CN204191795U - Be convenient to the remote control electric suitcase controlled - Google Patents

Abstract

The utility model discloses a kind of remote control electric suitcase being convenient to control, comprise interconnective rear box, front casing, remote-control receiving circuit, drive circuit and remote controller, the left and right sides of the bottom of rear box is separately installed with left rear wheel and off hind wheel, the left and right sides of the bottom of front casing is separately installed with the near front wheel and off-front wheel, the near front wheel is driven by left motor, off-front wheel is driven by right motor, remote-control receiving circuit for receive remote controller transmit and output drive signal to drive circuit, drive circuit comprises left motor-drive circuit and right motor-drive circuit, the output of left motor-drive circuit is connected with the power input of left motor, the output of right motor-drive circuit is connected with the power input of right motor.The utility model adopts bi-motor respectively to two front-wheel drives, and two motors are controlled start and stop by two drive circuits, rotated and reverse respectively, can realize the control of the various running statuses of suitcase when bearing larger pressure, practical.

Description

Be convenient to the remote control electric suitcase controlled

Technical field

The utility model relates to a kind of suitcase, particularly relates to a kind of remote control electric suitcase being convenient to control.

Background technology

At present, general suitcase only has and drags with hand, and for the user often travelled on business trips and luggage is heavier, this manpower suitcase more or less becomes travelling burden.Based on this reason, some remote-controlled electric travelling case occurs at present, but existing remote-controlled electric travelling case is not loaded with heavy ability or is loaded with heavy poor ability, its direction controlling controls more difficult, therefore inreal for travelling, become a kind of concept product more, even can only work as toy use, there is no practical function.

Utility model content

The purpose of this utility model is just to provide a kind of remote control electric suitcase being convenient to control with practical use to solve the problem.

The utility model is achieved through the following technical solutions above-mentioned purpose:

A kind of remote control electric suitcase being convenient to control, comprise interconnective rear box, front casing, remote-control receiving circuit, drive circuit and remote controller, the left and right sides of the bottom of described rear box is separately installed with left rear wheel and off hind wheel, the left and right sides of the bottom of described front casing is separately installed with the near front wheel and off-front wheel, described the near front wheel is driven by left motor, described off-front wheel is driven by right motor, described remote-control receiving circuit is for receiving transmitting and output drive signal extremely described drive circuit of described remote controller, described drive circuit comprises left motor-drive circuit and right motor-drive circuit, the output of described left motor-drive circuit is connected with the power input of described left motor, the output of described right motor-drive circuit is connected with the power input of described right motor.

As preferably, transmitting of described remote controller comprises left-hand rotation, turns right, moving forward and backward four transmits, and accordingly, the drive singal that described remote-control receiving circuit exports comprises left-hand rotation, turns right, move forward and backward four drive singal, described left motor-drive circuit comprises dc source, first resistance ~ the 4th resistance, first triode ~ the 6th triode, the first end of described first resistance inputs described left-hand rotation drive singal or retreats drive singal, second end of described first resistance is connected with the base stage of described first triode, be connected with the base stage of described 5th triode after described second resistance of colelctor electrode series connection of described first triode, the emitter stage of described first triode is connected with the base stage of described 3rd triode, the first end of described 3rd resistance inputs described right-hand rotation drive singal or forward drive signal, second end of described 3rd resistance is connected with the base stage of described 4th triode, be connected with the base stage of described second triode after described 4th resistance of colelctor electrode series connection of described 4th triode, the emitter stage of described 4th triode is connected with the base stage of described 6th triode, the emitter stage of described second triode is all connected with the first power input of described left motor with the colelctor electrode of described 3rd triode, the emitter stage of described 5th triode is all connected with the second source input of described left motor with the colelctor electrode of described 6th triode, the colelctor electrode of described second triode is all connected with the positive pole of described dc source with the colelctor electrode of described 5th triode, the emitter stage of described 3rd triode is all connected with the negative pole of described dc source with the emitter stage of described 6th triode, described right motor-drive circuit is by described DC power supply and comprise the 5th resistance ~ the 8th resistance, 7th triode ~ the 12 triode, the first end of described 5th resistance inputs described right-hand rotation drive singal or retreats drive singal, second end of described 5th resistance is connected with the base stage of described 7th triode, be connected with the base stage of described 11 triode after described 6th resistance of colelctor electrode series connection of described 7th triode, the emitter stage of described 7th triode is connected with the base stage of described 9th triode, the first end of described 7th resistance inputs described left-hand rotation drive singal or forward drive signal, second end of described 7th resistance is connected with the base stage of described tenth triode, be connected with the base stage of described 8th triode after described 8th resistance of colelctor electrode series connection of described tenth triode, the emitter stage of described tenth triode is connected with the base stage of described 12 triode, the emitter stage of described 8th triode is all connected with the first power input of described right motor with the colelctor electrode of described 9th triode, the emitter stage of described 11 triode is all connected with the second source input of described right motor with the colelctor electrode of described 12 triode, the colelctor electrode of described 8th triode is all connected with the positive pole of described dc source with the colelctor electrode of described 11 triode, the emitter stage of described 9th triode is all connected with the negative pole of described dc source with the emitter stage of described 12 triode.

