CN104375430B - A kind of control circuit for robot capable of climbing trees - Google Patents

Abstract

The present invention proposes a kind of control circuit for robot capable of climbing trees, including control circuit, power supply, power output end connection control circuit power input；The control circuit signal input is connected with external control devices；Embrace tree motor, motor of climbing tree, circular cutter motor, perpendicular cutter motor, stem positioning motor, crane motor and be respectively provided with alignment sensor, the alignment sensor sends positional information, alignment sensor signal output part connects main control chip internal A/D converter by analog-to-digital conversion filter circuit, after main control chip internal A/D converter carries out digital conversion, it is transferred to motor-drive circuit, controlled motor operation.Manpower is substituted, industrial automation is realized, with wide market prospects, it is adaptable to electronic product industry.

Description

A kind of control circuit for robot capable of climbing trees

Technical field

The present invention relates to electronic circuit field, more particularly to a kind of control circuit for robot capable of climbing trees.

Background technology

Palmae bark is widely used in industrial production and people life, can manufacture tow, rope, sofa, carpet, hairbrush, broom Deng.At present, still tapped using manpower mode, because palm trunk is hard, and tree need to be gone up, manually gather inconvenient.How The traditional manpower collection of substitution, improves collecting efficiency, industrial automation is realized, as the technical barrier of this area one, and with wide Wealthy market prospects, and existing electrical equipment working control circuit designs unreasonable, job insecurity.

The content of the invention

It is contemplated that at least solving technical problem present in prior art, especially innovatively propose a kind of for climbing Set the control circuit of robot.

In order to realize above-mentioned purpose of the invention, the invention provides a kind of control circuit for robot capable of climbing trees, its It is critical that including control circuit, power supply,

Power output end connection control circuit power input；

The control circuit signal input is connected with external control devices；

The control circuit includes：17th resistance, the 18th resistance, the 19th resistance, the 21st resistance, the 20th Seven resistance, the 32nd resistance, the 33rd resistance, the 34th resistance, the 8th electric capacity, the 9th electric capacity, the tenth electric capacity, the tenth One electric capacity, the 12nd electric capacity, the 16th electric capacity, the 17th electric capacity, the 18th electric capacity, the 23rd electric capacity, the 3rd light-emitting diodes Pipe, the 4th light emitting diode, the 5th light emitting diode,

17th resistance one end connects power end, the 17th resistance other end connection XC886 main control chips monitoring and Boot-loader control end, the 21st resistance one end connection power supply, the 21st resistance other end connects XC886 master control cores Built-in testing mode selection terminal, the 21st resistance other end is also connected with the 15th resistance one end, and the 15th resistance is another One end is grounded, one end ground connection after the 8th electric capacity, the 9th electric capacity, the tenth electric capacity, the parallel connection of the 11st electric capacity, other end connection XC886 main control chip voltage input ends, the 27th resistance one end connection power supply, the 27th resistance other end connection XC886 main control chips reset end, and the 27th resistance other end is also connected with the 16th electric capacity one end, the 16th electric capacity The other end is grounded, the 17th electric capacity one end connection crystal oscillator one end, and the crystal oscillator other end connects the 18th electric capacity one end, and described the The 17 electric capacity other ends are grounded, the 18th electric capacity other end ground connection, and it is brilliant that described crystal oscillator one end is also connected with XC886 main control chips Shake input, and the crystal oscillator other end connects XC886 main control chip crystal oscillator output ends, the 18th resistance one end connection XC886 master Control chip data transmission input, the 18th resistance other end ground connection, the 19th resistance one end connection XC886 main control chips Data transfer input, the 19th resistance other end connects power supply, the 22nd resistance one end connection power supply, described second The 12 resistance other ends connect XC886 main control chip data output ends, the 3rd light emitting diode, the 4th light emitting diode, the 5th Power supply is connected after the parallel connection of light emitting diode positive pole, the 3rd light emitting diode negative pole connects the 32nd resistance one end, described The 32nd resistance other end connects XC886 main control chip data receivers, the 4th light emitting diode negative pole connection the 3rd 13 resistance one end, the 33rd resistance other end connects XC886 main control chip data sending terminals, the described 5th luminous two Pole pipe negative pole connects the 34th resistance one end, the 34th resistance other end connection XC886 main control chips clock input End, the 16th resistance one end connection modulus transmission output end, the 16th resistance other end connects XC886 main control chip moduluses Transmission input, described 16th resistance one end is also connected with the 23rd electric capacity one end, and the 23rd electric capacity other end is grounded, the The 16 resistance other ends are also connected with the 12nd electric capacity one end, the 12nd electric capacity other end ground connection.

