CN204993614U - Universal cloud platform control system of remote control - Google Patents

Abstract

The utility model relates to an universal cloud platform control system of remote control, including being used for sending control signal's operation platform and the universal cloud platform that is used for received signal, operation platform includes command input equipment and instruction handling circuit, command input equipment is used for receiving user's operating instruction to with this instruction issue to instruction handling circuit, instruction handling circuit is used for receiving operating instruction handles the back, takes place to universal cloud platform, universal cloud platform includes camera lens, is used for to control a step motor, the 2nd step motor and the 3rd step motor that this camera lens is upper and lower, control and rotate to and motor -drive circuit, motor -drive circuit for the receipt comes from operation platform's instruction, and handles the back, control three step motor's work is with control camera lens's rotation.

Description

A kind of remote control universal turning bench control system

Technical field

The utility model relates to a kind of control system, particularly a kind of remote control universal turning bench control system.

Background technology

When clinical treatment, particularly when doctor is when performing the operation, often needing to carry out carrying out observation surgical procedure by shooting, play in real time and record, can conveniently watch in surgical procedure, also can carry out demonstration lesson by video recording simultaneously.

But existing pick-up lens is relatively fixing, the limited angle of shooting, is difficult to reduce the scene of whole operation and details.In addition when needs adjustment camera site, staff is needed to operate, so easy operation affecting doctor, and also inconvenient when adjusting.

Therefore, for existing problem, need to provide a kind of system that can control camera lens and carry out rotating.

Utility model content

The utility model is that the shortcoming overcoming prior art is with not enough, provides a kind of control system of universal turning bench.

The utility model is achieved through the following technical solutions: a kind of remote control universal turning bench control system, comprises the operating platform for transmitting control signal and the universal turning bench for Received signal strength; Described operating platform comprises command input device and instruction handling circuit;

This instruction for receiving the operational order of user, and is sent to instruction handling circuit by described command input device; Described instruction handling circuit, for receiving described operational order, after processing, occurs to universal turning bench;

Described universal turning bench comprise pick-up lens, for control this pick-up lens up and down, the first stepping motor of left and right and rotation, the second stepping motor and the 3rd stepping motor, and motor-drive circuit; Described motor-drive circuit, for receiving the instruction from operating platform, after row relax of going forward side by side, controls the work of described three stepping motors, to control the rotation of described pick-up lens.

Compared to prior art, the utility model provides a kind of control system of universal turning bench, by the input of the instruction at operating platform, and transfers to universal turning bench, thus controls the rotation of camera lens, the shooting angle of adjustment camera lens.

As further improvement of the utility model, described instruction handling circuit comprises control chip; Described control chip outside is provided with: for receive external power source power supply receiving port, for receive instruction command reception port, for the signal output port of output order, for receiving the clock signal port of external timing signal and the configured port for receiving configuration signal; Described command reception port is connected with described command input device, for receiving operational order, after control chip internal processor processes, by described signal output port by command to universal turning bench.

As further improvement of the utility model, the power port of described control chip is connected to a filter circuit, and external voltage is by the power port of this filter circuit access control chip; Described filter circuit comprises inductance and the electric capacity of series connection; One end of described inductance connects external voltage, and the other end is by this capacity earth, and the access of described power port is between this inductance and electric capacity.

As further improvement of the utility model, there is a crystal oscillating circuit described clock signal port outside; Described crystal oscillating circuit is used for providing clock signal for control chip.

As further improvement of the utility model, described command input equipment comprises keyboard and rocking bar; The signal input port of described control chip comprises keyboard signal receiving port and rocking bar receiver port;

Being provided with circuits for triggering in described keyboard, for receiving the operation of user, sending the keyboard signal receiving port of triggering command to control chip; Being provided with circuits for triggering in described rocking bar, for receiving the operation of user, sending the rocking bar receiver port of triggering command to control chip.

As further improvement of the utility model, described keyboard circuits for triggering comprise 12 trigger buttons; Described trigger button arranges according to 4 row 3 row modes, and described line triggering signal is followed successively by: BD1, BD2, BD3 and BD4; Described row triggering signal is followed successively by: BD5, BD6 and BD7; When pressing described trigger button, trigger rows triggering signal and row triggering signal simultaneously, to distinguish different trigger buttons.

