CN201757945U - Robot educational platform - Google Patents

Abstract

The utility model relates to a robot educational platform, which comprises a box. A machinery component, a sensing unit, a task software compact disc, a control unit, a driving unit, an executing unit and an interface converting unit are arranged in the box, wherein the machinery component comprises framing elements used for constructing a robot skeleton, a connector and a standard component; the sensing unit comprises a position switch module, an infrared trailing module, an infrared receiving module, a photosensitive unit and a temperature sensitive unit; the task software compact disc is set up in a computer in the operation process; the control unit comprises a single chip, an input output interface and a USB interface; the driving unit comprises a motor driving module, a direct current motor, a steering engine and a nixie tube display module; the executing unit comprises a key module for receiving and executing a control instruction sent from the control unit, a switch module, an LED lamp module and a buzzer module; and the interface converting unit comprises a three-needle interface and a ten-needle interface connected to the control unit. The utility model is fit for various teaching experiments as well as various robot competitions or family education and family entertainment occasions.

Description

A kind of robot teaching platform

Technical field

The utility model relates to a kind of learning platform, particularly about a kind of robot teaching platform.

Background technology

In the process of the knowledge of natural environment, nature remodeling, the robot that people thirst for createing various functions that can the anthropomorphic dummy always helps or replaces the people to work.Under constantly attempting and making great efforts, the mankind have realized this hope in the twentieth century middle period finally.Along with the development of society and the progress of science and technology, the development of robot is maked rapid progress, and following intelligent robot degree is higher, and application also will be more and more widely.In nearly decades, robot undergoes an unusual development rapidly, and it not only can play an important role in commercial production, but also can be widely used in every field such as military affairs, medical treatment, amusement.Present robot teaching platform can build multiple robot, and people can design different programs and go control robot, makes robot finish different tasks, to improve the level of intelligence of robot, is human service better.However, still there is following shortcoming in the existing robots teaching platform: extendability is not strong on the whole, and function is simple, and the user group is wideless; The hardware upper port is on the low side, and port function is fixed; Use graphic programming on the software, graphics shape is different, is not easily distinguishable; Structural member adopts working of plastics more, and is frangible.

Summary of the invention

At the problems referred to above, it is strong that the purpose of this utility model provides a kind of extendability, is easy to study, is fit to the wide robot teaching platform of crowd's scope.

For achieving the above object, the utility model is taked following technical scheme: a kind of robot teaching platform, it is characterized in that: it comprises a casing, is provided with mechanical component, sensing unit, control module, driver element, performance element, interface conversion unit, task optical disk of software in the described casing and is the power supply of system's power supply; Described mechanical component comprises structural member, web member and the standard component of building the robot skeleton and using; Described sensing unit comprises travel switch module, the infrared module that tracks, infrared receiving module, photosensitive sensing unit and the temperature sensitive sensing unit that is used for perception robot self-condition and external environment variation; Described task optical disk of software is installed in the computing machine when operation, opens described task optical disk of software, can show to supply the operator to select the graphic programming interface of importing; Described control module comprises and being used for according to task program the detected information of described sensing unit is analyzed, judgement, reasoning and decision-making draw a steering order single-chip microcomputer, IO interface and USB interface; Described driver element comprises motor drive module, direct current generator, steering wheel and the charactron display module of the steering order that is used to receive the described mechanical component work of driving that described control module sends; Described performance element comprises and is used to receive steering order that described control module sends and key-press module, switch module, LED lamp module and the hummer module of carrying out; Described interface conversion unit comprises three needle interfaces that are used to connect described sensing unit and performance element, and ten needle interfaces that connect described control module.

Structural member in the described mechanical component comprises more than one in plurality of U-shaped frame, L shaped, rectangle frame, turning, plane steel plate, plane steel bar, cross steelframe, L shaped corner bracket and the fanning strip, be provided with the circular hole that can interconnect and have same holes distance and aperture on the described structural member, and the base plate of three blocks of side plates of described rectangle frame, L shaped corner bracket and riser, and fanning strip on also offer draw-in groove; Web member in the described mechanical component comprises more than one in some square shafts, pillar, wheel fixture, axle fixed cover, shaft coupling, gear and the tooth bar, described pillar is provided with circle or the square through hole that plugs described square shaft, and described wheel fixture is provided with blind hole and the top wire hole that plugs described square shaft; Described axle fixed cover is provided with square through hole and the top wire hole that plugs described square shaft; The two ends of described shaft coupling are respectively arranged with stepped hole and the top wire hole that plugs described square shaft and motor or steering wheel output shaft; The card of described gear is provided with the center square hole that plugs described square shaft, is provided with some circular holes around described center square hole, and the pitch-row on centre distance between each described circular hole and the described center square hole and the described structural member between each circular hole is identical; The one side of described tooth bar is provided with the threaded hole that some and described structural member is connected, and another side is provided with the groove with described gearing mesh; Standard component in the described mechanical component comprises more than one of jackscrew, screw, nut, screw, copper post, universal wheel and battery case.

Described control module also comprises power supply selector switch, power supply voltage regulation unit, power supply pilot lamp, program pilot lamp and AD translation interface; Described power supply selector switch selects to connect described power supply and USB interface, 6～9V that 5V direct current that described power supply voltage regulation unit provides described USB interface or power supply provide converts stable 5V direct current to, the light on and off of described power supply pilot lamp characterize and have or not power connection, and described program pilot lamp is used for the display routine running status.