The beneficial effects of the utility model are:

The utility model adopts bi-motor respectively to two front-wheel drives of suitcase, two motors control start and stop by two drive circuits respectively, rotate and reverse, the control of the various running statuses of suitcase can be realized when bearing larger pressure, comprise left-hand rotation, turn right, advance, retreat, anticlockwise and right rotation, anticlockwise wherein and right rotation are respectively by the left-hand rotation continued and realization of turning right, owing to driving two front-wheels to reversely rotate by two motors simultaneously, so turn left, turn right, anticlockwise and right rotation can realize in original place, control very convenient and load capacity is strong, there is significant practical value.

Accompanying drawing explanation

Fig. 1 is the explosive view being convenient to the remote control electric suitcase controlled described in the utility model;

Fig. 2 is the stereogram after the remote control electric suitcase assembling being convenient to control described in the utility model;

Fig. 3 is the circuit diagram of left motor-drive circuit described in the utility model;

Fig. 4 is the circuit diagram of right motor-drive circuit described in the utility model;

Fig. 5 is the top view being convenient to the remote controller of the remote control electric suitcase controlled described in the utility model;

Schematic perspective view when Fig. 6 is the remote control electric suitcase left-hand rotation being convenient to control described in the utility model;

Schematic perspective view when Fig. 7 is the remote control electric suitcase right-hand rotation being convenient to control described in the utility model;

Fig. 8 is the schematic perspective view of the remote control electric suitcase being convenient to control described in the utility model when moving forward and backward.

Detailed description of the invention

Below in conjunction with accompanying drawing, the utility model is described in further detail:

As Fig. 1, shown in Fig. 2 and Fig. 5, the remote control electric suitcase being convenient to control described in the utility model comprises interconnective rear box 1 (lower box when namely suitcase keeps flat), front casing 2 (upper box when namely suitcase keeps flat, also be upper cover), remote-control receiving circuit, drive circuit and remote controller 20, remote-control receiving circuit wherein and drive circuit are all located on circuit board 16, the left and right sides of the bottom of rear box 1 is separately installed with left rear wheel 3 and off hind wheel 18, the left and right sides of the bottom of front casing 2 is separately installed with the near front wheel 10 and off-front wheel 5, the near front wheel 10 is driven by left motor 14, off-front wheel 5 is driven by right motor 9, remote-control receiving circuit for receive remote controller 20 transmit and output drive signal to drive circuit, drive circuit comprises left motor-drive circuit and right motor-drive circuit, the output of left motor-drive circuit is connected with the power input of left motor 14, the output of right motor-drive circuit is connected with the power input of right motor 9.

As shown in Figure 5, transmitting of remote controller 20 comprises left-hand rotation, turns right, moving forward and backward four transmits, also sent by infrared transmitting tube 19 (also can be other signal emitting head) by the four direction key control of the button 21 of remote controller 20 respectively, remote-control receiving circuit receives transmitting of remote controller 20 and output drive signal.Internal circuit and the remote-control receiving circuit of above-mentioned remote controller 20 are custom circuit, are not innovation places of the present utility model, so do not repeat them here.