As further improvement of the utility model, described rocking bar circuits for triggering comprise three road output ports, are respectively used to the control command in output three directions.

As further improvement of the utility model, the external AT24C02 chip of signal configures port of described control chip, serial data pin SDA and the serial clock pin SCL of this chip access in the configured port of control chip respectively; Pin A0, A1 and A2 ground connection respectively of the address date selection of this chip.

As further improvement of the utility model, described command reception circuit also comprises a signal conversion chip; Described signal conversion chip, for receiving the instruction output signal of control chip, and is converted to RS485 signal, and transfers to universal turning bench.

As further improvement of the utility model, the motor-drive circuit of described universal turning bench comprises communication chip, single-chip microcomputer, the first modulus conversion chip, the second modulus conversion chip, the first motor drive ic, the second motor drive ic and the 3rd motor drive ic;

Described communication chip, for the operational order that Received signal strength conversion chip sends, and is sent to single-chip microcomputer after carrying out signal transacting;

Described single-chip microcomputer, for receiving the operational order of the forwarding of communication chip, carrying out after after process, outputing signal to the first modulus conversion chip and the second modulus conversion chip respectively;

The digital signal that this monolithic exports is converted to analog signal by described first modulus conversion chip and the second modulus conversion chip, and is sent to the first motor drive ic, the second motor drive ic and the 3rd motor drive ic respectively;

After described first motor drive ic, the second motor drive ic and the 3rd motor drive ic receive the control signal of the first modulus conversion chip and the second modulus conversion chip, the work of respective drive stepping motor.

As further improvement of the utility model, described communication chip comprises 8 pins, is respectively: non-oppisite phase end, end of oppisite phase, receiver input, receiver Enable Pin, driver Enable Pin, driver output end, power access end and earth terminal; Described non-oppisite phase end and end of oppisite phase are used for the signal transmission of Received signal strength conversion chip, and are exported by described receiver input.

As further improvement of the utility model, described single-chip microcomputer comprises power end, signal input part, signal output part, reset terminal, external memory storage receiving terminal and earth terminal; Described signal input part is for receiving the output signal of communication chip; Described signal output part, exports point level signal after single-chip microcomputer inter-process to the first modulus conversion chip and the second modulus conversion chip.

As further improvement of the utility model, described first modulus conversion chip comprises power end, data receiver, analog signal output and reference voltage incoming end; Described data receiver for receiving the output signal of single-chip microcomputer, and is converted to analog signal and is sent to the first motor drive ic and the second motor drive ic;

Described second modulus conversion chip comprises power end, data receiver, analog signal output and reference voltage incoming end; Described data receiver for receiving the output signal of single-chip microcomputer, and is converted to analog signal and is sent to the second motor drive ic and the 3rd motor drive ic.

As further improvement of the utility model, described first motor drive ic comprises power end, signal receiving end, signal output part, clock signal incoming end and earth terminal; Described signal receiving end for receiving the output signal of the first modulus conversion chip, and passes through this signal output part output drive signal to the first stepping motor;

Described second motor drive ic comprises power end, signal receiving end, signal output part, clock signal incoming end and earth terminal; Described signal receiving end for receiving the output signal of the first modulus conversion chip and the second modulus conversion chip, and passes through this signal output part output drive signal to the second stepping motor;

Described 3rd motor drive ic comprises power end, signal receiving end, signal output part, clock signal incoming end and earth terminal; Described signal receiving end for receiving the output signal of the second modulus conversion chip, and passes through this signal output part output drive signal to the 3rd stepping motor.

In order to understand better and implement, describe the utility model in detail below in conjunction with accompanying drawing.

Accompanying drawing explanation

Fig. 1 is the model calling schematic diagram of remote control universal turning bench control system.

Fig. 2 is the external interface circuit figure of control chip.

Fig. 3 is the partial enlarged drawing of the power port of control chip.

Fig. 4 is the circuit diagram of 3.3V voltage.

Fig. 5 is the partial enlarged drawing of keyboard signal receiving port.

Fig. 6 is the circuits for triggering figure of keyboard.

Fig. 7 is rocking bar triggering signal receiving port.