Travel switch module in the described sensing unit comprises travel switch, pull down resistor and digital quantity interface, and the two ends of described pull down resistor are ground connection and described travel switch respectively; Described travel switch is electrically connected described digital quantity interface, interface conversion unit and control module successively with the contact of pull down resistor; The infrared module that tracks in the described sensing unit comprises infrared transmitter, infrared remote receiver, is preset with potentiometer, comparer, analog quantity interface and the digital quantity interface of reflective distance critical value; The series circuit that described infrared remote receiver, comparer, digital quantity interface constitute is electrically connected described unit by interface conversion unit, described potentiometer connects the input end of described comparer, inserts described analog quantity interface between described infrared remote receiver and the described interface conversion unit; Infrared receiving module in the described sensing unit comprises infrared reception triode, the potentiometer that is preset with the critical value of infrared light intensity, comparer, analog quantity interface and digital quantity interface; The series circuit that described infrared reception triode, comparer, digital quantity interface constitute is electrically connected described unit by interface conversion unit, described potentiometer connects the input end of described comparer, inserts described analog quantity interface between described infrared reception triode and the described interface conversion unit; Photosensitive sensing unit in the described sensing unit comprises photoresistance, is preset with the potentiometer of light intensity critical value, comparer, analog quantity interface and digital quantity interface; The series circuit that described photoresistance, comparer, digital quantity interface constitute is electrically connected described unit by interface conversion unit, described potentiometer connects the input end of described comparer, inserts described analog quantity interface between described photoresistance and the described interface conversion unit; Temperature sensitive sensing unit in the described sensing unit comprises thermo-sensitive resistor, potentiometer, comparer, analog quantity interface and digital quantity interface; The series circuit that described thermo-sensitive resistor, comparer, digital quantity interface constitute is electrically connected described unit by interface conversion unit, described potentiometer connects the input end of described comparer, inserts described analog quantity interface between described thermo-sensitive resistor and the described interface conversion unit.

Motor drive module in the described driver element comprises ten needle interfaces, motor control assembly, steering engine control device, motor interface and steering wheel interface; Described ten needle interfaces are electrically connected the IO interface in the described control module, and described motor control assembly is electrically connected described direct current generator by described motor interface, and described steering engine control device is electrically connected described steering wheel by described steering wheel interface; Digital display tube module in the described driver element comprises 48 sections display tubes, coding chip and ten needle interfaces, described ten needle interfaces are electrically connected the IO interface in the described control module, described 48 sections display tubes show the binary data of described control module input, and described coding chip becomes the display tube can data presented the data conversion of described control module input.

Key-press module in the described performance element comprises pull down resistor, button and digital quantity interface, the two ends of described pull down resistor are ground connection and described button respectively, and described button is electrically connected described digital quantity interface, interface conversion unit and control module successively with the contact of pull down resistor; Switch module in the described performance element comprises pull down resistor, toggle switch and digital quantity interface, the two ends of described pull down resistor are ground connection and described toggle switch respectively, and described toggle switch is electrically connected described digital quantity interface, interface conversion unit and control module successively with the contact of pull down resistor; LED lamp module in the described performance element comprises pull down resistor, LED lamp and digital quantity interface, the two ends of described pull down resistor are ground connection and described LED lamp respectively, and described LED lamp is electrically connected described digital quantity interface, interface conversion unit and control module successively with the contact of pull down resistor; Hummer module in the described performance element comprises pull down resistor, hummer and digital quantity interface, the two ends of described pull down resistor are ground connection and described hummer respectively, and described hummer is electrically connected described digital quantity interface, interface conversion unit and control module successively with the contact of pull down resistor.

The utility model is owing to take above technical scheme, it has the following advantages: 1, the utility model is owing to be provided with mechanical component in a casing, sensing unit, control module, driver element, performance element, interface conversion unit and task optical disk of software, mechanical component comprises builds the structural member that the robot skeleton is used, web member and standard component, sensing unit is used for perception robot self-condition and external environment changes, the task optical disk of software is installed in the computing machine when operation, open the task optical disk of software, can show and supply the operator to select the graphic programming interface of importing, control module is used for according to task program the detected information of sensing unit being analyzed, judge, reasoning and decision-making draw a steering order, and drives execution element and driver element work, so the operator can observe the various implementation effects that its programming produces effectively.2, the utility model can be used highly versatile by standard component with owing to the pitch-row of structural member in the mechanical component and web member is identical.3, the utility model can build the robot skeleton of different shape because structural member and web member different, of a great variety in the mechanical component.4, the utility model is because the control module multichannel that adopts comprises the IO interface of digital quantity input/output port, analog quantity input/output port and pwm signal delivery outlet, and port is abundant, uses flexibly.5, the utility model is owing to be respectively arranged with multiple sensors and actuator in sensing unit and the performance element, therefore can select sensor and actuator according to the experiment demand, come Auxiliary Control Element operation task program, and then the validity of the task program write of detecting operation person.The utility model is applicable to the various operation experiments in the course teachings such as " making of simple and easy robot " in the current techique class, " technology and design 2 ", is applicable to various robot competition activities or home education, home entertaining occasion simultaneously.

Description of drawings

Fig. 1 is the structural representation of box house of the present utility model

Fig. 2 is the structural representation of U-shaped frame in the structural member of the present utility model

Fig. 3 is L shaped a structural representation in the structural member of the present utility model

Fig. 4 is the structural representation of rectangle frame in the structural member of the present utility model

Fig. 5 is the structural representation at turning in the structural member of the present utility model

Fig. 6 is the structural representation of structural member midplane steel plate of the present utility model

Fig. 7 is the structural representation of structural member midplane steel bar of the present utility model

Fig. 8 is the structural representation of cross steelframe in the structural member of the present utility model

Fig. 9 is the structural representation of L shaped corner bracket in the structural member of the present utility model

Figure 10 is the structural representation of fanning strip in the structural member of the present utility model

Figure 11 is the structural representation of a kind of pillar in the structural member of the present utility model

Figure 12 is the structural representation of another kind of pillar in the structural member of the present utility model

Figure 13 is the structural representation of wheel fixture in the structural member of the present utility model