As shown in Figure 1, Figure 3 and Figure 4, the drive singal that remote-control receiving circuit on circuit board 16 exports comprise respectively with the left-hand rotation of remote controller 20, turn right, move forward and backward four transmit to turn left one to one, turn right, move forward and backward four drive singal, i.e. left-hand rotation drive singal Lin, right-hand rotation drive singal Rin, forward drive signal Fin and retreat drive singal Bin, left motor-drive circuit comprises dc source VCC, first resistance R1, second resistance R2, 3rd resistance R3, 4th resistance R4, first triode V1, second triode V2, 3rd triode V3, 4th triode V4, 5th triode V5 and the 6th triode V6, the first end input left-hand rotation drive singal Lin of the first resistance R1 or retrogressing drive singal Bin, second end of the first resistance R1 is connected with the base stage of the first triode V1, the colelctor electrode of the first triode V1 is connected after the second resistance R2 and is connected with the base stage of the 5th triode V5, the emitter stage of the first triode V1 is connected with the base stage of the 3rd triode V3, the first end input right-hand rotation drive singal Rin or forward drive signal Fin of the 3rd resistance R3, second end of the 3rd resistance R3 is connected with the base stage of the 4th triode V4, be connected with the base stage of the second triode V2 after colelctor electrode series connection the 4th resistance R4 of the 4th triode V4, the emitter stage of the 4th triode V4 is connected with the base stage of the 6th triode V6, the emitter stage of the second triode V2 and the colelctor electrode of the 3rd triode V3 are all connected with first power input of left motor M-L (i.e. the left motor 14 of Fig. 1), the emitter stage of the 5th triode V5 is all connected with the second source input of left motor M-L with the colelctor electrode of the 6th triode V6, the colelctor electrode of the second triode V2 is all connected with the positive pole of dc source VCC with the colelctor electrode of the 5th triode V5, the emitter stage of the 3rd triode V3 is all connected with the negative pole GND of dc source VCC with the emitter stage of the 6th triode V6, right motor-drive circuit is powered by dc source VCC and is comprised the 5th resistance R5, 6th resistance R6, 7th resistance R7, 8th resistance R8, 7th triode V7, 8th triode V8, 9th triode V9, tenth triode V10, 11 triode V11 and the 12 triode V12, the first end of the 5th resistance R5 inputs described right-hand rotation drive singal Rin or retreats drive singal Bin, second end of the 5th resistance R5 is connected with the base stage of the 7th triode V7, be connected with the base stage of V11 the 11 triode after colelctor electrode series connection the 6th resistance R6 of the 7th triode V7, the emitter stage of the 7th triode V7 is connected with the base stage of the 9th triode V9, the first end input left-hand rotation drive singal Lin or forward drive signal Fin of the 7th resistance R7, second end of the 7th resistance R7 is connected with the base stage of the tenth triode V10, be connected with the base stage of the 8th triode V8 after colelctor electrode series connection the 8th resistance R8 of the tenth triode V10, the emitter stage of the tenth triode V10 is connected with the base stage of the 12 triode V12, the emitter stage of the 8th triode V8 and the colelctor electrode of the 9th triode V9 are all connected with first power input of right motor M-R (i.e. the right motor 9 of Fig. 1), the emitter stage of the 11 triode V11 is all connected with the second source input of right motor M-R with the colelctor electrode of the 12 triode V12, the colelctor electrode of the 8th triode V8 is all connected with the positive pole of dc source VCC with the colelctor electrode of the 11 triode V11, the emitter stage of the 9th triode V9 is all connected with the negative pole GND of dc source VCC with the emitter stage of the 12 triode V12.

For the ease of more clearly understanding the structure of suitcase, also show in Fig. 1 and drive upper cover 4, drive lower cover 17, left tooth case inner cap 13, left tooth case enclosing cover 11, right tooth case inner cap 8, right tooth case enclosing cover 6, multiple Left Drive gear 12, multiple right travelling gear 7 and battery case 15, these parts are conventional components, not innovation place of the present utility model, so do not illustrate.