Fig. 8 is rocking bar circuit diagram.

Fig. 9 is the circuit diagram of the AT24C02 chip of control chip.

Figure 10 is the circuit diagram of the signal conversion chip of signal conversion chip.

Figure 11 is the circuit diagram of communication chip.

Figure 12 is the circuit diagram of single-chip microcomputer.

Figure 13 is the circuit diagram of storage circuit.

Figure 14 is the circuit diagram of the first modulus conversion chip.

Figure 15 is the circuit diagram of reference voltage.

Figure 16 is the circuit diagram of the second modulus conversion chip.

Figure 17 is the circuit diagram of reference voltage.

Figure 18 is the circuit diagram of the first motor drive ic.

Figure 19 is the circuit diagram of voltage conversion circuit.

Figure 20 is the circuit diagram of filter circuit.

Figure 21 is the partial enlarged drawing of the signal input port of the first motor drive ic

Figure 22 is signal annexation figure.

Figure 23 is the circuit diagram of the signal input of the first electric machine spacing switch.

Figure 24 is the circuit diagram of the second motor drive ic.

Figure 25 is the partial enlarged drawing of the signal input port of the second motor drive ic.

Figure 26 is the circuit diagram of the signal input of the second electric machine spacing switch.

Figure 27 is the circuit diagram of the 3rd motor drive ic.

Figure 28 is the partial enlarged drawing of the signal output port of the 3rd motor drive ic.

Figure 29 is the circuit diagram of the signal input of the second electric machine spacing switch.

Embodiment

Refer to Fig. 1, it is the model calling schematic diagram of remote control universal turning bench control system.

The utility model relates to provides a kind of remote control universal turning bench control system, comprises the operating platform for transmitting control signal and the universal turning bench for Received signal strength; Described operating platform comprises command input device and instruction handling circuit;

This instruction for receiving the operational order of user, and is sent to instruction handling circuit by described command input device; Described instruction handling circuit, for receiving described operational order, after processing, occurs to universal turning bench;

Described universal turning bench comprise pick-up lens, for control this pick-up lens up and down, the first stepping motor of left and right and rotation, the second stepping motor and the 3rd stepping motor, and motor-drive circuit; Described motor-drive circuit, for receiving the instruction from operating platform, after row relax of going forward side by side, controls the work of described three stepping motors, to control the rotation of described pick-up lens.

Please refer to Fig. 2, it is the external interface circuit figure of control chip.

Further, described instruction handling circuit comprises control chip; Described control chip 10 outside is provided with: for receive the power supply receiving port 101 of external power source, command reception port, for the signal output port 104 of output order, for receiving the clock signal port 105 of external timing signal and the configured port 106 for receiving configuration signal.There is a crystal oscillating circuit described clock signal port 105 outside; Described crystal oscillating circuit is used for providing clock signal for control chip.

Please refer to Fig. 3, it is the partial enlarged drawing of the power port of control chip.

Concrete, the power port 101 of described control chip comprises VDD1, VDD2, VDD3 and VDDA tetra-power pins; Wherein VDD1, VDD2, VDD3 and VDDA access the voltage of 3.3V respectively;

Described VDDA is circumscribed with a filter circuit, and external voltage is by the power port of this filter circuit access control chip; Described filter circuit comprises inductance L 1 and the electric capacity C3 of series connection; One end of described inductance connects external voltage, and the other end is by this capacity earth, and the access of described power port is between this inductance and electric capacity.

Please refer to Fig. 4, it is the circuit diagram of 3.3V voltage.Described 3.3V voltage is connected to the electric capacity of multiple parallel connection, and the capacity earth of described parallel connection.By the electric capacity of this parallel connection, the alternating current part in voltage can be drained.

Described command reception port is connected with described command input device, for receiving operational order, after control chip internal processor processes, by described signal output port by command to universal turning bench.Concrete, the command reception port of the present embodiment comprises keyboard signal receiving port 102 and rocking bar receiver port 103.Described command input equipment comprises keyboard 11 and rocking bar 12.

Refer to Fig. 5 and Fig. 6, it is respectively the partial enlarged drawing of keyboard signal receiving port and the circuits for triggering figure of keyboard.

