CN204278027U - Robot capable of climbing trees control circuit - Google Patents

Abstract

The utility model proposes a kind of robot capable of climbing trees control circuit, comprise motor-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, described motor-drive circuit control end connection control circuit signal output, and described control circuit signal input part is connected with external control devices; Embrace tree motor, motor of climbing tree, circular cutter motor, perpendicular cutter motor, stem positioning motor, crane motor arrange alignment sensor respectively, described 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, carry out after digital translation through main control chip internal A/D converter, be transferred to motor-drive circuit, control motor and run.Substitute manpower, realize industrial automation, there are wide market prospects, be applicable to electronic product industry.

Description

Robot capable of climbing trees control circuit

Technical field

The utility model relates to electronic circuit field, particularly relates to a kind of robot capable of climbing trees control circuit.

Background technology

Palmae bark is widely used in industrial production and people life, can manufacture tow, rope, sofa, carpet, hairbrush, broom etc.At present, still adopt manpower mode to tap, because palm trunk is hard, and need climb the tree, artificial collection is very inconvenient.How to replace traditional manpower collection, improve collecting efficiency, realize industrial automation, become one, this area technical barrier, and there are wide market prospects.

Utility model content

The utility model is intended at least solve the technical problem existed in prior art, especially innovatively proposes a kind of robot capable of climbing trees control circuit.

In order to realize above-mentioned purpose of the present utility model, the utility model provides a kind of robot capable of climbing trees control circuit, and its key is, comprises motor-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, described motor-drive circuit control end connection control circuit signal output,

Described control circuit signal input part is connected with external control devices;

Described group of motors comprises: embrace tree motor, motor of climbing tree, circular cutter motor, perpendicular cutter motor, stem positioning motor, crane motor,

Described armful of tree motor, motor of climbing tree, circular cutter motor, perpendicular cutter motor, stem positioning motor, crane motor arrange alignment sensor respectively, described 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, carry out after digital translation through main control chip internal A/D converter, be transferred to motor-drive circuit, control motor and run.

The beneficial effect of technique scheme is: the control circui function being realized robot capable of climbing trees by the coordinated of motor-drive circuit, control circuit, group of motors, substitutes manual operation.

Described robot capable of climbing trees control circuit, preferably, described motor-drive circuit comprises: main control chip, drive and control of electric machine chip, the 7th resistance, the 8th resistance, the 9th resistance, the tenth resistance, the 11 resistance, the 12 resistance, the 13 resistance, the 14 resistance, the 15 resistance, the 16 resistance, the 13 electric capacity, the 14 electric capacity, the 15 electric capacity,

7th resistance one end connects power supply, described 7th resistance other end connection control chip status flag terminal, 8th resistance one end connects disable input, described 8th resistance other end ground connection, 15 electric capacity one end connects the 12 resistance one end, described 15 electric capacity other end ground connection, described 12 resistance other end ground connection, described 13 resistance one end connects main control chip pwm pulse signal output, the described 13 resistance other end connects the enable input of drive and control of electric machine chip logic, 9th resistance one end connects drive and control of electric machine chip input 1, the described 9th resistance other end connects main control chip and controls motor drive ic signal output first end, 11 resistance one end connection control chip input 2, the described 9th resistance other end connects main control chip control motor drive ic signal and exports the second end, described 14 electric capacity one end connects charge pump capacitor end, the described 14 electric capacity other end connects power supply, tenth resistance one end connects power supply, the described tenth resistance other end connects the 13 electric capacity one end, described 13 electric capacity other end ground connection, described 13 electric capacity one end also connects main control chip reset terminal, 14 resistance one end connects main control chip background debug end, described 14 resistance other end ground connection, 15 resistance one end connects main control chip IO and exports first end, the described 15 resistance other end connects drive and control of electric machine chip I/O input first end, 16 resistance one end connects main control chip IO and exports the second end, the described 16 resistance other end connects drive and control of electric machine chip I/O and inputs the second end.

The beneficial effect of technique scheme is: motor-drive circuit reasonable in design, and circuit drives is stablized, and ensures that robot capable of climbing trees normally works.