Figure 14 is the structural representation of structural member axis fixed cover of the present utility model

Figure 15 is the structural representation of a kind of shaft coupling in the structural member of the present utility model

Figure 16 is the structural representation of another kind of shaft coupling in the structural member of the present utility model

Figure 17 is the structural representation of structural member middle gear of the present utility model

Figure 18 is the structural representation of structural member middle rack of the present utility model

Figure 19 is the block diagram of travel switch module in the sensing unit of the present utility model

Figure 20 is the block diagram of the infrared module that tracks in the sensing unit of the present utility model

Figure 21 is the block diagram of infrared receiving module in the sensing unit of the present utility model

Figure 22 is the block diagram of photosensitive sensing unit in the sensing unit of the present utility model

Figure 23 is the block diagram of temperature sensitive sensing unit in the sensing unit of the present utility model

Figure 24 is the synoptic diagram of three needle interfaces in the interface conversion unit of the present utility model

Figure 25 is the synoptic diagram of ten needle interfaces in the interface conversion unit of the present utility model

Figure 26 is the block diagram of control module of the present utility model

Figure 27 is the connection diagram of motor drive module and motor and steering wheel in the driver element of the present utility model

Figure 28 is the block diagram of data presentation tube module in the driver element of the present utility model

Figure 29 is the block diagram of key-press module in the utility model performance element

Figure 30 is the block diagram of switch module in the performance element of the present utility model

Figure 31 is the block diagram of LED lamp module in the performance element of the present utility model

Figure 32 is the block diagram of hummer module in the performance element of the present utility model

Embodiment

Below in conjunction with drawings and Examples the utility model is described in detail.

As shown in Figure 1, the utility model comprises a casing (not shown), is provided with mechanical component 1, sensing unit 2, an interface conversion unit 3, a control module 4, a driver element 5, a performance element 6, a task optical disk of software 7 and a power supply 8 in the casing.Sensing unit 2, interface conversion unit 3, control module 4, driver element 5, performance element 6 and power supply 8 can be assembled into a robot by mechanical component 1.The sensing unit 2 perception self-conditions in this robot and the variation of external environment, and pass to control module 4 by interface conversion unit 3.Task optical disk of software 7 is installed in the computing machine that is used with the utility model, show a graphic programming interface during use on computers, the operator makes a task program that meets the experiment needs by the graphic programming interface, by a data line 9 task program is stored in the control module 4 then.Control module 4 is equivalent to people's brain, i.e. the command centre of robot.Control module 4 according to task program to sensing unit 2 detected information analyze, judgement, reasoning and decision-making, draw a steering order, and steering order flowed to driver element 5 and performance element 6, make driver element 5 driving device assemblies 1 or make performance element 6 finish corresponding task program, power supply 8 is each consumer power supply.

Shown in Fig. 1～18, mechanical component 1 of the present utility model comprises structural member 11, web member 12 and standard component 13.

Wherein, structural member 11 comprises U-shaped frame 111, L shaped 112, rectangle frame 113, turning 114, plane steel plate 115, plane steel bar 116, cross steelframe 117, L shaped corner bracket 118 and fanning strip 119.As shown in Figure 2, evenly set some circular holes in a row on the base plate 1111 of U-shaped frame 111 and two risers 1112, each row's circular hole can be 6 or 12.As shown in Figure 3, set some circular holes respectively in a row on L shaped 112 base plate 1121 and the riser 1122, each row's circular hole can be 6 or 12 or 18.As shown in Figure 4, rectangle frame 113 comprises a mainboard 1131 and three blocks of side plates 1132,1133,1134, has evenly set some circular holes on the mainboard 1131 in a row, and each row's circular hole can be 12 or 18; Three blocks of side plates 1132,1133,1134 are welded on respectively on two broadsides and a long limit of mainboard, all offer draw-in groove 1135 on the side plate 1132,1133, and symmetry offers two circular holes 1136 and two draw-in grooves 1137 on the side plate 1134.As shown in Figure 5, turning 114 be one curve 90 the degree steel bars, evenly be provided with on the steel bar one row circular hole, one row can be 6 holes (but being not limited thereto).As shown in Figure 6, evenly set some circular holes on the plane steel plate 115 in a row, such as 6 rows, 12 row (but being not limited thereto).As shown in Figure 7, evenly be provided with row's circular hole on the plane steel bar 31, a row can be 6 or 10 or 12 or 18 holes.As shown in Figure 8, four ends of cross steelframe 117 and center all are equipped with a circular hole.As shown in Figure 9, the base plate 1181 of L shaped corner bracket 118 is vertical with riser 1182, and the two is provided with the vertical relatively but disjoint draw-in groove 1183 of direction.As shown in figure 10, the body shape of fanning strip 119 is 1/4 plectane, and near the outer arc length 1192 parallel draw-in grooves 1191 of offering an arc, the place, right angle of fanning strip 119 offers a circular hole, offers three circular holes between draw-in groove 1191 and the circular hole on the fanning strip 119.In the said structure spare 11 on each member the aperture of circular hole all identical with pitch-row, in the present embodiment, pore diameter range is 4～6mm, pitch-row is 12mm, therefore, can assemble highly versatile, utilization factor height easily with arbitrary member when building robot.Above-mentioned draw-in groove 1183,1192 width ranges are 4～6mm, and its effect is all identical, can assemble each member flexibly, makes robot more diversified.