Described keyboard signal receiving port 102 comprises 7 Signal reception pins, for receiving the output signal of keyboard.Concrete, described Signal reception pin is respectively: BD1, BD2, BD3, BD4, BD5, BD6 and BD7.

Being provided with circuits for triggering in described keyboard, for receiving the operation of user, sending the keyboard signal receiving port of triggering command to control chip; Being provided with circuits for triggering in described rocking bar, for receiving the operation of user, sending the rocking bar receiver port of triggering command to control chip.Wherein, described keyboard circuits for triggering comprise 12 trigger buttons, are respectively S1 ~ S12; Described trigger button arranges according to 4 row 3 row modes, and described line triggering signal is followed successively by: BD1, BD2, BD3 and BD4; Described row triggering signal is followed successively by: BD5, BD6 and BD7; When pressing described trigger button, trigger rows triggering signal and row triggering signal simultaneously, to distinguish different trigger buttons.Such as: as user's button click S1, triggering signal BD1 and BD2 simultaneously, these two signals are sent in the pin of BD1 and BD2 of keyboard signal receiving port by the circuits for triggering in keyboard simultaneously, thus differentiation is the triggering signal of which button.

Concrete, please refer to Fig. 7 and Fig. 8, it is respectively rocking bar triggering signal receiving port and rocking bar circuit diagram.

Described rocking bar receiver port 103 comprises these three pins of ADC1, ADC2 and ADC3.Accordingly, described rocking bar circuits for triggering also comprise three triggering signal output pins, are respectively used to the control command in output three directions, and are sent to respectively in three pins of rocking bar receiver port 103.

Please refer to Fig. 9, it is the circuit diagram of the AT24C02 chip of control chip.

The signal configures port of described control chip, comprises two pins, is respectively SDA and SCL pin, and a simultaneously external AT24C02 chip, serial data pin SDA and the serial clock pin SCL of this chip access in the configured port of control chip respectively; Pin A0, A1 and A2 ground connection respectively of the address date selection of this chip.

Further, described command reception circuit also comprises a signal conversion chip; Described signal conversion chip, for receiving the instruction output signal of control chip, and is converted to RS485 signal, and transfers to universal turning bench.

Refer to Figure 10, it is the circuit diagram of the signal conversion chip of signal conversion chip.

Described signal conversion chip 20 comprises power port 201, receiver port 202, signal output port 203 and earth terminal; Described power port is for receiving the voltage of 3.3V, and this power port is by electric capacity C4 ground connection, for alternating current part being got rid of.Described receiver port 202 comprises two signal pins, for receiving the output signal of control chip.

Further, the motor-drive circuit of described universal turning bench comprises communication chip 30, single-chip microcomputer 40, first modulus conversion chip 50, second modulus conversion chip 60, first motor drive ic 70, second motor drive ic 80 and the 3rd motor drive ic 90;

Described communication chip 30, for the operational order that Received signal strength conversion chip sends, and is sent to single-chip microcomputer after carrying out signal transacting;

Described single-chip microcomputer 40, for receiving the operational order of the forwarding of communication chip, carrying out after after process, outputing signal to the first modulus conversion chip and the second modulus conversion chip respectively;

The digital signal that this monolithic exports is converted to analog signal by described first modulus conversion chip 50 and the second modulus conversion chip 60, and is sent to the first motor drive ic, the second motor drive ic and the 3rd motor drive ic respectively;

After described first motor drive ic 70, second motor drive ic 80 and the 3rd motor drive ic 90 receive the control signal of the first modulus conversion chip and the second modulus conversion chip, the work of respective drive stepping motor.

Refer to Figure 11, it is the circuit diagram of communication chip.

Described communication chip 30 comprises power end 301, signal input part 302 and signal output part 303.Concrete, described communication chip comprises 8 pins, is respectively: non-oppisite phase end, end of oppisite phase, receiver input, receiver Enable Pin, driver Enable Pin, driver output end, power access end and earth terminal; Described non-oppisite phase end and end of oppisite phase are used for the output signal of Received signal strength conversion chip, and export signal to single-chip microcomputer 40 by described receiver input and receiver Enable Pin.

Refer to Figure 12, it is the circuit diagram of single-chip microcomputer.