Described robot capable of climbing trees control circuit, preferably, also comprises, the 20 resistance, the 20 electric capacity, the 21 electric capacity,

20 resistance one end connects embraces tree motor alignment sensor signal output part, the described 20 resistance other end connects main control chip analog-to-digital conversion first end, 20 electric capacity one end connects embraces tree motor alignment sensor signal output part, described 20 electric capacity other end ground connection, described 21 electric capacity one end connects the 20 resistance one end, described 21 electric capacity other end ground connection;

Also comprise, the 30 resistance, the 30 electric capacity, the 31 electric capacity,

30 resistance one end connects motor alignment sensor signal output part of climbing tree, the described 30 resistance other end connects main control chip analog-to-digital conversion second end, 30 electric capacity one end connects embraces tree motor alignment sensor signal output part, described 30 electric capacity other end ground connection, described 31 electric capacity one end connects the 30 resistance one end, described 31 electric capacity other end ground connection;

Also comprise, the 40 resistance, the 40 electric capacity, the 41 electric capacity,

40 resistance one end connecting ring cutter motor alignment sensor signal output part, the described 40 resistance other end connects main control chip analog-to-digital conversion the 3rd end, 40 electric capacity one end connects embraces tree motor alignment sensor signal output part, described 40 electric capacity other end ground connection, described 41 electric capacity one end connects the 40 resistance one end, described 41 electric capacity other end ground connection;

Also comprise, the 50 resistance, the 50 electric capacity, the 51 electric capacity,

50 resistance one end connects perpendicular cutter motor alignment sensor signal output part, the described 50 resistance other end connects main control chip analog-to-digital conversion the 4th end, 50 electric capacity one end connects embraces tree motor alignment sensor signal output part, described 50 electric capacity other end ground connection, described 51 electric capacity one end connects the 50 resistance one end, described 51 electric capacity other end ground connection;

Also comprise, the 60 resistance, the 60 electric capacity, the 61 electric capacity,

60 resistance one end connects stem positioning motor alignment sensor signal output part, the described 60 resistance other end connects main control chip analog-to-digital conversion five terminal, 60 electric capacity one end connects embraces tree motor alignment sensor signal output part, described 60 electric capacity other end ground connection, described 61 electric capacity one end connects the 60 resistance one end, described 61 electric capacity other end ground connection;

Also comprise, the 70 resistance, the 70 electric capacity, the 71 electric capacity,

70 resistance one end connects crane motor alignment sensor signal output part, the described 70 resistance other end connects main control chip analog-to-digital conversion the 6th end, 70 electric capacity one end connects embraces tree motor alignment sensor signal output part, described 70 electric capacity other end ground connection, described 71 electric capacity one end connects the 70 resistance one end, described 71 electric capacity other end ground connection.

The beneficial effect of technique scheme is: form analog-to-digital conversion harvester, when alignment sensor location corresponding motor, for exporting digital information transmission work.

Described robot capable of climbing trees control circuit, preferably, described control circuit comprises: the 17 resistance, the 18 resistance, the 19 resistance, the 21 resistance, the 25 resistance, the 27 resistance, the 32 resistance, the 33 resistance, the 34 resistance, the 8th electric capacity, the 9th electric capacity, the tenth electric capacity, the 11 electric capacity, the 12 electric capacity, the 16 electric capacity, the 17 electric capacity, the 18 electric capacity, the 23 electric capacity, 27 electric capacity, the 3rd light emitting diode, the 4th light emitting diode, the 5th light emitting diode

17 connecting analog ground, resistance one end end, the described 17 resistance other end connects digitally to be held, 21 resistance one end connects power supply, the described 21 resistance other end connects main control chip external interrupt end 0, the described 21 resistance other end also connects the 15 resistance one end, described 15 resistance other end ground connection, 8th electric capacity, 9th electric capacity, tenth electric capacity, one end ground connection after 11 Capacitance parallel connection, the other end connects voltage input end, 27 resistance one end connects power supply, the described 27 resistance other end connects to reset to be held, the described 27 resistance other end also connects the 16 electric capacity one end, described 16 electric capacity other end ground connection, 17 electric capacity one end connects crystal oscillator one end, the described crystal oscillator other end connects the 18 electric capacity one end, described 17 electric capacity other end ground connection, described 18 electric capacity other end ground connection, described crystal oscillator one end also connects crystal oscillator input, the described crystal oscillator other end connects crystal oscillator output, 18 resistance one end connection data transmission input, described 18 resistance other end ground connection, 19 resistance one end connection data transmission input, the described 19 resistance other end connects power supply, 22 resistance one end connects power supply, the described 22 resistance other end connects main control chip external interrupt end 1, 3rd light emitting diode, 4th light emitting diode, power supply is connected after 5th light emitting diode positive pole parallel connection, described 3rd light emitting diode negative pole connects the 32 resistance one end, described 32 resistance other end connection data receiving terminal, described 4th light emitting diode negative pole connects the 33 resistance one end, described 33 resistance other end connection data transmitting terminal, described 5th light emitting diode negative pole connects the 34 resistance one end, the described 34 resistance other end connects input end of clock, 16 resistance one end connects modulus transmission output, the described 16 resistance other end connects modulus transmission input, described 16 resistance one end also connects the 23 electric capacity one end, 23 electric capacity other end ground connection, the 16 resistance other end also connects the 12 electric capacity one end, described 12 electric capacity other end ground connection.