Below the control procedure of the various motion states (at one time in section, motion state can only be wherein a kind of) of this remote control electric suitcase is specifically described:

As shown in Fig. 1, Fig. 3-Fig. 6, when needs suitcase turns left, user's one hand presses the left button of the button 21 of remote controller 20, remote controller 20 will turn left to transmit the remote-control receiving circuit be transmitted on circuit board 16 by infrared transmitting tube 19, and remote-control receiving circuit receives rear output left-hand rotation drive singal Lin.As shown in Figure 3, left-hand rotation drive singal Lin makes the base stage of the first triode V1 be in high level after the first resistance R1, thus make the first triode V1 conducting, the high level of the colelctor electrode of the first triode V1 is by making the 5th triode V5 conducting after the second resistance R2, the high level of the emitter stage of the first triode V1 makes the 3rd triode V3 conducting, now the power input of left motor M-L (i.e. the left motor 14 of Fig. 1) connects dc source VCC and its first power input is negative, second source input is just, left motor M-L obtains electric reversion and (goes after driving the near front wheel 10 when setting its reversion, correspondingly, left motor M-L drives the near front wheel 10 to move ahead when rotating forward), go after driving the near front wheel 10, simultaneously, as shown in Figure 4, left-hand rotation drive singal Lin makes the base stage of the tenth triode V10 be in high level after the 7th resistance R7, thus make the tenth triode V10 conducting, the high level of the colelctor electrode of the tenth triode V10 is by making the 8th triode V8 conducting after the 8th resistance R8, the high level of the emitter stage of the tenth triode V10 makes the 12 triode V12 conducting, now the power input of right motor M-R (i.e. the right motor 9 of Fig. 1) connects dc source VCC and its first power input is just, second source input is negative, right motor M-R obtains electric rotating forward, and (setting when it rotates forward drives off-front wheel 5 to move ahead, correspondingly, go after driving off-front wheel 5 when right motor M-R reverses), off-front wheel 5 is driven to move ahead.In this case, as shown in Figure 6, after the near front wheel 10 of suitcase, row, off-front wheel 5 move ahead, suitcase can left face to.After turning in place, user unclamps the left button of the button 21 of remote controller 20, and suitcase stops the rotation, and completes left-hand rotation function (anglec of rotation of left-hand rotation function generally defines within 90 °).

To make suitcase anticlockwise, then continue the left button of the button 21 pressing remote controller 20, suitcase continues to turn left, until realize user's request, (anglec of rotation of anticlockwise function is generally defined between 90 ° to 180 ° to complete anticlockwise function, during as demonstration, its anglec of rotation then can unrestrictedly).

As shown in Fig. 1, Fig. 3-Fig. 5, Fig. 7, when needs suitcase is turned right, user's one hand presses the right button of the button 21 of remote controller 20, remote controller 20 is by infrared transmitting tube 19 by the remote-control receiving circuit be transmitted on circuit board 16 that transmits of turning right, and remote-control receiving circuit receives rear output right-hand rotation drive singal Rin.As shown in Figure 3, right-hand rotation drive singal Rin makes the base stage of the 4th triode V4 be in high level after the 3rd resistance R3, thus make the 4th triode V4 conducting, the high level of the colelctor electrode of the 4th triode V4 is by making the second triode V2 conducting after the 4th resistance R4, the high level of the emitter stage of the 4th triode V4 makes the 6th triode V6 conducting, now the power input of left motor M-L (i.e. the left motor 14 of Fig. 1) connects dc source VCC and its first power input is just, second source input is negative, left motor M-L obtains electric rotating forward, the near front wheel 10 is driven to move ahead, simultaneously, as shown in Figure 4, right-hand rotation drive singal Rin makes the base stage of the 7th triode V7 be in high level after the 5th resistance R5, thus make the 7th triode V7 conducting, the high level of the colelctor electrode of the 7th triode V7 is by making the 11 triode V11 conducting after the 6th resistance R6, the high level of the emitter stage of the 7th triode V7 makes the 9th triode V9 conducting, now the power input of right motor M-R (i.e. the right motor 9 of Fig. 1) connects dc source VCC and its first power input is negative, second source input is just, right motor M-R obtains electric reversion, go after driving off-front wheel 5.In this case, as shown in Figure 7, the near front wheel 10 of suitcase moves ahead, row after off-front wheel 5, suitcase can turn right in original place to.After turning in place, user unclamps the right button of the button 21 of remote controller 20, and suitcase stops the rotation, and completes right-hand rotation function (anglec of rotation of right-hand rotation function generally defines within 90 °).