Web member 12 in the mechanical component 1 comprises square shaft, pillar 121, wheel fixture 122, axle fixed cover 123, shaft coupling 124, gear 125 and tooth bar 126.The length of square shaft is set to 24mm, 48mm, 80mm, 135mm many, chooses as required during experiment.Shown in Figure 11,12, pillar 121 comprises a pedestal 1211, pedestal 1211 is provided with three boss 1212, and the center of three boss 1212 is provided with a through hole respectively, middle boss 1212 is square tube hole (as shown in figure 11) or the round tube holes (as shown in figure 12) that plug square shaft, and the boss 1212 of both sides all is round tube holes.The pitch-row of adjacent holes is all 12mm (following is example with 12mm all, but is not limited thereto) mutually with circular hole pitch-row in the said structure spare 111 on three boss 1212.As shown in figure 13, the table top 1221 of wheel fixture 122 is regular hexagon, important actor 1222 bottoms are provided with one and plug the central square blind hole that square shaft is used, the side of important actor 1222 radially offers a top wire hole 1223, communicate with square blind hole, after square shaft inserts square hole, screw in a jackscrew by top wire hole 1223 again, square shaft can be fastened on the wheel.

As shown in figure 14, the axle fixed cover 123 of web member 12 is the penetrating hollow circular cylinders in two ends in the mechanical component 1, and its hollow space is a square through hole, just in time can wear a square shaft, radially offer a top wire hole 1231 on the post jamb of axle fixed cover 123, can screw in jackscrew, so that square shaft is wherein fastening.As Figure 15, shown in Figure 16, the shaft coupling 124 in the web member 12 is the penetrating hollow circular cylinders in two ends, and its hollow space is a stepped hole (not shown), and the size and the square shaft of an end are complementary, and are used to plug square shaft; The output shaft of other end size and motor (as shown in figure 15) or steering wheel (as shown in figure 16) is complementary, and is used to plug the output shaft of motor or steering wheel.Radially offer a top wire hole 1241 on the cylinder wall of both sides respectively, respectively in order to screw in jackscrew, so that the output shaft of square shaft and motor or steering wheel is wherein fastening.As shown in figure 17, gear 125 in the web member 12 comprises a plurality of gears of 12,36,60,84 teeth, center square hole 1251 is used to wear square shaft, be provided with some circular hole (not shown)s around center square hole 1251, and the pitch-row on centre distance between each circular hole and the center square hole 1251 and the structural member 11 between each circular hole is identical, links to each other with other web member with convenient.As shown in figure 18, the one side of tooth bar 126 offers four threaded holes 1261, is used for fixing structural member 11, offers groove 1262 on the another side, is used for and gear 125 engagements.

Standard component 13 in the utility model mechanical component 1 comprises jackscrew, screw, nut, screw, copper post, universal wheel and battery case etc.Standard component 13 is this area parts commonly used, can directly buy on market.

Shown in Figure 19～23, the utility model sensing unit 2 comprises travel switch module 21, the infrared module 22 that tracks, infrared receiving module 23, photosensitive sensing unit 24 and temperature sensitive sensing unit 25.As shown in figure 19, travel switch module 21 comprises an installing plate, and installing plate is provided with one stroke switch 211, one drop-down resistance 212 and two digital quantity interfaces 213.One end ground connection GND of pull down resistor 212, first end of other end welding travel switch 211.Travel switch 211 is electrically connected two digital quantity interfaces, 213, two digital quantity interfaces 213 and all is electrically connected with control module 4 by interface conversion unit 3 with the contact of pull down resistor 212.Travel switch 211 second ends are by control module 4 electric connection of power supply 8, and power supply 8 gives travel switch 211 power supplies.When drop-down resistance 212 is failure to actuate, travel switch 211 attonitys, then digital quantity interface 213 is given control module 4 output low levels, and this low level is usually less than 0.8V.When pressing pull down resistor 212, travel switch 211 has touch action, and then digital quantity interface 213 gives control module 4 output high level, and this high level is usually greater than 2.4V.

As shown in figure 20, the infrared module 22 that tracks in the sensing unit 2 comprises an installing plate, and installing plate is provided with infrared transmitter 221, infrared remote receiver 222, potentiometer 223, comparer 224, analog quantity interface 225 and digital quantity interface 226.Infrared transmitter 221 emission infrared lights are used to shine external object.Infrared remote receiver 222 receives the infrared light that reflects through external object, one end ground connection GND, and signal end is electrically connected an input end and the analog quantity interface 225 of comparer 224.Be preset with the reflective distance critical value in the potentiometer 223, it is electrically connected another input end of comparer 224, with reflective distance critical value input comparator 224.The input end of comparer 224 is electrically connected the signal end of infrared remote receiver 222, so that actual reflective distance value and preset value are compared.The output terminal of comparer 224 is electrically connected digital quantity interface 226, and with comparative result output, actual reflective distance value is during greater than preset value, output high value 5V; Actual reflective distance value is little during greater than preset value, output low level value 0V.The output terminal of digital quantity interface 226 is electrically connected with control module 4 by interface conversion unit 3, carries voltage value for control module 4.Analog quantity interface 225 directly flows to control module 4 with voltage signal by interface conversion unit 3, and this voltage signal scope is 0～5V.Power supply 8 is given infrared transmitter 221, infrared remote receiver 222, potentiometer 223 and comparer 224 power supplies.

As shown in figure 21, the infrared receiving module 23 in the sensing unit 2 comprises an installing plate, and installing plate is provided with an infrared reception triode 231, a potentiometer 232, a comparer 233, an analog quantity interface 234 and a digital quantity interface 235.Infrared reception triode 231 receives the light intensity of the infrared light that reflects through external object, one end ground connection GND, and signal end is electrically connected an input end and the analog quantity interface 234 of comparer 233.Be preset with the critical value of infrared light intensity in the potentiometer 232, it is electrically connected another input end of comparer 233, with light intensity critical value input comparator 233.The input end of comparer 233 is electrically connected the signal end of infrared reception triode 231, so that actual environment light intensity value and preset value are compared.The output terminal of comparer 233 is electrically connected digital quantity interface 235, and with comparative result output, the actual environment light intensity value is during greater than preset value, output high value 5V; The actual environment light intensity value is little during greater than preset value, output low level value 0V.The output terminal of digital quantity interface 235 is electrically connected with control module 4 by interface conversion unit 3, carries voltage value for control module 4.Analog quantity interface 234 directly flows to control module 4 with voltage signal by interface conversion unit 3, and this voltage signal scope is 0～5V.Power supply 8 is given infrared reception triode 231, potentiometer 232 and comparer 233 power supplies.