The beneficial effect of technique scheme is: control circuit is used for remote-control motor drive circuit and carries out control operation to motor, configuration effort information.

Described robot capable of climbing trees control circuit, preferably, described power supply comprises: the second diode, 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, described second diode cathode connects the 4th electric capacity one end, described 4th electric capacity other end ground connection, described 4th electric capacity one end also connects the 5th electric capacity one end, described 5th electric capacity other end ground connection, described 5th electric capacity one end also connects voltage stabilizing chip input, and described voltage stabilizing chip output connects second electric capacity one end, described second electric capacity one end also connects the 3rd electric capacity one end, the described second electric capacity other end and the 3rd electric capacity other end ground connection.

The beneficial effect of technique scheme is: described power supply is used for carrying out stabilized power source to robot capable of climbing trees control circuit and powers.

Described robot capable of climbing trees control circuit, preferably, also comprises CAN circuit, the second resistance, the 3rd resistance, the 5th resistance, the first electric capacity, the 6th electric capacity, the 7th electric capacity,

Second resistance one end connects power supply, the described second resistance other end connects first electric capacity one end, described first electric capacity other end ground connection, described first electric capacity one end also connects CAN circuit and sends data terminal, 5th resistance one end connects power supply, the described 5th resistance other end connects the 6th electric capacity one end, described 6th electric capacity other end ground connection, described 6th electric capacity one end also connects CAN circuit and receives data terminal, 7th electric capacity one end connects power supply and CAN circuit power input, described 7th electric capacity other end ground connection, 3rd resistance one end connects CAN high level end, the described 3rd resistance other end connects low level end.

The beneficial effect of technique scheme is: carry out data transmission by CAN circuit.

Described robot capable of climbing trees control circuit, preferably, described external control devices comprises matrix press-key, and described matrix press-key two ends are connected to main control chip O mouth respectively.

In sum, owing to have employed technique scheme, the beneficial effects of the utility model are:

Substitute manpower, realize industrial automation, there are wide market prospects, be applicable to electronic product industry.

Additional aspect of the present utility model and advantage will part provide in the following description, and part will become obvious from the following description, or be recognized by practice of the present utility model.

Accompanying drawing explanation

Above-mentioned and/or additional aspect of the present utility model and advantage will become obvious and easy understand from accompanying drawing below combining to the description of embodiment, wherein:

Fig. 1 is the utility model robot capable of climbing trees control circuit general illustration;

Fig. 2 is the utility model robot capable of climbing trees control circuit motor-drive circuit schematic diagram;

Fig. 3 is the utility model robot capable of climbing trees control circuit main control chip circuit diagram;

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

Fig. 5 is the utility model robot capable of climbing trees control circuit power circuit schematic diagram;

Fig. 6 is the utility model robot capable of climbing trees control circuit CAN controller circuitry schematic diagram;

Fig. 7 is the utility model robot capable of climbing trees control circuit matrix press-key schematic diagram;

Fig. 8 is the utility model robot capable of climbing trees control circuit Transducer Signal Detecting Circuit schematic diagram;

Fig. 9 is remote-control box control circuit schematic diagram in the utility model robot capable of climbing trees control circuit.

Detailed description of the invention

Be described below in detail embodiment of the present utility model, the example of described embodiment is shown in the drawings, and wherein same or similar label represents same or similar element or has element that is identical or similar functions from start to finish.Being exemplary below by the embodiment be described with reference to the drawings, only for explaining the utility model, and can not being interpreted as restriction of the present utility model.

In description of the present utility model, it will be appreciated that, term " longitudinal direction ", " transverse direction ", " on ", D score, " front ", " afterwards ", " left side ", " right side ", " vertically ", " level ", " top ", " end " " interior ", orientation or the position relationship of the instruction such as " outward " are based on orientation shown in the drawings or position relationship, only the utility model and simplified characterization for convenience of description, instead of indicate or imply that the device of indication or element must have specific orientation, with specific azimuth configuration and operation, therefore can not be interpreted as restriction of the present utility model.

In description of the present utility model, unless otherwise prescribed and limit, it should be noted that, term " installation ", " being connected ", " connection " should be interpreted broadly, such as, can be mechanical connection or electrical connection, also can be the connection of two element internals, can be directly be connected, also indirectly can be connected by intermediary, for the ordinary skill in the art, the concrete meaning of above-mentioned term can be understood as the case may be.