Further, described single-chip microcomputer 40 comprises power end 401, signal input part 402, first signal output part 403, secondary signal output 404, the 3rd signal output part 404, the 4th signal output part 406, reset terminal, external memory storage receiving terminal 407 and earth terminal; Described signal input part 402 is for receiving the output signal of communication chip; Described first signal output part the 403 ~ four signal output part 406, for exporting point level signal after single-chip microcomputer inter-process to the first modulus conversion chip and the second modulus conversion chip respectively.

Concrete, described external memory storage receiving terminal 407 is circumscribed with a storage circuit.Refer to Figure 13, it is the circuit diagram of storage circuit.

Described storage circuit comprises a storage chip, VCC and the A0 end of this storage chip accesses 5V voltage respectively; Described A1, A2, VSS, WP hold ground connection; Described SCL and SDA accesses in two pins of the external reception end 407 in shop respectively.

Refer to Figure 14, it is the circuit diagram of the first modulus conversion chip.

Described first modulus conversion chip 50 comprises power end 501, data receiver 502, analog signal output 503 and reference voltage incoming end 504; Described data receiver 501 for receiving the output signal of single-chip microcomputer, and is converted to analog signal, is sent to the first motor drive ic 70 and the second motor drive ic 80 by analog signal output 503.

Concrete, what described power end 501 accessed is 5V voltage, and this power end is by an electric capacity C21 ground connection, thus gets rid of alternating current portion voltage.

Described signal input part 502 comprises four pins, is respectively serial line interface, interface clock signal, LDAC and LOAD interface; Described LDAC interface, for loading DAC, when high level appears in pin, also can not upgrade the output of DAC even if there is digital quantity to be read into serial port.Only have when pin becomes low level from high level, DAC exports and just upgrades.Described LOAD interface is used for serial ports Loading Control.When LDAC is low level, and when trailing edge appears in LOAD pin, digital quantity is saved to latch, and output produces analog voltage subsequently.

Described signal output port 503 comprises DACA, DACB, DACC and DACD tetra-output pins.

Described reference voltage access interface 504 comprises four voltage access pins, is respectively REFA, REFB, REFC and REFD tetra-pins.And described reference voltage access interface 504 is circumscribed with a reference voltage circuit.

Refer to Figure 15, it is the circuit diagram of reference voltage.

The voltage of described reference voltage circuit is input as 5V, this voltage carries out dividing potential drop by the resistance of two series connection, export the first voltage REFA and REFB two pins to reference voltage input terminal mouth 504, carry out dividing potential drop by two other series resistance, export the second voltage REFC and REFD two pins to reference voltage input terminal mouth 504.

Refer to Figure 16, it is the circuit diagram of the second modulus conversion chip.

Described second modulus conversion chip 60 comprises power end 601, data receiver 602, analog signal output 603 and reference voltage incoming end 604; Described data receiver 601 for receiving the output signal of single-chip microcomputer 40, and is converted to analog signal, is sent to the second motor drive ic 80 and the 3rd motor drive ic 90 by analog signal output mouth 603.

Concrete, what described power end 601 accessed is 5V voltage, and this power end is by an electric capacity C22 ground connection, thus gets rid of alternating current portion voltage.

Described signal input part 602 comprises four pins, is respectively serial line interface, interface clock signal, LDAC and LOAD interface; Described LDAC interface, for loading DAC, when high level appears in pin, also can not upgrade the output of DAC even if there is digital quantity to be read into serial port.Only have when pin becomes low level from high level, DAC exports and just upgrades.Described LOAD interface is used for serial ports Loading Control.When LDAC is low level, and when trailing edge appears in LOAD pin, digital quantity is saved to latch, and output produces analog voltage subsequently.

Described signal output port 603 comprises DACA and DACB two output pins.

Described reference voltage access interface 604 comprises four voltage access pins, is respectively REFA, REFB, REFC and REFD tetra-pins.And described reference voltage access interface 604 is circumscribed with a reference voltage circuit.

Refer to Figure 17, it is the circuit diagram of reference voltage.

The voltage of described reference voltage circuit is input as 5V, and this voltage carries out dividing potential drop by the resistance of two series connection, and output voltage is to REFA, REFB, REFC and REFD tetra-pins of reference voltage input terminal mouth 604.