As shown in figure 22, the photosensitive sensing unit 24 in the sensing unit 2 comprises an installing plate, and installing plate is provided with a photoresistance 241, a potentiometer 242, a comparer 243, an analog quantity interface 244 and a digital quantity interface 245.Photoresistance 241 is used to experience the environmental light intensity size, one end ground connection GND, and signal end is electrically connected an input end and the analog quantity interface 244 of comparer 243.Be preset with the light intensity critical value in the potentiometer 242, it is electrically connected another input end of comparer 243, with light intensity critical value input comparator 242.The input end of comparer 243 is electrically connected the signal end of photoresistance 241, so that actual environment light intensity value and preset value are compared.The output terminal of comparer 243 is electrically connected digital quantity interface 245, and with comparative result output, the actual environment light intensity value is during greater than preset value, output high value 5V; The actual environment light intensity value is little during greater than preset value, output low level value 0V.The output terminal of digital quantity interface 245 is electrically connected with control module 4 by interface conversion unit 3, carries voltage value for control module 4.Analog quantity interface 244 directly flows to control module 4 with voltage signal by interface conversion unit 3, and this voltage signal scope is 0～5V.Power supply 8 is given potentiometer 242 and comparer 243 power supplies.

As shown in figure 23, the temperature sensitive sensing unit 25 in the sensing unit 2 comprises an installing plate, and installing plate is provided with a thermo-sensitive resistor 251, a potentiometer 252, a comparer 253, an analog quantity interface 254 and a digital quantity interface 255.Thermo-sensitive resistor 251 is used to experience the environment temperature size, one end ground connection GND, and signal end is electrically connected an input end and the analog quantity interface 254 of comparer 253.Be preset with temperature threshold value in the potentiometer 252, it is electrically connected comparer 253, with temperature threshold value input comparator 253.The input end of comparer 253 is electrically connected the signal end of thermo-sensitive resistor 251, so that actual environment temperature value and preset value are compared.The output terminal of comparer 253 is electrically connected digital quantity interface 255, and with comparative result output, the actual environment temperature value is during greater than preset value, output high value 5V; The actual environment temperature value is little during greater than preset value, output low level value 0V.The output terminal of digital quantity interface 255 is electrically connected with control module 4 by interface conversion unit 3, carries voltage value for control module 4.Analog quantity interface 254 directly flows to control module 4 with voltage signal by interface conversion unit 3, and this voltage signal scope is 0～5V.Power supply 8 is given potentiometer 252 and comparer 253 power supplies.

As Figure 24, shown in Figure 25, interface conversion unit 3 of the present utility model comprises an installing plate, and installing plate is provided with eight three needle interfaces 31 and one ten needle interface 32.Each three needle interface 31 comprises earth terminal GND, power end VCC and a signal end X (as shown in figure 24), and ten needle interfaces 32 comprise earth terminal GND, power end VCC and eight signal end X0, X1, X2, X3, X4, X5, X6, X7 (as shown in figure 25).Because the interface of each sensor is three needle interfaces in the sensing unit 2, and the interface of control module 4 is ten needle interfaces, therefore, by three needle interfaces 31 are electrically connected the output interface on each sensor in the sensing unit 2, the interface that ten needle interfaces 32 are electrically connected on the control module 4 just can flow to the environmental information of the perception of each sensor in the sensing unit 2 control module 4.

As shown in figure 26, control module 4 of the present utility model comprises a single-chip microcomputer 41, multichannel IO interface 42, a USB interface 43, a power supply selector switch 44, a power supply voltage regulation unit 45, power supply pilot lamp 46, a program pilot lamp 47 and an AD translation interface 48.

Single-chip microcomputer 41 in the control module 4 is used to load task program, and according to task program the various information of sensing unit 2 inputs is carried out data processing, sends various steering orders.IO interface 42 is ten needle interfaces, and it comprises digital quantity input/output port, analog quantity input/output port and pwm signal delivery outlet, and the input channel of difference sensing unit 2, and the output channel of performance element 6 and driver element 5.USB interface 43 is electrically connected a host computer by a data line, thus the task program in the host computer is downloaded to single-chip microcomputer 41.Power supply selector switch 44 selects to connect power supply 8 and USB interface 43, and when power supply selector switch 44 pushes a end near USB interface 43, single-chip microcomputer 41 is taked the USB power supply mode; Push a end, take power supply 8 power supply modes near power supply 8.6～9V that 5V direct current that power supply voltage regulation unit 45 provides USB interface 43 or power supply 8 provide converts stable 5V direct current to, for build robot on consumer use, such as giving sensing unit 2, driver element 5 and performance element 6 power supplies.The light on and off of power supply pilot lamp 46 characterize and have or not power connection, adopt red LED lamp usually, and it is bright under power on situation.Program pilot lamp 47 is used for the display routine running status, adopts green LED lamp usually, and it is bright under the situation of program run.AD translation interface 48 provides 8 tunnel analog quantity input interfaces, is used to connect the sensing unit 2 that comprises the analog quantity interface.In the present embodiment, single-chip microcomputer 41 adopts the AVR series monolithic, and it has the characteristics of efficient height, rich interface, and it can have 40 road digital quantity input and output at most, the input of 8 tunnel analog quantitys, the output of 4 road pwm signals.Power supply voltage regulation unit 45 is switching power source chips.

As Figure 27, shown in Figure 28, driver element 5 of the present utility model comprises motor drive module 51, direct current generator 52, steering wheel 53 and charactron display module 54.