Above-mentioned technical proposal has the beneficial effect that：Control circuit is controlled behaviour to motor for remote-control motor drive circuit Make, configuration work information.

The described control circuit for robot capable of climbing trees, it is preferred that the power supply includes：Second diode, voltage stabilizing core Piece, the second electric capacity, the 3rd electric capacity, the 4th electric capacity, the 5th electric capacity,

Second diode cathode connects power supply, and second diode cathode connects the 4th electric capacity one end, the 4th electricity Hold other end ground connection, described 4th electric capacity one end is also connected with the 5th electric capacity one end, the 5th electric capacity other end ground connection, described the Five electric capacity one end are also connected with voltage stabilizing chip input, and the voltage stabilizing chip output end connects second electric capacity one end, second electricity Hold one end and be also connected with the 3rd electric capacity one end, the second electric capacity other end and the 3rd electric capacity other end are grounded.

Above-mentioned technical proposal has the beneficial effect that：The power supply is used to carry out stabilized power source to robot capable of climbing trees control circuit Power supply.

Described robot capable of climbing trees control circuit, it is preferred that also including CAN bus circuit, second resistance, 3rd resistor, 5th resistance, the first electric capacity, the 6th electric capacity, the 7th electric capacity,

Second resistance one end connects power supply, and the second resistance other end connects first electric capacity one end, first electric capacity The other end is grounded, and described first electric capacity one end is also connected with CAN bus circuit and sends data terminal, and the 5th resistance one end connects power supply, The 5th resistance other end connects the 6th electric capacity one end, and the 6th electric capacity other end is grounded, and described 6th electric capacity one end is also Connection CAN bus circuit receives data terminal, the connection of the 7th electric capacity one end power supply and CAN bus circuit power input, described the The seven electric capacity other ends are grounded, and 3rd resistor one end connection CAN high level end, the 3rd resistor other end connects low level End.

Above-mentioned technical proposal has the beneficial effect that：Carried out data transmission by CAN bus circuit.

Described robot capable of climbing trees control circuit, it is preferred that the external control devices includes matrix press-key, the matrix Button two ends are respectively connected to main control chip O mouthfuls.

In sum, by adopting the above-described technical solution, the beneficial effects of the invention are as follows：

Manpower is substituted, industrial automation is realized, with wide market prospects, it is adaptable to electronic product industry.

Additional aspect of the invention and advantage will be set forth in part in the description, and will partly become from the following description Obtain substantially, or recognized by practice of the invention.

Brief description of the drawings

Of the invention above-mentioned and/or additional aspect and advantage will become from description of the accompanying drawings below to embodiment is combined Substantially and be readily appreciated that, wherein：

Fig. 1 is control circuit overall schematic diagram of the present invention for robot capable of climbing trees；

Fig. 2 is control circuit motor-drive circuit schematic diagram of the present invention for robot capable of climbing trees；

Fig. 3 is control circuit main control chip circuit diagram of the present invention for robot capable of climbing trees；

Fig. 4 is control circuit analog-to-digital conversion filter circuit schematic diagram of the present invention for robot capable of climbing trees；

Fig. 5 is control circuit power circuit diagram of the present invention for robot capable of climbing trees；

Fig. 6 is control circuit CAN controller circuit diagram of the present invention for robot capable of climbing trees；

Fig. 7 is control circuit matrix button schematic diagram of the present invention for robot capable of climbing trees；

Fig. 8 is control circuit sensor signal deteching circuit schematic diagram of the present invention for robot capable of climbing trees；

Fig. 9 is the present invention for remote-control box control circuit diagram in the control circuit of robot capable of climbing trees.