As shown in Figure 1, the utility model provides a kind of robot capable of climbing trees control circuit, and its key is, comprises motor-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, described motor-drive circuit control end connection control circuit signal output,

Described control circuit signal input part is connected with external control devices;

Described group of motors comprises: embrace tree motor, motor of climbing tree, circular cutter motor, perpendicular cutter motor, stem positioning motor, crane motor,

Described armful of tree motor, motor of climbing tree, circular cutter motor, perpendicular cutter motor, stem positioning motor, crane motor arrange alignment sensor respectively, described 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, carry out after digital translation through main control chip internal A/D converter, be transferred to motor-drive circuit, control motor and run.

The beneficial effect of technique scheme is: the control circui function being realized robot capable of climbing trees by the coordinated of motor-drive circuit, control circuit, group of motors, substitutes manual operation.

As shown in Figure 2,3, described robot capable of climbing trees control circuit, preferably, described motor-drive circuit comprises: main control chip, drive and control of electric machine chip, the 7th resistance, the 8th resistance, the 9th resistance, the tenth resistance, the 11 resistance, the 12 resistance, the 13 resistance, the 14 resistance, the 15 resistance, the 16 resistance, the 13 electric capacity, the 14 electric capacity, the 15 electric capacity,

7th resistance one end connects power supply, described 7th resistance other end connection control chip status flag terminal, 8th resistance one end connects disable input, described 8th resistance other end ground connection, 15 electric capacity one end connects the 12 resistance one end, described 15 electric capacity other end ground connection, described 12 resistance other end ground connection, described 13 resistance one end connects main control chip pwm pulse signal output, the described 13 resistance other end connects the enable input of drive and control of electric machine chip logic, 9th resistance one end connects drive and control of electric machine chip input 1, the described 9th resistance other end connects main control chip and controls motor drive ic signal output first end, 11 resistance one end connection control chip input 2, the described 9th resistance other end connects main control chip control motor drive ic signal and exports the second end, described 14 electric capacity one end connects charge pump capacitor end, the described 14 electric capacity other end connects power supply, tenth resistance one end connects power supply, the described tenth resistance other end connects the 13 electric capacity one end, described 13 electric capacity other end ground connection, described 13 electric capacity one end also connects main control chip reset terminal, 14 resistance one end connects main control chip background debug end, described 14 resistance other end ground connection, 15 resistance one end connects main control chip IO and exports first end, the described 15 resistance other end connects drive and control of electric machine chip I/O input first end, 16 resistance one end connects main control chip IO and exports the second end, the described 16 resistance other end connects drive and control of electric machine chip I/O and inputs the second end.

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

The beneficial effect of technique scheme is: motor-drive circuit reasonable in design, and circuit drives is stablized, and ensures that robot capable of climbing trees normally works.

As shown in Figure 4, described robot capable of climbing trees control circuit, preferably, also comprises, the 20 resistance, the 20 electric capacity, the 21 electric capacity,

20 resistance one end connects embraces tree motor alignment sensor signal output part, the described 20 resistance other end connects main control chip analog-to-digital conversion first end, 20 electric capacity one end connects embraces tree motor alignment sensor signal output part, described 20 electric capacity other end ground connection, described 21 electric capacity one end connects the 20 resistance one end, described 21 electric capacity other end ground connection;

Also comprise, the 30 resistance, the 30 electric capacity, the 31 electric capacity,

30 resistance one end connects motor alignment sensor signal output part of climbing tree, the described 30 resistance other end connects main control chip analog-to-digital conversion second end, 30 electric capacity one end connects embraces tree motor alignment sensor signal output part, described 30 electric capacity other end ground connection, described 31 electric capacity one end connects the 30 resistance one end, described 31 electric capacity other end ground connection;

Also comprise, the 40 resistance, the 40 electric capacity, the 41 electric capacity,

40 resistance one end connecting ring cutter motor alignment sensor signal output part, the described 40 resistance other end connects main control chip analog-to-digital conversion the 3rd end, 40 electric capacity one end connects embraces tree motor alignment sensor signal output part, described 40 electric capacity other end ground connection, described 41 electric capacity one end connects the 40 resistance one end, described 41 electric capacity other end ground connection;

Also comprise, the 50 resistance, the 50 electric capacity, the 51 electric capacity,

50 resistance one end connects perpendicular cutter motor alignment sensor signal output part, the described 50 resistance other end connects main control chip analog-to-digital conversion the 4th end, 50 electric capacity one end connects embraces tree motor alignment sensor signal output part, described 50 electric capacity other end ground connection, described 51 electric capacity one end connects the 50 resistance one end, described 51 electric capacity other end ground connection;