Refer to Figure 18, it is the circuit diagram of the first motor drive ic.

Further, described first motor drive ic 70 comprises power end 701, signal receiving end 702, signal output part 703, clock signal incoming end 704 and earth terminal; Described signal receiving end 702 for receiving the output signal of the first modulus conversion chip, and passes through this signal output part 703 output drive signal to the first stepping motor.

Described power end 701 comprises three pins, is respectively VCC, VMM1 and VMM2, and wherein VCC accesses 5V voltage, VMM1 and VMM2 accesses 12V voltage.In order to realize the conversion of 12V voltage and 5V voltage, the present embodiment additionally provides a voltage conversion circuit.

Refer to Figure 19, it is the circuit diagram of voltage conversion circuit.

Described voltage conversion circuit comprises voltage conversion chip, its input access 12V voltage, and output exports 5V voltage; Described input also passes through the capacity earth of two parallel connections, to be got rid of by the AC portion in input voltage; Described output also passes through a capacity earth, to be got rid of by the AC portion of output voltage.

In addition, described 12V input voltage also connects a filter circuit.Refer to Figure 20, it is the circuit diagram of filter circuit.Described filter circuit comprises inductance and four electric capacity parallel with one another; One end of described inductance is connected with the input of 12V voltage, and the other end is connected with four electric capacity in parallel, one end output voltage that described shunt capacitance is connected with inductance, other end ground connection.

Please refer to Figure 21 and Figure 22, it is respectively partial enlarged drawing and the annexation figure of the signal input port of the first motor drive ic.Described signal input port 502 comprises 6 input pins, is respectively Phase1, CD1, VR1 and Phase2, CD2, VR2.Described Phase1, Phase2 access PE5 and PE6 respectively, CD1 and CD2 accesses PE7, and described PE5, PE6 and PE7 export from the first signal output port 403 of single-chip microcomputer.Described VR1 and VR2 accesses HDAC_VR1 and HDAC_VR2, and it exports from DACA and DACB two pins of the first modulus conversion chip signal output part 503.

Further, in order to control the switch of motor, in the present embodiment, described first stepping motor comprises a limit switch circuit.Refer to Figure 23, it is the circuit diagram of the signal input of the first electric machine spacing switch.Described limit switch signal input circuit comprises a connector; First port of described connector connects PD7_H signal, and this PD7_H signal exports from the PD7_H pin the 3rd signal output port 405 of single-chip microcomputer.Second port of described connector accesses 5V voltage by an inductance, the 3rd port ground connection.

Refer to Figure 24, it is the circuit diagram of the second motor drive ic.

Described second motor drive ic 80 comprises power end 801, signal receiving end 802, signal output part 803, clock signal incoming end 804 and earth terminal; Described signal receiving end 802 for receiving the output signal of the first modulus conversion chip and the second modulus conversion chip, and passes through this signal output part 803 output drive signal to the second stepping motor.

Please refer to Figure 25 and Figure 22, it is partial enlarged drawing and the annexation figure of the signal input port of the second motor drive ic.Described signal input port 502 comprises 6 input pins, is respectively Phase1, CD1, VR1 and Phase2, CD2, VR2.Described Phase1, Phase2 access PE3 and PE4 respectively, CD1 and CD2 accesses PE7, and described PE3, PE4 and PE7 export from the first signal output port 403 of single-chip microcomputer.Described VR1 and VR2 accesses VDAC_VR1 and VDAC_VR2, and it exports from DACC and DACD two pins of the first modulus conversion chip signal output part 503.

Further, in order to control the switch of motor, in the present embodiment, described second stepping motor comprises a limit switch circuit.Refer to Figure 26, it is the circuit diagram of the signal input of the second electric machine spacing switch.Described limit switch signal input circuit comprises a connector; First port of described connector connects PB7_V signal, and this PB7_V signal exports from the PB7_V pin the 3rd signal output port 405 of single-chip microcomputer.Second port of described connector accesses 5V voltage by an inductance, the 3rd port ground connection.

Refer to Figure 27, it is the circuit diagram of the 3rd motor drive ic.