Specific embodiment

Embodiments of the invention are described below in detail, the example of the embodiment is shown in the drawings, wherein from start to finish Same or similar label represents same or similar element or the element with same or like function.Below with reference to attached It is exemplary to scheme the embodiment of description, is only used for explaining the present invention, and is not considered as limiting the invention.

In the description of the invention, it is to be understood that term " longitudinal direction ", " transverse direction ", " on ", D score, "front", "rear", The orientation or position relationship of the instruction such as "left", "right", " vertical ", " level ", " top ", " bottom " " interior ", " outward " are based on accompanying drawing institute The orientation or position relationship for showing, are for only for ease of the description present invention and simplify description, rather than the dress for indicating or implying meaning Put or element must have specific orientation, with specific azimuth configuration and operation, therefore it is not intended that to limit of the invention System.

In the description of the invention, unless otherwise prescribed with limit, it is necessary to explanation, term " installation ", " connected ", " connection " should be interpreted broadly, for example, it may be mechanically connect or electrical connection, or two connections of element internal, can Being to be joined directly together, it is also possible to be indirectly connected to by intermediary, for the ordinary skill in the art, can basis Concrete condition understands the concrete meaning of above-mentioned term.

As shown in figure 1, the invention provides a kind of control circuit for robot capable of climbing trees, it is it is critical that including electricity Drive circuit, control circuit, group of motors, power supply,

Power output end connects motor-drive circuit power input and control circuit power input；

Group of motors signal control end is connected with motor-drive circuit signal output part, and the motor-drive circuit control end connects Connection control circuit signal output part,

The control circuit signal input is connected with external control devices；

The group of motors includes：Embrace tree motor, motor of climbing tree, circular cutter motor, perpendicular cutter motor, stem positioning motor, liter Drop frame motor,

Described armful of tree motor, motor of climbing tree, circular cutter motor, perpendicular cutter motor, stem positioning motor, crane motor difference Alignment sensor is set, and the alignment sensor sends positional information, and alignment sensor signal output part is filtered by analog-to-digital conversion Wave circuit connects main control chip internal A/D converter, after main control chip internal A/D converter carries out digital conversion, is transferred to Motor-drive circuit, controlled motor operation.

Above-mentioned technical proposal has the beneficial effect that：By motor-drive circuit, control circuit, group of motors coordinated reality The circuit control function of existing robot capable of climbing trees, substitutes manual operation.

As shown in Figure 2,3, the described control circuit for robot capable of climbing trees, it is preferred that the motor-drive circuit bag Include：Main control chip, drive and control of electric machine chip, the 7th resistance, the 8th resistance, the 9th resistance, the tenth resistance, the 11st resistance, 12nd resistance, the 13rd resistance, the 14th resistance, the 15th resistance, the 16th resistance, the 13rd electric capacity, the 14th electric capacity, 15th electric capacity,

7th resistance one end connects power supply, the 7th resistance other end connection control chip Status Flag end, the 8th electricity Resistance one end connects non-enable input, the 8th resistance other end ground connection, the 12nd resistance one of the 15th electric capacity one end connection End, the 15th electric capacity other end ground connection, the 12nd resistance other end ground connection, the 13rd resistance one end connection master Control chip pwm pulse signal output end, the 13rd resistance other end connection drive and control of electric machine chip logic enables input End, the 9th resistance one end connects drive and control of electric machine chip input 1, the 9th resistance other end connection main control chip control Motor drive ic signal output first end, the 11st resistance one end connects control chip input 2, and the 9th resistance is another End the second end of connection main control chip controlled motor driving chip signal output, described 14th electric capacity one end connects charge pump capacitor Device end, the 14th electric capacity other end connects power supply, the tenth resistance one end connection power supply, the tenth resistance other end connection 13rd electric capacity one end, the 13rd electric capacity other end ground connection, described 13rd electric capacity one end is also connected with main control chip reset End, the 14th resistance one end connection main control chip backstage debugging end, the 14th resistance other end ground connection, the 15th resistance one End connection main control chip IO output first ends, the 15th resistance other end connection drive and control of electric machine chip I/O input first End, the 16th resistance one end connection main control chip IO exports the second end, and the 16th resistance other end connection motor drives control Chip I/O processed is input into the second end.

The drive and control of electric machine chip is preferably MC33931.Main control chip is preferably MC9S12G48.