Also comprise, the 60 resistance, the 60 electric capacity, the 61 electric capacity,

60 resistance one end connects stem positioning motor alignment sensor signal output part, the described 60 resistance other end connects main control chip analog-to-digital conversion five terminal, 60 electric capacity one end connects embraces tree motor alignment sensor signal output part, described 60 electric capacity other end ground connection, described 61 electric capacity one end connects the 60 resistance one end, described 61 electric capacity other end ground connection;

Also comprise, the 70 resistance, the 70 electric capacity, the 71 electric capacity,

70 resistance one end connects crane motor alignment sensor signal output part, the described 70 resistance other end connects main control chip analog-to-digital conversion the 6th end, 70 electric capacity one end connects embraces tree motor alignment sensor signal output part, described 70 electric capacity other end ground connection, described 71 electric capacity one end connects the 70 resistance one end, described 71 electric capacity other end ground connection.

The beneficial effect of technique scheme is: form analog-to-digital conversion harvester, when alignment sensor location corresponding motor, for exporting digital information transmission work.

As shown in Figure 9, described robot capable of climbing trees control circuit, preferably, described control circuit comprises: the 17 resistance, the 18 resistance, the 19 resistance, the 21 resistance, the 25 resistance, the 27 resistance, the 32 resistance, the 33 resistance, the 34 resistance, the 8th electric capacity, the 9th electric capacity, the tenth electric capacity, the 11 electric capacity, the 12 electric capacity, the 16 electric capacity, the 17 electric capacity, the 18 electric capacity, the 23 electric capacity, 27 electric capacity, the 3rd light emitting diode, the 4th light emitting diode, the 5th light emitting diode

17 connecting analog ground, resistance one end end, the described 17 resistance other end connects digitally to be held, 21 resistance one end connects power supply, the described 21 resistance other end connects main control chip external interrupt end 0, the described 21 resistance other end also connects the 15 resistance one end, described 15 resistance other end ground connection, 8th electric capacity, 9th electric capacity, tenth electric capacity, one end ground connection after 11 Capacitance parallel connection, the other end connects voltage input end, 27 resistance one end connects power supply, the described 27 resistance other end connects to reset to be held, the described 27 resistance other end also connects the 16 electric capacity one end, described 16 electric capacity other end ground connection, 17 electric capacity one end connects crystal oscillator one end, the described crystal oscillator other end connects the 18 electric capacity one end, described 17 electric capacity other end ground connection, described 18 electric capacity other end ground connection, described crystal oscillator one end also connects crystal oscillator input, the described crystal oscillator other end connects crystal oscillator output, 18 resistance one end connection data transmission input, described 18 resistance other end ground connection, 19 resistance one end connection data transmission input, the described 19 resistance other end connects power supply, 22 resistance one end connects power supply, the described 22 resistance other end connects main control chip external interrupt end 1, 3rd light emitting diode, 4th light emitting diode, power supply is connected after 5th light emitting diode positive pole parallel connection, described 3rd light emitting diode negative pole connects the 32 resistance one end, described 32 resistance other end connection data receiving terminal, described 4th light emitting diode negative pole connects the 33 resistance one end, described 33 resistance other end connection data transmitting terminal, described 5th light emitting diode negative pole connects the 34 resistance one end, the described 34 resistance other end connects input end of clock, 16 resistance one end connects modulus transmission output, the described 16 resistance other end connects modulus transmission input, described 16 resistance one end also connects the 23 electric capacity one end, 23 electric capacity other end ground connection, the 16 resistance other end also connects the 12 electric capacity one end, described 12 electric capacity other end ground connection.

The beneficial effect of technique scheme is: control circuit is used for remote-control motor drive circuit and carries out control operation to motor, configuration effort information.

As shown in Figure 5, described robot capable of climbing trees control circuit, preferably, described power supply comprises: the second diode, 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, described second diode cathode connects the 4th electric capacity one end, described 4th electric capacity other end ground connection, described 4th electric capacity one end also connects the 5th electric capacity one end, described 5th electric capacity other end ground connection, described 5th electric capacity one end also connects voltage stabilizing chip input, and described voltage stabilizing chip output connects second electric capacity one end, described second electric capacity one end also connects the 3rd electric capacity one end, the described second electric capacity other end and the 3rd electric capacity other end ground connection.

The beneficial effect of technique scheme is: described power supply is used for carrying out stabilized power source to robot capable of climbing trees control circuit and powers.

