlling motor; Also disclose a kind of second controller, comprise the second chip, the second circuit for controlling motor, the second chip power supply end, second source feeder ear, the second circuit for controlling motor connect and chip control circuit, also disclose a kind of by between the first controller and second controller by control system that patchcord connects.First controller, second controller both can respectively use separately telepilot to control and non-interference, and first controller, second controller also can use same telepilot to control after connecting into control system, change convenient, fast between an one control one and control two, easily operate.

Description

First controller, second controller and control system

Technical field

The control system that the utility model relates to a kind of first controller, second controller and is made up of the first controller and second controller.

Background technology

Existing infrared control device is generally made up of controller 01, infrared receiver box 02, Infrared remote controller 03, controller 01 and independent two parts of infrared receiver box 02.Generally, 1 Infrared remote controller controls 1 controller, each controller 01 is equipped with an infrared receiver box 02, connected by connecting line between controller 01, infrared receiver box 02, controller 01 receives the signal of Infrared remote controller by infrared receiver box 02, is illustrated in figure 11 Infrared remote controller and controls 1 controller and the schematic diagram (not shown Infrared remote controller) being controlled motor 05 by this controller; The function of 1 controller and 2 controllers is controlled to possess 1 Infrared remote controller simultaneously, when needing 1 Infrared remote controller to control 2 controllers simultaneously, 2 controllers use an infrared receiver box 02 jointly, now then need 1 turn of 2 patchcord 04 for subsequent use, as shown in Figure 2.The problem brought like this is:

1, inconvenient operation: then when 1 Infrared remote controller controls 2 controllers simultaneously, needs original infrared receiver box to pull up, is then connected on controller by 1 turn of 2 patchcord by infrared receiver box;

2, inconvenience is installed, takes up room large: because controller and infrared receiver box are 2 independent parts, then take up room large when installing and inconvenience is installed.

Summary of the invention

Technical problem to be solved in the utility model is to provide a kind of first controller, second controller and control system, first controller, second controller both can respectively use separately telepilot to control and non-interference, and first controller, second controller also can use same telepilot to control after connecting into control system, change convenient, fast between an one control one and control two, easily operate.

For solving above-mentioned existing technical matters, the utility model adopts following scheme: the first controller, comprise the first chip, first circuit for controlling motor, first chip power supply end and the first power supply side, described first chip has the first pin I, first pin II, first pin III and the first pin IV, described first pin I, first pin II connects with the first circuit for controlling motor, described first pin III ground connection, described first pin IV connects with the first chip power supply end, described first circuit for controlling motor comprises the first motor, first relay I, first relay II, first relay III, first relay IV and the first relay V, described first relay I, first relay II all has a moving contact and two stationary contacts, described first motor one end connects with the moving contact of the first relay I, the other end connects with the moving contact of the first relay II, a stationary contact of described first relay I is by the first relay V ground connection, another stationary contact connects with the first power supply side, the coil of described first relay I is connected with the first relay III formation first series circuit I, one end of described first series circuit I connects with the first power supply side, the other end connects with the first pin II, a stationary contact of described first relay II is by the first relay V ground connection, another stationary contact connects with the first power supply side, coil and first relay IV of described first relay II are connected into the first series circuit II, one end of described first series circuit II connects with the first power supply side, the other end connects with the first pin I, the coil of described first relay III, the coil of the first relay IV and equal one end of coil of the first relay V connect with the first power supply side, other end ground connection.

Second controller, comprise the second chip, second circuit for controlling motor, second chip power supply end and second source feeder ear, described second chip has the second pin I, second pin II, second pin III and the second pin IV, described second pin I, second pin II connects with the second circuit for controlling motor, described second controller also comprises chip control circuit, described chip control circuit comprises the second relay VI and the second relay VII, a contact of described second relay VII connects with the second pin IV, another contact connects with the second chip power supply end, a contact of described second relay VI connects with the second pin III, another contact ground, the coil of described second relay VI and coil one end of the second relay VII connect, the coil other end of described second relay VI and the equal ground connection of the coil other end of the second relay VII.