To make suitcase right rotation, then continue the right button of the button 21 pressing remote controller 20, suitcase continues to turn right, until realize user's request, (anglec of rotation of right rotation function is generally defined between 90 ° to 180 ° to complete right rotation function, during as demonstration, its anglec of rotation then can unrestrictedly).

As shown in Fig. 1, Fig. 3-Fig. 5, Fig. 8, when needs suitcase advances, user's one hand presses the front key of the button 21 of remote controller 20, remote controller 20 is by infrared transmitting tube 19 by the remote-control receiving circuit be transmitted on circuit board 16 that transmits that advances, and remote-control receiving circuit receives rear output forward drive signal Fin.As shown in Figure 3, forward drive signal Fin makes the base stage of the 4th triode V4 be in high level after the 3rd resistance R3, thus make the 4th triode V4 conducting, the high level of the colelctor electrode of the 4th triode V4 is by making the second triode V2 conducting after the 4th resistance R4, the high level of the emitter stage of the 4th triode V4 makes the 6th triode V6 conducting, now the power input of left motor M-L (i.e. the left motor 14 of Fig. 1) connects dc source VCC and its first power input is just, second source input is negative, left motor M-L obtains electric rotating forward, the near front wheel 10 is driven to move ahead, simultaneously, as shown in Figure 4, forward drive signal Fin makes the base stage of the tenth triode V10 be in high level after the 7th resistance R7, thus make the tenth triode V10 conducting, the high level of the colelctor electrode of the tenth triode V10 is by making the 8th triode V8 conducting after the 8th resistance R8, the high level of the emitter stage of the tenth triode V10 makes the 12 triode V12 conducting, now the power input of right motor M-R (i.e. the right motor 9 of Fig. 1) connects dc source VCC and its first power input is just, second source input is negative, right motor M-R obtains electric rotating forward, off-front wheel 5 is driven to move ahead.In this case, as shown in Figure 8, the near front wheel 10 of suitcase moves ahead, off-front wheel 5 moves ahead, and suitcase can advance.Advance after putting in place, user unclamps the front key of the button 21 of remote controller 20, and suitcase halts, and completes advancement function.

As shown in Fig. 1, Fig. 3-Fig. 5, Fig. 8, when needs suitcase retreats, user's one hand presses the rear key of the button 21 of remote controller 20, remote controller 20 will retreat the remote-control receiving circuit be transmitted on circuit board 16 that transmits by infrared transmitting tube 19, and remote-control receiving circuit receives rear output and retreats drive singal Bin.As shown in Figure 3, retreat drive singal Bin makes the base stage of the first triode V1 be in high level after the first resistance R1, thus make the first triode V1 conducting, the high level of the colelctor electrode of the first triode V1 is by making the 5th triode V5 conducting after the second resistance R2, the high level of the emitter stage of the first triode V1 makes the 3rd triode V3 conducting, now the power input of left motor M-L (i.e. the left motor 14 of Fig. 1) connects dc source VCC and its first power input is negative, second source input is just, left motor M-L obtains electric reversion, go after driving the near front wheel 10, simultaneously, as shown in Figure 4, retreat drive singal Bin makes the base stage of the 7th triode V7 be in high level after the 5th resistance R5, thus make the 7th triode V7 conducting, the high level of the colelctor electrode of the 7th triode V7 is by making the 11 triode V11 conducting after the 6th resistance R6, the high level of the emitter stage of the 7th triode V7 makes the 9th triode V9 conducting, now the power input of right motor M-R (i.e. the right motor 9 of Fig. 1) connects dc source VCC and its first power input is negative, second source input is just, right motor M-R obtains electric reversion, go after driving off-front wheel 5.In this case, as shown in Figure 8, row after row, off-front wheel 5 after the near front wheel 10 of suitcase, suitcase can retreat.After retrogressing puts in place, user unclamps the rear key of the button 21 of remote controller 20, and suitcase stops retreating, and completes fallback function.