As shown in Figure 6, described robot capable of climbing trees control circuit, preferably, also comprises CAN circuit, the second resistance, the 3rd resistance, the 5th resistance, the first electric capacity, the 6th electric capacity, the 7th electric capacity,

Second resistance one end connects power supply, the described second resistance other end connects first electric capacity one end, described first electric capacity other end ground connection, described first electric capacity one end also connects CAN circuit and sends data terminal, 5th resistance one end connects power supply, the described 5th resistance other end connects the 6th electric capacity one end, described 6th electric capacity other end ground connection, described 6th electric capacity one end also connects CAN circuit and receives data terminal, 7th electric capacity one end connects power supply and CAN circuit power input, described 7th electric capacity other end ground connection, 3rd resistance one end connects CAN high level end, the described 3rd resistance other end connects low level end.

The beneficial effect of technique scheme is: carry out data transmission by CAN circuit.

As shown in Figure 7, described robot capable of climbing trees control circuit, preferably, described external control devices comprises matrix press-key, and described matrix press-key two ends are connected to main control chip O mouth respectively.

Fig. 8 is the utility model robot capable of climbing trees control circuit Transducer Signal Detecting Circuit schematic diagram;

The technical solution of the utility model is: the robot capable of climbing trees of electronic product, and its structure includes embraces tree device, swivel mount, crane, perpendicular cutting frame, stem positioner, circular cutter, video acquisition display unit, remote control, electric machine etc. of climbing tree.It is characterized in that: embrace tree device constitution equipment main body, can folding, embrace tree device and embrace tree motor and drive motors of climbing tree built with six; Embrace above tree device is swivel mount, perpendicular cutting frame, circular cutter device and stem positioner; Crane is contained in swivel mount; Above circular cutter device and stem positioner, a camera is housed respectively and completes video acquisition; Armful tree device, stem positioner and circular cutter device are equipped with sensor.

Embrace tree device to open and hold trunk tightly, motor driver controls down trees and moves, and swivel mount drives circular cutter device cutting palmae bark, and stem positioner catches on tree stem, and crane drives perpendicular cutting frame to cut up and down.

Open and embrace a tree device and to be set on trunk and to close, operating and remote controlling box carries out embracing tree action and holds trunk tightly, embrace tree motor forward motion for six, for ensure embrace a tree complete after equipment not inclined, six motors are controlled by six motor master control borads by CAN communication real-time Communication for Power, ensure that the number of turns of rotating at any one time is consistent.As shown in Figure 1, this communication is realized by high-speed CAN communication receiving/transmission chip TLE6250.Embrace tree device contact trunk part and sensor is housed, whether hold tightly to detect.Embrace after tree completes, the operating and remote controlling box electric machine that controls to climb tree moves up and down to for cutting position.Circular cutter displacement motor advances, and completes and compresses trunk action, and circular cutter device sensor that place fills detects compression degree, transmits analogue data and carries out AD conversion to MCU, control motor forward-reverse.Operating and remote controlling box controls swivel mount electric machine rotation and carries out cutting action, and swivel mount rotates, and drives circular cutter device to rotate, completes cutting action.Operating and remote controlling box carries out lifting action, and crane rises or drops to correct position, and stem positioner is opened, and stem positioning motor advances to correct position and closes, and now catches on branch, controls crane and moves down, and pulls branch and realizes peeling off.In this process, the sensor that stem positioner place installs detects and hooks tight dynamics, transmits analogue data and carries out AD conversion to MCU, controls stem location displacement motor and advances or retreat, coordinate crane to move down the stripping that action completes branch.Above circular cutter device and stem positioner, a camera is housed respectively, omnidistance shooting cutting overall process, the display screen on remote-control box shows this image, the movement of assist operator control loop cutter, swivel mount and perpendicular cutting frame.As shown in Figure 1, motor drives and is controlled by power chip MC33931.Color light-emitting diode converts between red, green, blue three look, the different operating state of indicating equipment.Carry out the program of control work above by control flow, be the control program of this area maturation, the application does not make innovation.

Thus can realize substituting manpower, realize industrial automation, there are wide market prospects, be applicable to electronic product industry.

In the description of this description, specific features, structure, material or feature that the description of reference term " embodiment ", " some embodiments ", " example ", " concrete example " or " some examples " etc. means to describe in conjunction with this embodiment or example are contained at least one embodiment of the present utility model or example.In this manual, identical embodiment or example are not necessarily referred to the schematic representation of above-mentioned term.And the specific features of description, structure, material or feature can combine in an appropriate manner in any one or more embodiment or example.

Although illustrate and described embodiment of the present utility model, those having ordinary skill in the art will appreciate that: can carry out multiple change, amendment, replacement and modification to these embodiments when not departing from principle of the present utility model and aim, scope of the present utility model is by claim and equivalents thereof.