As preferably, described second circuit for controlling motor comprises the second motor, second relay I, second relay II, second relay III, second relay IV and the second relay V, described second relay I, second relay II all has a moving contact and two stationary contacts, described second motor one end connects with the moving contact of the second relay I, the other end connects with the moving contact of the second relay II, a stationary contact of described second relay I is by the second relay V ground connection, another stationary contact connects with second source feeder ear, the coil of described second relay I is connected with the second relay III formation second series circuit I, one end of described second series circuit I connects with second source feeder ear, the other end connects with the second pin II, a stationary contact of described second relay II is by the second relay V ground connection, another stationary contact connects with second source feeder ear, the coil of described second relay II is connected with the second relay IV formation second series circuit II, one end of described second series circuit II connects with second source feeder ear, the other end connects with the second pin I, the coil of described second relay III, the coil of the second relay IV and equal one end of coil of the second relay V connect with second source feeder ear, other end ground connection.

Control system, comprise the first controller as described above and second controller, connected by patchcord between first controller and second controller, described patchcord comprises the first patchcord, second patchcord, 3rd patchcord and the 4th patchcord, described 3rd patchcord one end connects with the first pin I, the other end connects with the second pin I, described second patchcord one end connects with the first pin II, the other end connects with the second pin II, described first patchcord one end connects with the earth terminal of motor, the other end is connected with the earth terminal of the second relay VII, described 4th patchcord one end is connected between the coil of the second relay VI and the coil of the second relay VII, the described 4th patchcord other end connects with the first power supply side or second source feeder ear.

Beneficial effect:

One first controller, second controller and control system that the utility model adopts technique scheme to provide, first controller, second controller both can respectively use separately telepilot to control and non-interference, and first controller, second controller also can use same telepilot to control after connecting into control system, change convenient, fast between an one control one and control two, easily operate.

Accompanying drawing explanation

Fig. 1 is the circuit diagram of the first controller in the utility model;

Fig. 2 is the circuit diagram of second controller in the utility model;

Fig. 3 is the first controller, second controller be connected with patchcord after the first circuit diagram;

Fig. 4 is the first controller, second controller be connected with patchcord after the second circuit diagram;

Embodiment

Embodiment one:

Be illustrated in figure 1 a kind of embodiment of the utility model first controller, this first controller comprises the first chip 1, first circuit for controlling motor, first chip power supply end 31 and the first power supply side 32, first chip has the first pin I 11, first pin II 12, first pin III 13 and the first pin IV 14, first pin I 11, first pin II 12 connects with the first circuit for controlling motor, first pin III 13 ground connection, first pin IV 14 connects with the first chip power supply end 31, wherein, first circuit for controlling motor comprises the first motor 34, first relay I 21, first relay II 22, first relay III 23, first relay IV 24 and the first relay V 25, first relay I 21, first relay II 22 all has a moving contact and two stationary contacts, first motor 34 one end connects with the moving contact of the first relay I 21, the other end connects with the moving contact of the first relay II 22, a stationary contact of the first relay I 21 is by the first relay V 25 ground connection, another stationary contact connects with the first power supply side 32, the coil of the first relay I 21 is connected with the first relay III 23 formation first series circuit I, one end of first series circuit I connects with the first power supply side 32, the other end connects with the first pin II 12, a stationary contact of the first relay II 22 is by the first relay V 25 ground connection, another stationary contact connects with the first power supply side 32, coil and first relay IV 24 of the first relay II 22 are connected into the first series circuit II, one end of first series circuit II connects with the first power supply side 32, the other end connects with the first pin I 11, the coil of the first relay III 23, the coil of the first relay IV 24 and equal one end of coil of the first relay V 25 connect with the first power supply side 32, other end ground connection.

In the present embodiment, by arranging the first relay III 23, first relay IV 24 and the first relay V 25, effectively can reduce the probability that the first machine operation breaks down.Wherein, the first power supply side 32 adopts+24V to power, and the first chip power supply end 31 adopts+5V to power.

Embodiment two:

Be illustrated in figure 2 a kind of embodiment of the utility model second controller, this second controller comprises the second chip 4, second circuit for controlling motor, second chip power supply end 61 and second source feeder ear 62, second chip has the second pin I 41, second pin II 42, second pin III 43 and the second pin IV 44, second pin I 41, second pin II 42 connects with the second circuit for controlling motor, wherein second controller also comprises chip control circuit, chip control circuit comprises the second relay VI 56 and the second relay VII 57, a contact of the second relay VII 57 connects with the second pin IV 44, another contact connects with the second chip power supply end 61, a contact of the second relay VI 56 connects with the second pin III 43, another contact ground, the coil of the second relay VI 56 and coil one end of the second relay VII 57 connect, the coil other end of the second relay VI 56 and the equal ground connection of the coil other end of the second relay VII 57.