Described 3rd motor drive ic 90 comprises power end 901, signal receiving end 902, signal output part 903, clock signal incoming end 904 and earth terminal; Described signal receiving end for receiving the output signal of the second modulus conversion chip, and passes through this signal output part output drive signal to the 3rd stepping motor.

Please refer to Figure 28, it is the partial enlarged drawing of the signal output port of the 3rd motor drive ic.Described signal output port 903 comprises 6 input pins, is respectively Phase1, CD1, VR1 and Phase2, CD2, VR2.Described Phase1, Phase2 access Z_Phase1 and Z_Phase1 respectively, CD1 and CD2 accesses PE7, and described PE7 exports from the first signal output port 403 of single-chip microcomputer, and described Z_Phase1 and Z_Phase2 exports from the 4th output port 407.Described VR1 and VR2 accesses ZDAC_VR1 and ZDAC_VR2, and it exports from DACA and DACB two pins of the second modulus conversion chip signal output part 603.

Further, in order to control the switch of motor, in the present embodiment, described second stepping motor comprises a limit switch circuit.Refer to Figure 29, it is the circuit diagram of the signal input of the second electric machine spacing switch.Described limit switch signal input circuit comprises a connector; First port of described connector connects PB1_Z signal, and this PB1_Z signal exports from the PB1_Z pin the 3rd signal output port 405 of single-chip microcomputer.Second port of described connector accesses 5V voltage by an inductance, the 3rd port ground connection.

Compared to prior art, the utility model provides a kind of control system of universal turning bench, by the input of the instruction at operating platform, and transfers to universal turning bench, thus controls the rotation of camera lens, the shooting angle of adjustment camera lens.

The utility model is not limited to above-mentioned execution mode, if do not depart from spirit and scope of the present utility model to various change of the present utility model or distortion, if these are changed and distortion belongs within claim of the present utility model and equivalent technologies scope, then the utility model is also intended to comprise these changes and distortion.

Claims (14)

1. a remote control universal turning bench control system, is characterized in that: comprise the operating platform for transmitting control signal and the universal turning bench for Received signal strength; Described operating platform comprises command input device and instruction handling circuit;

This instruction for receiving the operational order of user, and is sent to instruction handling circuit by described command input device; Described instruction handling circuit, for receiving described operational order, after processing, occurs to universal turning bench;

Described universal turning bench comprise pick-up lens, for control this pick-up lens up and down, the first stepping motor of left and right and rotation, the second stepping motor and the 3rd stepping motor, and motor-drive circuit; Described motor-drive circuit, for receiving the instruction from operating platform, after row relax of going forward side by side, controls the work of described three stepping motors, to control the rotation of described pick-up lens.

2. remote control universal turning bench control system according to claim 1, is characterized in that: described instruction handling circuit comprises control chip; Described control chip outside is provided with: for receive external power source power supply receiving port, for receive instruction command reception port, for the signal output port of output order, for receiving the clock signal port of external timing signal and the configured port for receiving configuration signal; Described command reception port is connected with described command input device, for receiving operational order, after control chip internal processor processes, by described signal output port by command to universal turning bench.

3. remote control universal turning bench control system according to claim 2, is characterized in that: the power port of described control chip is connected to a filter circuit, and external voltage is by the power port of this filter circuit access control chip; Described filter circuit comprises inductance and the electric capacity of series connection; One end of described inductance connects external voltage, and the other end is by this capacity earth, and the access of described power port is between this inductance and electric capacity.

4. remote control universal turning bench control system according to claim 3, is characterized in that: there is a crystal oscillating circuit described clock signal port outside; Described crystal oscillating circuit is used for providing clock signal for control chip.

5. remote control universal turning bench control system according to claim 3, is characterized in that: described command input equipment comprises keyboard and rocking bar; The signal input port of described control chip comprises keyboard signal receiving port and rocking bar receiver port;

Being provided with circuits for triggering in described keyboard, for receiving the operation of user, sending the keyboard signal receiving port of triggering command to control chip; Being provided with circuits for triggering in described rocking bar, for receiving the operation of user, sending the rocking bar receiver port of triggering command to control chip.