Claims (7)

1. a robot capable of climbing trees control circuit, is characterized in that, comprises motor-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, described motor-drive circuit control end connection control circuit signal output,

Described control circuit signal input part is connected with external control devices;

Described group of motors comprises: embrace tree motor, motor of climbing tree, circular cutter motor, perpendicular cutter motor, stem positioning motor, crane motor,

Described armful of tree motor, motor of climbing tree, circular cutter motor, perpendicular cutter motor, stem positioning motor, crane motor arrange alignment sensor respectively, described 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, carry out after digital translation through main control chip internal A/D converter, be transferred to motor-drive circuit, control motor and run.

2. robot capable of climbing trees control circuit according to claim 1, it is characterized in that, described motor-drive circuit comprises: main control chip, drive and control of electric machine chip, the 7th resistance, the 8th resistance, the 9th resistance, the tenth resistance, the 11 resistance, the 12 resistance, the 13 resistance, the 14 resistance, the 15 resistance, the 16 resistance, the 13 electric capacity, the 14 electric capacity, the 15 electric capacity,

7th resistance one end connects power supply, described 7th resistance other end connection control chip status flag terminal, 8th resistance one end connects disable input, described 8th resistance other end ground connection, 15 electric capacity one end connects the 12 resistance one end, described 15 electric capacity other end ground connection, described 12 resistance other end ground connection, described 13 resistance one end connects main control chip pwm pulse signal output, the described 13 resistance other end connects the enable input of drive and control of electric machine chip logic, 9th resistance one end connects drive and control of electric machine chip input 1, the described 9th resistance other end connects main control chip and controls motor drive ic signal output first end, 11 resistance one end connection control chip input 2, the described 9th resistance other end connects main control chip control motor drive ic signal and exports the second end, described 14 electric capacity one end connects charge pump capacitor end, the described 14 electric capacity other end connects power supply, tenth resistance one end connects power supply, the described tenth resistance other end connects the 13 electric capacity one end, described 13 electric capacity other end ground connection, described 13 electric capacity one end also connects main control chip reset terminal, 14 resistance one end connects main control chip background debug end, described 14 resistance other end ground connection, 15 resistance one end connects main control chip IO and exports first end, the described 15 resistance other end connects drive and control of electric machine chip I/O input first end, 16 resistance one end connects main control chip IO and exports the second end, the described 16 resistance other end connects drive and control of electric machine chip I/O and inputs the second end.

3. robot capable of climbing trees control circuit according to claim 1, is characterized in that, also comprise, the 20 resistance, the 20 electric capacity, the 21 electric capacity,

20 resistance one end connects embraces tree motor alignment sensor signal output part, the described 20 resistance other end connects main control chip analog-to-digital conversion first end, 20 electric capacity one end connects embraces tree motor alignment sensor signal output part, described 20 electric capacity other end ground connection, described 21 electric capacity one end connects the 20 resistance one end, described 21 electric capacity other end ground connection;

Also comprise, the 30 resistance, the 30 electric capacity, the 31 electric capacity,

30 resistance one end connects motor alignment sensor signal output part of climbing tree, the described 30 resistance other end connects main control chip analog-to-digital conversion second end, 30 electric capacity one end connects embraces tree motor alignment sensor signal output part, described 30 electric capacity other end ground connection, described 31 electric capacity one end connects the 30 resistance one end, described 31 electric capacity other end ground connection;

Also comprise, the 40 resistance, the 40 electric capacity, the 41 electric capacity,

40 resistance one end connecting ring cutter motor alignment sensor signal output part, the described 40 resistance other end connects main control chip analog-to-digital conversion the 3rd end, 40 electric capacity one end connects embraces tree motor alignment sensor signal output part, described 40 electric capacity other end ground connection, described 41 electric capacity one end connects the 40 resistance one end, described 41 electric capacity other end ground connection;

Also comprise, the 50 resistance, the 50 electric capacity, the 51 electric capacity,

50 resistance one end connects perpendicular cutter motor alignment sensor signal output part, the described 50 resistance other end connects main control chip analog-to-digital conversion the 4th end, 50 electric capacity one end connects embraces tree motor alignment sensor signal output part, described 50 electric capacity other end ground connection, described 51 electric capacity one end connects the 50 resistance one end, described 51 electric capacity other end ground connection;

Also comprise, the 60 resistance, the 60 electric capacity, the 61 electric capacity,

60 resistance one end connects stem positioning motor alignment sensor signal output part, the described 60 resistance other end connects main control chip analog-to-digital conversion five terminal, 60 electric capacity one end connects embraces tree motor alignment sensor signal output part, described 60 electric capacity other end ground connection, described 61 electric capacity one end connects the 60 resistance one end, described 61 electric capacity other end ground connection;

Also comprise, the 70 resistance, the 70 electric capacity, the 71 electric capacity,

70 resistance one end connects crane motor alignment sensor signal output part, the described 70 resistance other end connects main control chip analog-to-digital conversion the 6th end, 70 electric capacity one end connects embraces tree motor alignment sensor signal output part, described 70 electric capacity other end ground connection, described 71 electric capacity one end connects the 70 resistance one end, described 71 electric capacity other end ground connection.