In the present embodiment, second circuit for controlling motor comprises the second motor 64, second relay I 51, second relay II 52, second relay III 53, second relay IV 54 and the second relay V 55, second relay I 51, second relay II 52 all has a moving contact and two stationary contacts, second motor 64 one end connects with the moving contact of the second relay I 51, the other end connects with the moving contact of the second relay II 52, a stationary contact of the second relay I 51 is by the second relay V 55 ground connection, another stationary contact connects with second source feeder ear 62, the coil of the second relay I 51 is connected with the second relay III 53 formation second series circuit I, one end of second series circuit I connects with second source feeder ear 62, the other end connects with the second pin II 42, a stationary contact of the second relay II 52 is by the second relay V 55 ground connection, another stationary contact connects with second source feeder ear 62, the coil of the second relay II 52 is connected with the second relay IV 54 formation second series circuit II, one end of second series circuit II connects with second source feeder ear 62, the other end connects with the second pin I 41, the coil of the second relay III 53, the coil of the second relay IV 54 and equal one end of coil of the second relay V 55 connect with second source feeder ear 62, other end ground connection.

In the present embodiment, by arranging chip control circuit, using when being mainly used in being connected with the first controller, can easily the second chip power supply end 61 be disconnected; And by arranging the second relay III 53, second relay IV 54 and the first relay V 55, the probability that the second machine operation breaks down effectively can be reduced.Wherein, second source feeder ear 62 adopts+24V to power, and the second chip power supply end 61 adopts+5V to power.

Embodiment three:

Be illustrated in figure 3 the first embodiment of the utility model control system, it comprises as the first controller of embodiment one and the second controller as embodiment two, connected by patchcord between first controller and second controller, patchcord comprises the first patchcord 71, second patchcord 72, 3rd patchcord 73 and the 4th patchcord 74, 3rd patchcord 73 one end connects with the first pin I 11, the other end connects with the second pin I 41, second patchcord 72 one end connects with the first pin II 12, the other end connects with the second pin II 42, first patchcord 71 one end connects with the earth terminal of motor, the other end is connected with the earth terminal of the second relay VII 57, 4th patchcord 74 one end is connected between the coil of the second relay VI 56 and the coil of the second relay VII 57, there is the tie-point 63 for connecting with the 4th patchcord 74 between the coil and the coil of the second relay VII 57 of the second relay VI 56, 4th patchcord 74 other end connects with the first power supply side 32 or second source feeder ear 62.

In this embodiment, when first controller and second controller individually use, the first power supply side 32 in the second chip power supply end 61, first controller in the first chip power supply end 31 in first controller and second controller and the second source feeder ear 62 in second controller are independent, non-interference impact; When the first controller and second controller are linked together by patchcord, the second chip power supply end 61 in second controller and the second chip disconnects, the second pin III 43 ground connection is disconnected by the second relay VI 56, now the second chip does not work, by the second patchcord 72 and the 3rd patchcord 73 the first chip port signal in first controller is connected to the second circuit for controlling motor on second controller, make the second circuit for controlling motor by the first chip controls work, reach an Infrared remote controller and control 2 controller actions simultaneously.

In this embodiment, because each controller chips feeder ear, chip ground end separate with power supply GND, when two controllers are linked together, chip does not affect by power supply.When two controllers connect, the second chip power supply end of the second chip and the second pin III are disconnected simultaneously, the situation causing another controller motor auto-action during the power remove when a controller can be avoided.

Embodiment four:

Be illustrated in figure 4 the second embodiment of the utility model control system, it comprises as the first controller of embodiment one and the second controller as embodiment two, connected by patchcord between first controller and second controller, patchcord comprises the first patchcord 71, second patchcord 72, 3rd patchcord 73 and the 4th patchcord 74, 3rd patchcord 73 one end connects with the first pin I 11, the other end connects with the second pin I 41, second patchcord 72 one end connects with the first pin II 12, the other end connects with the second pin II 42, first patchcord 71 one end connects with the earth terminal of motor, the other end is connected with the earth terminal of the second relay VII 57, 4th patchcord 74 one end is connected between the coil of the second relay VI 56 and the coil of the second relay VII 57, there is the tie-point 63 for connecting with the 4th patchcord 74 between the coil and the coil of the second relay VII 57 of the second relay VI 56, the difference of this structure and embodiment three is, 4th patchcord 74 other end connects with the first power supply side 32 or second source feeder ear 62.