Above-described embodiment is preferred embodiment of the present utility model, it is not the restriction to technical solutions of the utility model, such as: go after only needing the near front wheel 10 during left-hand rotation and off-front wheel 5 is motionless, or only need that off-front wheel 5 moves ahead and the near front wheel 10 is motionless, only need row after off-front wheel 5 during right-hand rotation and the near front wheel 10 is motionless, or only need that the near front wheel 10 moves ahead and off-front wheel 5 is motionless, so also can complete the function of left-hand rotation, anticlockwise, right-hand rotation, right rotation, but weak effect some, be difficult to realize pivot stud and rotation; As long as without the technical scheme that creative work can realize on the basis of above-described embodiment, all should be considered as falling within the scope of the rights protection of the utility model patent.

Claims (2)

1. be convenient to the remote control electric suitcase of control for one kind, comprise interconnective rear box, front casing, remote-control receiving circuit, drive circuit and remote controller, the left and right sides of the bottom of described rear box is separately installed with left rear wheel and off hind wheel, the left and right sides of the bottom of described front casing is separately installed with the near front wheel and off-front wheel, it is characterized in that: described the near front wheel is driven by left motor, described off-front wheel is driven by right motor, described remote-control receiving circuit is for receiving transmitting and output drive signal extremely described drive circuit of described remote controller, described drive circuit comprises left motor-drive circuit and right motor-drive circuit, the output of described left motor-drive circuit is connected with the power input of described left motor, the output of described right motor-drive circuit is connected with the power input of described right motor.

2. the remote control electric suitcase being convenient to control according to claim 1, it is characterized in that: transmitting of described remote controller comprises left-hand rotation, turns right, moving forward and backward four transmits, accordingly, the drive singal that described remote-control receiving circuit exports comprises left-hand rotation, turns right, move forward and backward four drive singal, described left motor-drive circuit comprises dc source, first resistance ~ the 4th resistance, first triode ~ the 6th triode, the first end of described first resistance inputs described left-hand rotation drive singal or retreats drive singal, second end of described first resistance is connected with the base stage of described first triode, be connected with the base stage of described 5th triode after described second resistance of colelctor electrode series connection of described first triode, the emitter stage of described first triode is connected with the base stage of described 3rd triode, the first end of described 3rd resistance inputs described right-hand rotation drive singal or forward drive signal, second end of described 3rd resistance is connected with the base stage of described 4th triode, be connected with the base stage of described second triode after described 4th resistance of colelctor electrode series connection of described 4th triode, the emitter stage of described 4th triode is connected with the base stage of described 6th triode, the emitter stage of described second triode is all connected with the first power input of described left motor with the colelctor electrode of described 3rd triode, the emitter stage of described 5th triode is all connected with the second source input of described left motor with the colelctor electrode of described 6th triode, the colelctor electrode of described second triode is all connected with the positive pole of described dc source with the colelctor electrode of described 5th triode, the emitter stage of described 3rd triode is all connected with the negative pole of described dc source with the emitter stage of described 6th triode, described right motor-drive circuit is by described DC power supply and comprise the 5th resistance ~ the 8th resistance, 7th triode ~ the 12 triode, the first end of described 5th resistance inputs described right-hand rotation drive singal or retreats drive singal, second end of described 5th resistance is connected with the base stage of described 7th triode, be connected with the base stage of described 11 triode after described 6th resistance of colelctor electrode series connection of described 7th triode, the emitter stage of described 7th triode is connected with the base stage of described 9th triode, the first end of described 7th resistance inputs described left-hand rotation drive singal or forward drive signal, second end of described 7th resistance is connected with the base stage of described tenth triode, be connected with the base stage of described 8th triode after described 8th resistance of colelctor electrode series connection of described tenth triode, the emitter stage of described tenth triode is connected with the base stage of described 12 triode, the emitter stage of described 8th triode is all connected with the first power input of described right motor with the colelctor electrode of described 9th triode, the emitter stage of described 11 triode is all connected with the second source input of described right motor with the colelctor electrode of described 12 triode, the colelctor electrode of described 8th triode is all connected with the positive pole of described dc source with the colelctor electrode of described 11 triode, the emitter stage of described 9th triode is all connected with the negative pole of described dc source with the emitter stage of described 12 triode.