4. robot capable of climbing trees control circuit according to claim 1, it is characterized in that, described control circuit comprises: the 17 resistance, 18 resistance, 19 resistance, 21 resistance, 25 resistance, 27 resistance, 32 resistance, 33 resistance, 34 resistance, 8th electric capacity, 9th electric capacity, tenth electric capacity, 11 electric capacity, 12 electric capacity, 16 electric capacity, 17 electric capacity, 18 electric capacity, 23 electric capacity, 27 electric capacity, 3rd light emitting diode, 4th light emitting diode, 5th light emitting diode,

17 connecting analog ground, resistance one end end, the described 17 resistance other end connects digitally to be held, 21 resistance one end connects power supply, the described 21 resistance other end connects main control chip external interrupt end 0, the described 21 resistance other end also connects the 15 resistance one end, described 15 resistance other end ground connection, 8th electric capacity, 9th electric capacity, tenth electric capacity, one end ground connection after 11 Capacitance parallel connection, the other end connects voltage input end, 27 resistance one end connects power supply, the described 27 resistance other end connects to reset to be held, the described 27 resistance other end also connects the 16 electric capacity one end, described 16 electric capacity other end ground connection, 17 electric capacity one end connects crystal oscillator one end, the described crystal oscillator other end connects the 18 electric capacity one end, described 17 electric capacity other end ground connection, described 18 electric capacity other end ground connection, described crystal oscillator one end also connects crystal oscillator input, the described crystal oscillator other end connects crystal oscillator output, 18 resistance one end connection data transmission input, described 18 resistance other end ground connection, 19 resistance one end connection data transmission input, the described 19 resistance other end connects power supply, 22 resistance one end connects power supply, the described 22 resistance other end connects main control chip external interrupt end 1, 3rd light emitting diode, 4th light emitting diode, power supply is connected after 5th light emitting diode positive pole parallel connection, described 3rd light emitting diode negative pole connects the 32 resistance one end, described 32 resistance other end connection data receiving terminal, described 4th light emitting diode negative pole connects the 33 resistance one end, described 33 resistance other end connection data transmitting terminal, described 5th light emitting diode negative pole connects the 34 resistance one end, the described 34 resistance other end connects input end of clock, 16 resistance one end connects modulus transmission output, the described 16 resistance other end connects modulus transmission input, described 16 resistance one end also connects the 23 electric capacity one end, 23 electric capacity other end ground connection, the 16 resistance other end also connects the 12 electric capacity one end, described 12 electric capacity other end ground connection.

5. robot capable of climbing trees control circuit according to claim 1, is characterized in that, described power supply comprises: the second diode, 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, described second diode cathode connects the 4th electric capacity one end, described 4th electric capacity other end ground connection, described 4th electric capacity one end also connects the 5th electric capacity one end, described 5th electric capacity other end ground connection, described 5th electric capacity one end also connects voltage stabilizing chip input, and described voltage stabilizing chip output connects second electric capacity one end, described second electric capacity one end also connects the 3rd electric capacity one end, the described second electric capacity other end and the 3rd electric capacity other end ground connection.

6. robot capable of climbing trees control circuit according to claim 1, is characterized in that, also comprises CAN circuit, the second resistance, the 3rd resistance, the 5th resistance, the first electric capacity, the 6th electric capacity, the 7th electric capacity,

Second resistance one end connects power supply, the described second resistance other end connects first electric capacity one end, described first electric capacity other end ground connection, described first electric capacity one end also connects CAN circuit and sends data terminal, 5th resistance one end connects power supply, the described 5th resistance other end connects the 6th electric capacity one end, described 6th electric capacity other end ground connection, described 6th electric capacity one end also connects CAN circuit and receives data terminal, 7th electric capacity one end connects power supply and CAN circuit power input, described 7th electric capacity other end ground connection, 3rd resistance one end connects CAN high level end, the described 3rd resistance other end connects low level end.

7. robot capable of climbing trees control circuit according to claim 1, is characterized in that, described external control devices comprises matrix press-key, and described matrix press-key two ends are connected to main control chip O mouth respectively.