Above-mentioned technical proposal has the beneficial effect that：Motor-drive circuit reasonable in design, circuit drives stabilization, it is ensured that climb Tree robot normal work.

As shown in figure 4, the described control circuit for robot capable of climbing trees, it is preferred that also include, the 20th resistance, 20 electric capacity, the 21st electric capacity,

Tree motor alignment sensor signal output part is embraced in the connection of 20th resistance one end, and the 20th resistance other end connects Main control chip analog-to-digital conversion first end is connect, tree motor alignment sensor signal output part is embraced in the connection of the 20th electric capacity one end, described The 20th electric capacity other end is grounded, and described 21st electric capacity one end connects the 20th resistance one end, the 21st electric capacity The other end is grounded；

Also include, the 30th resistance, the 30th electric capacity, the 31st electric capacity,

30th resistance one end connects motor alignment sensor signal output part of climbing tree, and the 30th resistance other end connects The end of main control chip analog-to-digital conversion second is connect, tree motor alignment sensor signal output part is embraced in the connection of the 30th electric capacity one end, described The 30th electric capacity other end is grounded, and described 31st electric capacity one end connects the 30th resistance one end, the 31st electric capacity The other end is grounded；

Also include, the 40th resistance, the 40th electric capacity, the 41st electric capacity,

40th resistance one end connection ring cutter motor alignment sensor signal output part, the 40th resistance other end Tree motor alignment sensor signal output part, institute are embraced in the end of connection main control chip analog-to-digital conversion the 3rd, the 40th electric capacity one end connection The 40th electric capacity other end ground connection is stated, described 41st electric capacity one end connects the 40th resistance one end, the 41st electricity Hold other end ground connection；

Also include, the 50th resistance, the 50th electric capacity, the 51st electric capacity,

The perpendicular cutter motor alignment sensor signal output part of 50th resistance one end connection, the 50th resistance other end Tree motor alignment sensor signal output part, institute are embraced in the end of connection main control chip analog-to-digital conversion the 4th, the 50th electric capacity one end connection The 50th electric capacity other end ground connection is stated, described 51st electric capacity one end connects the 50th resistance one end, the 51st electricity Hold other end ground connection；

Also include, the 60th resistance, the 60th electric capacity, the 61st electric capacity,

60th resistance one end connects stem positioning motor alignment sensor signal output part, the 60th resistance other end Tree motor alignment sensor signal output part, institute are embraced in the end of connection main control chip analog-to-digital conversion the 5th, the 60th electric capacity one end connection The 60th electric capacity other end ground connection is stated, described 61st electric capacity one end connects the 60th resistance one end, the 61st electricity Hold other end ground connection；

Also include, the 70th resistance, the 70th electric capacity, the 71st electric capacity,

70th resistance one end connects crane motor alignment sensor signal output part, the 70th resistance other end Tree motor alignment sensor signal output part, institute are embraced in the end of connection main control chip analog-to-digital conversion the 6th, the 70th electric capacity one end connection The 70th electric capacity other end ground connection is stated, described 71st electric capacity one end connects the 70th resistance one end, the 71st electricity Hold other end ground connection.

Above-mentioned technical proposal has the beneficial effect that：Analog-to-digital conversion harvester is formed, when the corresponding electricity of alignment sensor positioning During machine, for exporting digital information transmission work.

As shown in figure 9, the described control circuit for robot capable of climbing trees, it is preferred that the control circuit includes：Tenth Seven resistance, the 18th resistance, the 19th resistance, the 21st resistance, the 27th resistance, the 32nd resistance, the 33rd Resistance, the 34th resistance, the 8th electric capacity, the 9th electric capacity, the tenth electric capacity, the 11st electric capacity, the 12nd electric capacity, the 16th electricity Appearance, the 17th electric capacity, the 18th electric capacity, the 23rd electric capacity, the 3rd light emitting diode, the 4th light emitting diode, the 5th light Diode,