As shown in figure 27, the motor drive module 51 in the driver element 5 comprises an installing plate, and installing plate is provided with 10 needle interfaces 511, a motor control assembly 512, a steering engine control device 513, a motor interface 514 and a steering wheel interface 515.Ten needle interfaces 511 directly are electrically connected the IO interface 42 in the control module 4, the steering order of sending in order to Input Control Element 4.Motor control assembly 512 and steering engine control device 513 are control chip, such as L298P, so that motor interface 514 is electrically connected direct current generator 52, steering wheel interface 515 is electrically connected steering wheel 53, to control direct current generator 52 and steering wheel 53 according to the steering order of importing by ten needle interfaces 511.

As shown in figure 28, digital display tube module 54 in the driver element 5 comprises 48 sections display tubes 541, coding chip 542 and ten needle interfaces 543, ten needle interfaces 543 directly are electrically connected the IO interface 42 in the control module 4, the steering order of sending in order to Input Control Element 4.48 sections display tubes 541 are used for the binary data of indicative control unit 4 inputs.Coding chip 542 becomes the display tube can data presented the data conversion of control module 4 input.

Shown in Figure 29～32, performance element 6 of the present utility model comprises key-press module 61, switch module 62, LED lamp module 63 and hummer module 64.

As shown in figure 29, the key-press module 61 in the performance element 6 is used to provide presses signal, and it comprises an installing plate, and installing plate is provided with a drop-down resistance 611, a button 612 and two digital quantity interfaces 613.One end ground connection of pull down resistor 611, first end of other end welding button 612.Button 612 is electrically connected two digital quantity interfaces, 613, two digital quantity interfaces 613 and all is electrically connected with IO interface 42 in the control module 4 by interface conversion unit 3 with the contact of pull down resistor 611.Button 612 second ends are by control module 4 electric connection of power supply 8, and power supply 8 gives button 612 power supplies.When drop-down resistance 611 is failure to actuate, button 612 attonitys, then digital quantity interface 613 is to single-chip microcomputer 41 output low levels in the control module 4, and this low level is usually less than 0.8V; When pressing pull down resistor 611, button 612 is pressed, and digital quantity interface 613 gives the single-chip microcomputer in the control module 4 41 output high level, and this high level is usually greater than 2.4V.

As shown in figure 30, the switch module 62 in the performance element 6 is used to provide switching signal, and it comprises an installing plate, and installing plate is provided with a drop-down resistance 621, a toggle switch 622 and two digital quantity interfaces 623.One end ground connection of pull down resistor 621, first end of other end welding toggle switch 622.Toggle switch 622 is electrically connected two digital quantity interfaces, 623, two digital quantity interfaces 623 and all is electrically connected with IO interface 42 in the control module 4 by interface conversion unit 3 with the contact of pull down resistor 621.When toggle switch 622 is allocated to a side, single-chip microcomputer 41 output low levels that digital quantity interface 623 is given in the control module 4, this low level is usually less than 0.8V; When toggle switch 622 was allocated to opposite side, digital quantity interface 623 gave the single-chip microcomputer in the control module 4 41 output high level, and this high level is usually greater than 2.4V.

As shown in figure 31, the LED lamp module 63 in the performance element 6 comprises an installing plate, and a pull down resistor 631, a LED lamp 632 and two digital quantity interfaces 633 are set on the installing plate.One end ground connection of pull down resistor 631, first end of other end welding LED lamp 632.LED lamp 632 is electrically connected two digital quantity interfaces, 633, two digital quantity interfaces 633 and all is electrically connected with IO interface 42 in the control module 4 by interface conversion unit 3 with the contact of pull down resistor 631.When the level of the single-chip microcomputer in the control module 4 41 input during less than 0.8V, LED lamp 632 goes out; When the input level be higher than 2.4V, LED lamp 632 is bright.

Shown in figure 32, the hummer module 64 in the performance element 6 comprises an installing plate, and installing plate is provided with pull down resistor 641, hummer 642 and two digital quantity interfaces 643.One end ground connection of pull down resistor 641, first end of other end welding hummer 642.Hummer 642 is electrically connected two digital quantity interfaces, 643, two digital quantity interfaces 643 and all is electrically connected with IO interface 42 in the control module 4 by interface conversion unit 3 with the contact of pull down resistor 641.When the level of the single-chip microcomputer in the control module 4 41 input during less than 0.8V, hummer 641 is sounding not; When the level of importing is higher than 2.4V, hummer 641 sounding.

Task optical disk of software 7 of the present utility model inserts in the computing machine, after opening task optical disk of software 7, can show a graphic programming interface on the display interface of computing machine, the operator can be self-defined by the graphic programming interface or be selected parameter, makes a task program that meets the experiment needs.In programming process, the function of each port and input and output all can be carried out self-defined, it has merged simple interface view mode, process flow diagram mode and complicated C language form, database etc., the student can from the superficial to the deep be learnt, the student who is fit to each stage from the junior middle school to the university is for student's continuation study and pursuit of advanced studies provides uniform platform.

When utilizing the utility model to test, it may further comprise the steps:

1) builds a robot:, utilize structural member 11, web member 12 and standard component 13 in the mechanical component 1 to build a robot skeleton according to requirement of experiment.

2) from sensing unit 2, driver element 5 and performance element 6, choose suitable device and be installed on the robot skeleton, utilize structural member 11 and standard component 13 in the mechanical component 1 that interface conversion unit 3, control module 4 and power supply 8 all are fixedly mounted on the robot skeleton simultaneously.

3) input end of the output terminal of the sensing unit on the robot skeleton 2 and performance element 6 all is electrically connected the IO interface 42 of control modules 4 by interface conversion unit 3, simultaneously the IO interface 42 of control module 4 is electrically connected the input end of driver elements 5, and control module 4 electric connection of power supply 8 just.