In embodiment three and embodiment four, the first power supply side 32 and second source feeder ear 62 are also linked together by patchcord, are equivalent to the first circuit for controlling motor and the second circuit for controlling motor is powered by same power supply side.

In addition to the implementation, the utility model also has other embodiments, those skilled in the art can make various change and distortion according to the utility model, as carried out simple transformation in the order of connection of each electronic component, only otherwise depart from spirit of the present utility model, the scope that the utility model claims define all should be belonged to.

Claims (4)

1. the first controller, comprise the first chip (1), first circuit for controlling motor, first chip power supply end (31) and the first power supply side (32), first chip has the first pin I (11), first pin II (12), first pin III (13) and the first pin IV (14), first pin I, first pin II connects with the first circuit for controlling motor, first pin III ground connection, first pin IV connects with the first chip power supply end, it is characterized in that: the first circuit for controlling motor comprises the first motor (34), first relay I (21), first relay II (22), first relay III (23), first relay IV (24) and the first relay V (25), first relay I, first relay II all has a moving contact and two stationary contacts, first motor one end connects with the moving contact of the first relay I, the other end connects with the moving contact of the first relay II, a stationary contact of the first relay I is by the first relay V ground connection, another stationary contact connects with the first power supply side, coil and first relay III of the first relay I are connected into the first series circuit I, one end of first series circuit I connects with the first power supply side, the other end connects with the first pin II, a stationary contact of the first relay II is by the first relay V ground connection, another stationary contact connects with the first power supply side, coil and first relay IV of the first relay II are connected into the first series circuit II, one end of first series circuit II connects with the first power supply side, the other end connects with the first pin I.

2. second controller, comprise the second chip (4), second circuit for controlling motor, second chip power supply end (61) and second source feeder ear (62), second chip has the second pin I (41), second pin II (42), second pin III (43) and the second pin IV (44), second pin I, second pin II connects with the second circuit for controlling motor, it is characterized in that: second controller also comprises chip control circuit, chip control circuit comprises the second relay VI (56) and the second relay VII (57), a contact of the second relay VII (57) connects with the second pin IV, another contact connects with the second chip power supply end, a contact of the second relay VI connects with the second pin III, another contact ground, the coil of the second relay VI and coil one end of the second relay VII connect, the coil other end of the second relay VI and the equal ground connection of the coil other end of the second relay VII.

3. second controller according to claim 2, it is characterized in that: the second circuit for controlling motor comprises the second motor (64), second relay I (51), second relay II (52), second relay III (53), second relay IV (54) and the second relay V (55), second relay I (51), second relay II (52) all has a moving contact and two stationary contacts, second motor (64) one end connects with the moving contact of the second relay I (51), the other end connects with the moving contact of the second relay II (52), a stationary contact of the second relay I (51) is by the second relay V (55) ground connection, another stationary contact connects with second source feeder ear (62), the coil of the second relay I (51) is connected with the second relay III (53) formation second series circuit I, one end of second series circuit I connects with second source feeder ear (62), the other end connects with the second pin II (42), a stationary contact of the second relay II (52) is by the second relay V (55) ground connection, another stationary contact connects with second source feeder ear (62), the coil of the second relay II (52) is connected with the second relay IV (54) formation second series circuit II, one end of second series circuit II connects with second source feeder ear (62), the other end connects with the second pin I (41).

4. control system, it is characterized in that: comprise the first controller as claimed in claim 1 and second controller as claimed in claim 2 or claim 3, connected by patchcord between first controller and second controller, patchcord comprises the first patchcord (71), second patchcord (72), 3rd patchcord (73) and the 4th patchcord (74), 3rd patchcord (73) one end connects with the first pin I (11), the other end connects with the second pin I (41), second patchcord (72) one end connects with the first pin II (12), the other end connects with the second pin II (42), first patchcord (71) one end connects with the earth terminal of motor, the other end is connected with the earth terminal of the second relay VII (57), 4th patchcord (74) one end is connected between the coil of the second relay VI (56) and the coil of the second relay VII (57), 4th patchcord (74) other end connects with the first power supply side (32) or second source feeder ear (62).