17th resistance one end connects power end, the 17th resistance other end connection XC886 main control chips monitoring and Boot-loader control end, the 21st resistance one end connection power supply, the 21st resistance other end connects XC886 master control cores Built-in testing mode selection terminal, the 21st resistance other end is also connected with the 15th resistance one end, and the 15th resistance is another One end is grounded, one end ground connection after the 8th electric capacity, the 9th electric capacity, the tenth electric capacity, the parallel connection of the 11st electric capacity, other end connection XC886 main control chip voltage input ends, the 27th resistance one end connection power supply, the 27th resistance other end connection XC886 main control chips reset end, and the 27th resistance other end is also connected with the 16th electric capacity one end, the 16th electric capacity The other end is grounded, the 17th electric capacity one end connection crystal oscillator one end, and the crystal oscillator other end connects the 18th electric capacity one end, and described the The 17 electric capacity other ends are grounded, the 18th electric capacity other end ground connection, and it is brilliant that described crystal oscillator one end is also connected with XC886 main control chips Shake input, and the crystal oscillator other end connects XC886 main control chip crystal oscillator output ends, the 18th resistance one end connection XC886 master Control chip data transmission input, the 18th resistance other end ground connection, the 19th resistance one end connection XC886 main control chips Data transfer input, the 19th resistance other end connects power supply, the 22nd resistance one end connection power supply, described second The 12 resistance other ends connect XC886 main control chip data output ends, the 3rd light emitting diode, the 4th light emitting diode, the 5th Power supply is connected after the parallel connection of light emitting diode positive pole, the 3rd light emitting diode negative pole connects the 32nd resistance one end, described The 32nd resistance other end connects XC886 main control chip data receivers, the 4th light emitting diode negative pole connection the 3rd 13 resistance one end, the 33rd resistance other end connects XC886 main control chip data sending terminals, the described 5th luminous two Pole pipe negative pole connects the 34th resistance one end, the 34th resistance other end connection XC886 main control chips clock input End, the 16th resistance one end connection modulus transmission output end, the 16th resistance other end connects XC886 main control chip moduluses Transmission input, described 16th resistance one end is also connected with the 23rd electric capacity one end, and the 23rd electric capacity other end is grounded, the The 16 resistance other ends are also connected with the 12nd electric capacity one end, the 12nd electric capacity other end ground connection.

Above-mentioned technical proposal has the beneficial effect that：Control circuit is controlled behaviour to motor for remote-control motor drive circuit Make, configuration work information.

As shown in figure 5, the described control circuit for robot capable of climbing trees, it is preferred that the power supply includes：Two or two pole Pipe, voltage stabilizing chip, the second electric capacity, the 3rd electric capacity, the 4th electric capacity, the 5th electric capacity,

Second diode cathode connects power supply, and second diode cathode connects the 4th electric capacity one end, the 4th electricity Hold other end ground connection, described 4th electric capacity one end is also connected with the 5th electric capacity one end, the 5th electric capacity other end ground connection, described the Five electric capacity one end are also connected with voltage stabilizing chip input, and the voltage stabilizing chip output end connects second electric capacity one end, second electricity Hold one end and be also connected with the 3rd electric capacity one end, the second electric capacity other end and the 3rd electric capacity other end are grounded.

Above-mentioned technical proposal has the beneficial effect that：The power supply is used to carry out surely the control circuit for robot capable of climbing trees Determine power supply to power.

As shown in fig. 6, the described control circuit for robot capable of climbing trees, it is preferred that also including CAN bus circuit TLE6250, second resistance, 3rd resistor, the 5th resistance, the first electric capacity, the 6th electric capacity, the 7th electric capacity,

Second resistance one end connects power supply, and the second resistance other end connects first electric capacity one end, first electric capacity The other end is grounded, and described first electric capacity one end is also connected with CAN bus circuit and sends data terminal, and the 5th resistance one end connects power supply, The 5th resistance other end connects the 6th electric capacity one end, and the 6th electric capacity other end is grounded, and described 6th electric capacity one end is also Connection CAN bus circuit receives data terminal, the connection of the 7th electric capacity one end power supply and CAN bus circuit power input, described the The seven electric capacity other ends are grounded, and 3rd resistor one end connection CAN high level end, the 3rd resistor other end connects low level End.

Above-mentioned technical proposal has the beneficial effect that：Carried out data transmission by CAN bus circuit.