4) USB interface on the control module 4 43 is electrically connected by a data line computing machine of task optical disk of software 7 is installed, and the selector switch 44 of will power pushes an end of close USB interface 43, take the USB power supply mode.

5) operator utilizes task optical disk of software 7 to write corresponding task program in computing machine according to requirement of experiment, and with in the task program downloading control unit 4.

6) take off the USB line, the power supply selector switch 44 in the control module 4 is pushed a end near power supply 8, take power supply 8 power supplies.

7), detect the validity of task program by the working condition of robot.

The various embodiments described above only are used to illustrate the utility model; wherein the structure of each parts, connected mode etc. all can change to some extent; every equivalents of carrying out on the basis of technical solutions of the utility model and improvement all should not got rid of outside protection domain of the present utility model.

Claims (10)

1. robot teaching platform, it is characterized in that: it comprises a casing, is provided with mechanical component, sensing unit, control module, driver element, performance element, interface conversion unit, task optical disk of software in the described casing and is the power supply of system's power supply;

Described mechanical component comprises structural member, web member and the standard component of building the robot skeleton and using;

Described sensing unit comprises travel switch module, the infrared module that tracks, infrared receiving module, photosensitive sensing unit and the temperature sensitive sensing unit that is used for perception robot self-condition and external environment variation;

Described task optical disk of software is installed in the computing machine when operation, opens described task optical disk of software, can show to supply the operator to select the graphic programming interface of importing;

Described control module comprises and being used for according to task program the detected information of described sensing unit is analyzed, judgement, reasoning and decision-making draw a steering order single-chip microcomputer, IO interface and USB interface;

Described driver element comprises motor drive module, direct current generator, steering wheel and the charactron display module of the steering order that is used to receive the described mechanical component work of driving that described control module sends;

Described performance element comprises and is used to receive steering order that described control module sends and key-press module, switch module, LED lamp module and the hummer module of carrying out;

Described interface conversion unit comprises three needle interfaces that are used to connect described sensing unit and performance element, and ten needle interfaces that connect described control module.

2. a kind of robot teaching platform as claimed in claim 1 is characterized in that:

Structural member in the described mechanical component comprises more than one in plurality of U-shaped frame, L shaped, rectangle frame, turning, plane steel plate, plane steel bar, cross steelframe, L shaped corner bracket and the fanning strip, be provided with the circular hole that can interconnect and have same holes distance and aperture on the described structural member, and the base plate of three blocks of side plates of described rectangle frame, L shaped corner bracket and riser, and fanning strip on also offer draw-in groove;

Web member in the described mechanical component comprises more than one in some square shafts, pillar, wheel fixture, axle fixed cover, shaft coupling, gear and the tooth bar, described pillar is provided with circle or the square through hole that plugs described square shaft, and described wheel fixture is provided with blind hole and the top wire hole that plugs described square shaft; Described axle fixed cover is provided with square through hole and the top wire hole that plugs described square shaft; The two ends of described shaft coupling are respectively arranged with stepped hole and the top wire hole that plugs described square shaft and motor or steering wheel output shaft; The card of described gear is provided with the center square hole that plugs described square shaft, is provided with some circular holes around described center square hole, and the pitch-row on centre distance between each described circular hole and the described center square hole and the described structural member between each circular hole is identical; The one side of described tooth bar is provided with the threaded hole that some and described structural member is connected, and another side is provided with the groove with described gearing mesh;

Standard component in the described mechanical component comprises more than one of jackscrew, screw, nut, screw, copper post, universal wheel and battery case.

3. a kind of robot teaching platform as claimed in claim 1 is characterized in that, comprising:

Described control module also comprises power supply selector switch, power supply voltage regulation unit, power supply pilot lamp, program pilot lamp and AD translation interface; Described power supply selector switch selects to connect described power supply and USB interface, 6～9V that 5V direct current that described power supply voltage regulation unit provides described USB interface or power supply provide converts stable 5V direct current to, the light on and off of described power supply pilot lamp characterize and have or not power connection, and described program pilot lamp is used for the display routine running status.

4. a kind of robot teaching platform as claimed in claim 2 is characterized in that, comprising:

Described control module also comprises power supply selector switch, power supply voltage regulation unit, power supply pilot lamp, program pilot lamp and AD translation interface; Described power supply selector switch selects to connect described power supply and USB interface, 6～9V that 5V direct current that described power supply voltage regulation unit provides described USB interface or power supply provide converts stable 5V direct current to, the light on and off of described power supply pilot lamp characterize and have or not power connection, and described program pilot lamp is used for the display routine running status.

5. as claim 1 or 2 or 3 or 4 described a kind of robot teaching platforms, it is characterized in that, comprising:

Travel switch module in the described sensing unit comprises travel switch, pull down resistor and digital quantity interface, and the two ends of described pull down resistor are ground connection and described travel switch respectively; Described travel switch is electrically connected described digital quantity interface, interface conversion unit and control module successively with the contact of pull down resistor;

The infrared module that tracks in the described sensing unit comprises infrared transmitter, infrared remote receiver, is preset with potentiometer, comparer, analog quantity interface and the digital quantity interface of reflective distance critical value; The series circuit that described infrared remote receiver, comparer, digital quantity interface constitute is electrically connected described unit by interface conversion unit, described potentiometer connects the input end of described comparer, inserts described analog quantity interface between described infrared remote receiver and the described interface conversion unit;

Infrared receiving module in the described sensing unit comprises infrared reception triode, the potentiometer that is preset with the critical value of infrared light intensity, comparer, analog quantity interface and digital quantity interface; The series circuit that described infrared reception triode, comparer, digital quantity interface constitute is electrically connected described unit by interface conversion unit, described potentiometer connects the input end of described comparer, inserts described analog quantity interface between described infrared reception triode and the described interface conversion unit;

Photosensitive sensing unit in the described sensing unit comprises photoresistance, is preset with the potentiometer of light intensity critical value, comparer, analog quantity interface and digital quantity interface; The series circuit that described photoresistance, comparer, digital quantity interface constitute is electrically connected described unit by interface conversion unit, described potentiometer connects the input end of described comparer, inserts described analog quantity interface between described photoresistance and the described interface conversion unit;

Temperature sensitive sensing unit in the described sensing unit comprises thermo-sensitive resistor, potentiometer, comparer, analog quantity interface and digital quantity interface; The series circuit that described thermo-sensitive resistor, comparer, digital quantity interface constitute is electrically connected described unit by interface conversion unit, described potentiometer connects the input end of described comparer, inserts described analog quantity interface between described thermo-sensitive resistor and the described interface conversion unit.