6. remote control universal turning bench control system according to claim 5, is characterized in that: described keyboard circuits for triggering comprise 12 trigger buttons; Described trigger button arranges according to 4 row 3 row modes, and described line triggering signal is followed successively by: BD1, BD2, BD3 and BD4; Described row triggering signal is followed successively by: BD5, BD6 and BD7; When pressing described trigger button, trigger rows triggering signal and row triggering signal simultaneously, to distinguish different trigger buttons.

7. remote control universal turning bench control system according to claim 5, is characterized in that: described rocking bar circuits for triggering comprise three road output ports, are respectively used to the control command in output three directions.

8. remote control universal turning bench control system according to claim 2, it is characterized in that: the external AT24C02 chip of signal configures port of described control chip, serial data pin SDA and the serial clock pin SCL of this chip access in the configured port of control chip respectively; Pin A0, A1 and A2 ground connection respectively of the address date selection of this chip.

9. remote control universal turning bench control system according to claim 2, is characterized in that: described command reception circuit also comprises a signal conversion chip; Described signal conversion chip, for receiving the instruction output signal of control chip, and is converted to RS485 signal, and transfers to universal turning bench.

10. remote control universal turning bench control system according to claim 9, is characterized in that: the motor-drive circuit of described universal turning bench comprises communication chip, single-chip microcomputer, the first modulus conversion chip, the second modulus conversion chip, the first motor drive ic, the second motor drive ic and the 3rd motor drive ic;

Described communication chip, for the operational order that Received signal strength conversion chip sends, and is sent to single-chip microcomputer after carrying out signal transacting;

Described single-chip microcomputer, for receiving the operational order of the forwarding of communication chip, carrying out after after process, outputing signal to the first modulus conversion chip and the second modulus conversion chip respectively;

The digital signal that this monolithic exports is converted to analog signal by described first modulus conversion chip and the second modulus conversion chip, and is sent to the first motor drive ic, the second motor drive ic and the 3rd motor drive ic respectively;

After described first motor drive ic, the second motor drive ic and the 3rd motor drive ic receive the control signal of the first modulus conversion chip and the second modulus conversion chip, the work of respective drive stepping motor.

11. remote control universal turning bench control system according to claim 10, it is characterized in that: described communication chip comprises 8 pins, is respectively: non-oppisite phase end, end of oppisite phase, receiver input, receiver Enable Pin, driver Enable Pin, driver output end, power access end and earth terminal; Described non-oppisite phase end and end of oppisite phase are used for the signal transmission of Received signal strength conversion chip, and are exported by described receiver input.

12. remote control universal turning bench control system according to claim 10, is characterized in that: described single-chip microcomputer comprises power end, signal input part, signal output part, reset terminal, external memory storage receiving terminal and earth terminal; Described signal input part is for receiving the output signal of communication chip; Described signal output part, exports point level signal after single-chip microcomputer inter-process to the first modulus conversion chip and the second modulus conversion chip.

13. remote control universal turning bench control system according to claim 10, is characterized in that: described first modulus conversion chip comprises power end, data receiver, analog signal output and reference voltage incoming end; Described data receiver for receiving the output signal of single-chip microcomputer, and is converted to analog signal and is sent to the first motor drive ic and the second motor drive ic;

Described second modulus conversion chip comprises power end, data receiver, analog signal output and reference voltage incoming end; Described data receiver for receiving the output signal of single-chip microcomputer, and is converted to analog signal and is sent to the second motor drive ic and the 3rd motor drive ic.

14. remote control universal turning bench control system according to claim 10, is characterized in that: described first motor drive ic comprises power end, signal receiving end, signal output part, clock signal incoming end and earth terminal; Described signal receiving end for receiving the output signal of the first modulus conversion chip, and passes through this signal output part output drive signal to the first stepping motor;

Described second motor drive ic comprises power end, signal receiving end, signal output part, clock signal incoming end and earth terminal; Described signal receiving end for receiving the output signal of the first modulus conversion chip and the second modulus conversion chip, and passes through this signal output part output drive signal to the second stepping motor;

Described 3rd motor drive ic comprises power end, signal receiving end, signal output part, clock signal incoming end and earth terminal; Described signal receiving end for receiving the output signal of the second modulus conversion chip, and passes through this signal output part output drive signal to the 3rd stepping motor.