As shown in fig. 7, the described control circuit for robot capable of climbing trees, it is preferred that the external control devices includes Matrix press-key, the matrix press-key two ends are respectively connected to main control chip O mouthfuls.

Fig. 8 is control circuit sensor signal deteching circuit schematic diagram of the present invention for robot capable of climbing trees；

The technical scheme is that：The robot capable of climbing trees of electronic product, its structure include embrace a tree device, swivel mount, Crane, perpendicular cutting frame, stem positioner, circular cutter, video acquisition display device, remote control, electric machine of climbing tree etc..It is special Levying is：Tree device constitution equipment main body is embraced, it is retractable, embrace tree device and embrace tree motor and motor of climbing tree built with six；Embrace Tree device top is swivel mount, perpendicular cutting frame, ring cutting knife system and stem positioner；Crane is in swivel mount；Circular cutter is filled Put and be respectively provided with a camera completion video acquisition with stem positioner top；Embracing tree device, stem positioner and ring cutting Sensor is equipped with knife system.

Embrace tree device and open holding trunk, motor driver control down trees movement, swivel mount drives ring cutting knife system Cutting palmae bark, stem positioner catches on tree stem, and crane drives perpendicular cutting frame to cut up and down.

Open an armful tree device to be set on trunk and close, operation remote-control box carries out an armful tree action and holds trunk, six armfuls of trees tightly Motor forward motion, to ensure that equipment is not inclined after the completion of embracing tree, six motors are controlled by six motor master control borads by CAN communication Real-time Communication for Power, it is ensured that the number of turns for rotating at any one time is consistent.As shown in figure 1, the communication is by high-speed CAN communication receiving/transmission chip TLE6250 is realized.Embrace tree device contact trunk part and sensor is housed, to detect whether to hold tightly.Embrace after the completion of tree, operate remote control Box control climb tree electric machine move up and down to be intended to cutting position.Circular cutter displacement motor advances, and completes to compress trunk action, ring Sensor detection compression degree is filled at cutter, transmission analogue data to MCU is AD converted, after controlled motor is advanced Move back.Operation remote-control box control swivel mount motor is rotated and carries out cutting action, and swivel mount is rotated, and drives ring cutting knife system to rotate, complete Into cutting action.Operation remote-control box carries out lifting action, and crane is risen or fallen to correct position, and stem positioner is opened, Stem positioning motor advances to correct position closing, now catches on branch, and control crane is moved down, and pulls branch and realizes stripping From.During this, the sensor detection installed at stem positioner hooks clamp force degree, and transmission analogue data to MCU is AD converted, Control stem positioning displacement motor advances or retreats, and coordinates crane to move down the stripping that action completes branch.Ring cutting knife system and stem Positioner top is respectively provided with a camera, and whole process shoots cutting overall process, and the display screen on remote-control box shows this image, The movement of auxiliary operator control ring cutter, swivel mount and perpendicular cutting frame.As shown in figure 1, motor is driven by power chip MC33931 is controlled.Color light-emitting diode is converted between the color of red, green, blue three, the different working condition of instruction equipment.

So as to realize substituting manpower, industrial automation is realized, with wide market prospects, it is adaptable to electronic product row Industry.

Although an embodiment of the present invention has been shown and described, it will be understood by those skilled in the art that：Not Can these embodiments be carried out with various changes, modification, replacement and modification in the case of departing from principle of the invention and objective, this The scope of invention is limited by claim and its equivalent.

Claims (4)

1. a kind of control circuit for robot capable of climbing trees, it is characterised in that including control circuit, power supply,

Power output end connection control circuit power input；

The control circuit signal input is connected with external control devices；

The control circuit includes：17th resistance, the 18th resistance, the 19th resistance, the 21st resistance, the 27th electricity Resistance, the 32nd resistance, the 33rd resistance, the 34th resistance, the 8th electric capacity, the 9th electric capacity, the tenth electric capacity, the 11st electricity Appearance, the 12nd electric capacity, the 16th electric capacity, the 17th electric capacity, the 18th electric capacity, the 23rd electric capacity, the 3rd light emitting diode, Four light emitting diodes, the 5th light emitting diode,