6. as claim 1 or 2 or 3 or 4 described a kind of robot teaching platforms, it is characterized in that, comprising:

Motor drive module in the described driver element comprises ten needle interfaces, motor control assembly, steering engine control device, motor interface and steering wheel interface; Described ten needle interfaces are electrically connected the IO interface in the described control module, and described motor control assembly is electrically connected described direct current generator by described motor interface, and described steering engine control device is electrically connected described steering wheel by described steering wheel interface;

Digital display tube module in the described driver element comprises 48 sections display tubes, coding chip and ten needle interfaces,

Described ten needle interfaces are electrically connected the IO interface in the described control module, described 48 sections display tubes show the binary data of described control module input, and described coding chip becomes the display tube can data presented the data conversion of described control module input.

7. a kind of robot teaching platform of stating as claim 5 is characterized in that, comprising:

Motor drive module in the described driver element comprises ten needle interfaces, motor control assembly, steering engine control device, motor interface and steering wheel interface; Described ten needle interfaces are electrically connected the IO interface in the described control module, and described motor control assembly is electrically connected described direct current generator by described motor interface, and described steering engine control device is electrically connected described steering wheel by described steering wheel interface;

Digital display tube module in the described driver element comprises 48 sections display tubes, coding chip and ten needle interfaces,

Described ten needle interfaces are electrically connected the IO interface in the described control module, described 48 sections display tubes show the binary data of described control module input, and described coding chip becomes the display tube can data presented the data conversion of described control module input.

8. as claim 1 or 2 or 3 or 4 or 7 described a kind of robot teaching platforms, it is characterized in that, comprising:

Key-press module in the described performance element comprises pull down resistor, button and digital quantity interface, the two ends of described pull down resistor are ground connection and described button respectively, and described button is electrically connected described digital quantity interface, interface conversion unit and control module successively with the contact of pull down resistor;

Switch module in the described performance element comprises pull down resistor, toggle switch and digital quantity interface, the two ends of described pull down resistor are ground connection and described toggle switch respectively, and described toggle switch is electrically connected described digital quantity interface, interface conversion unit and control module successively with the contact of pull down resistor;

LED lamp module in the described performance element comprises pull down resistor, LED lamp and digital quantity interface, the two ends of described pull down resistor are ground connection and described LED lamp respectively, and described LED lamp is electrically connected described digital quantity interface, interface conversion unit and control module successively with the contact of pull down resistor;

Hummer module in the described performance element comprises pull down resistor, hummer and digital quantity interface, the two ends of described pull down resistor are ground connection and described hummer respectively, and described hummer is electrically connected described digital quantity interface, interface conversion unit and control module successively with the contact of pull down resistor.

9. a kind of robot teaching platform of stating as claim 5 is characterized in that, comprising:

Key-press module in the described performance element comprises pull down resistor, button and digital quantity interface, the two ends of described pull down resistor are ground connection and described button respectively, and described button is electrically connected described digital quantity interface, interface conversion unit and control module successively with the contact of pull down resistor;

Switch module in the described performance element comprises pull down resistor, toggle switch and digital quantity interface, the two ends of described pull down resistor are ground connection and described toggle switch respectively, and described toggle switch is electrically connected described digital quantity interface, interface conversion unit and control module successively with the contact of pull down resistor;

LED lamp module in the described performance element comprises pull down resistor, LED lamp and digital quantity interface, the two ends of described pull down resistor are ground connection and described LED lamp respectively, and described LED lamp is electrically connected described digital quantity interface, interface conversion unit and control module successively with the contact of pull down resistor;

Hummer module in the described performance element comprises pull down resistor, hummer and digital quantity interface, the two ends of described pull down resistor are ground connection and described hummer respectively, and described hummer is electrically connected described digital quantity interface, interface conversion unit and control module successively with the contact of pull down resistor.

10. a kind of robot teaching platform as claimed in claim 6 is characterized in that, comprising:

Key-press module in the described performance element comprises pull down resistor, button and digital quantity interface, the two ends of described pull down resistor are ground connection and described button respectively, and described button is electrically connected described digital quantity interface, interface conversion unit and control module successively with the contact of pull down resistor;

Switch module in the described performance element comprises pull down resistor, toggle switch and digital quantity interface, the two ends of described pull down resistor are ground connection and described toggle switch respectively, and described toggle switch is electrically connected described digital quantity interface, interface conversion unit and control module successively with the contact of pull down resistor;

LED lamp module in the described performance element comprises pull down resistor, LED lamp and digital quantity interface, the two ends of described pull down resistor are ground connection and described LED lamp respectively, and described LED lamp is electrically connected described digital quantity interface, interface conversion unit and control module successively with the contact of pull down resistor;

Hummer module in the described performance element comprises pull down resistor, hummer and digital quantity interface, the two ends of described pull down resistor are ground connection and described hummer respectively, and described hummer is electrically connected described digital quantity interface, interface conversion unit and control module successively with the contact of pull down resistor.

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