17th resistance one end connects power end, the 17th resistance other end connection XC886 main control chips monitoring and guiding Control end is loaded, the 21st resistance one end connection power supply, the 21st resistance other end connection XC886 main control chips are surveyed Examination mode selection terminal, the 21st resistance other end is also connected with the 15th resistance one end, the 15th resistance other end Ground connection, one end ground connection after the 8th electric capacity, the 9th electric capacity, the tenth electric capacity, the parallel connection of the 11st electric capacity, other end connection XC886 master Control chip voltage input, the 27th resistance one end connection power supply, the 27th resistance other end connects XC886 master controls Chip resets end, and the 27th resistance other end is also connected with the 16th electric capacity one end, another termination of the 16th electric capacity Ground, the 17th electric capacity one end connection crystal oscillator one end, the crystal oscillator other end connects the 18th electric capacity one end, the 17th electric capacity The other end is grounded, the 18th electric capacity other end ground connection, and described crystal oscillator one end is also connected with the input of XC886 main control chips crystal oscillator End, the crystal oscillator other end connects XC886 main control chip crystal oscillator output ends, the 18th resistance one end connection XC886 main control chips Data transfer input, the 18th resistance other end ground connection, the 19th resistance one end connection XC886 main control chips data are passed Defeated input, the 19th resistance other end connects power supply, the 22nd resistance one end connection power supply, the 22nd electricity Resistance other end connection XC886 main control chip data output ends, the 3rd light emitting diode, the 4th light emitting diode, the 5th luminous two Power supply is connected after the parallel connection of pole pipe positive pole, the 3rd light emitting diode negative pole connects the 32nd resistance one end, the described 30th The two resistance other ends connect XC886 main control chip data receivers, the electricity of the 4th light emitting diode negative pole connection the 33rd Resistance one end, the 33rd resistance other end connects XC886 main control chip data sending terminals, and the 5th light emitting diode is born Pole connects the 34th resistance one end, and the 34th resistance other end connects XC886 main control chip input end of clock, the tenth Six resistance one end connection modulus transmission output end, the 16th resistance other end connection XC886 main control chips modulus transmission is defeated Enter end, described 16th resistance one end is also connected with the 23rd electric capacity one end, the 23rd electric capacity other end ground connection, the 16th electricity The resistance other end is also connected with the 12nd electric capacity one end, the 12nd electric capacity other end ground connection.

2. the control circuit for robot capable of climbing trees according to claim 1, it is characterised in that the power supply includes：The Two diodes, voltage stabilizing chip, the second electric capacity, the 3rd electric capacity, the 4th electric capacity, the 5th electric capacity,

Second diode cathode connects power supply, and second diode cathode connects the 4th electric capacity one end, and the 4th electric capacity is another One end is grounded, and described 4th electric capacity one end is also connected with the 5th electric capacity one end, the 5th electric capacity other end ground connection, the 5th electricity Hold one end and be also connected with voltage stabilizing chip input, the voltage stabilizing chip output end connects second electric capacity one end, second electric capacity one End is also connected with the 3rd electric capacity one end, and the second electric capacity other end and the 3rd electric capacity other end are grounded.

3. the control circuit for robot capable of climbing trees according to claim 1, it is characterised in that also including CAN electricity Road TLE6250, second resistance, 3rd resistor, the 5th resistance, the first electric capacity, the 6th electric capacity, the 7th electric capacity,

Second resistance one end connects power supply, and the second resistance other end connects first electric capacity one end, and first electric capacity is another End ground connection, described first electric capacity one end is also connected with CAN bus circuit TLE6250 and sends data terminal, the 5th resistance one end connection electricity Source, the 5th resistance other end connects the 6th electric capacity one end, the 6th electric capacity other end ground connection, described 6th electric capacity one end It is also connected with CAN bus circuit TLE6250 and receives data terminal, the 7th electric capacity one end connection power supply and CAN bus circuit TLE6250 electricity Source input, the 7th electric capacity other end ground connection, 3rd resistor one end connection CAN high level end, the 3rd resistor The other end connects low level end.

4. the control circuit for robot capable of climbing trees according to claim 1, it is characterised in that the external control devices Including matrix press-key, the matrix press-key two ends are respectively connected to O mouthfuls of XC886 main control chips.