CN103706079A

CN103706079A - Bicycle with moving mouse

Info

Publication number: CN103706079A
Application number: CN201310740767.3A
Authority: CN
Inventors: 朱科奇
Original assignee: Ningbo Yinzhou Keqi Cartoon Industrial Technology Co Ltd
Current assignee: Ningbo Yinzhou Keqi Cartoon Industrial Technology Co Ltd
Priority date: 2013-12-30
Filing date: 2013-12-30
Publication date: 2014-04-09

Abstract

The invention discloses a bicycle with a moving mouse. The bicycle is characterized by comprising a mouse device, a pedal device and a control unit; the mouse device comprises an iron plate, a handle, a mouse shell, a mouse sensor and a magnetic force unit, wherein the handle extends upwards from the iron plate, the mouse shell is located on the iron plate and can move relative to the iron plate, the mouse sensor is contained in the mouse shell and can sense the displacement of the mouse shell, and the magnetic force unit is arranged in the mouse shell and can attract the iron plate; the magnetic force unit comprises a mouse iron core, a plurality of magnetic blocks and a mouse magnetic fore coil, wherein the magnetic blocks are distributed on the periphery of the mouse magnetic iron core, and the mouse magnetic fore coil is wound on the outside of the mouse iron core and is electrically connected with the control unit; the pedal device comprises a shell unit, a crank unit, a magnetic resistor, a rotating speed sensor and an electric generator, wherein the crank unit is rotationally arranged on the shell unit, the magnetic resistor controls the crank unit, the rotating speed sensor can measure rotating speed of the crank unit, and the electric generator is driven by the crank unit. The bicycle has the advantages that the mouse device is controlled by matching the pedal device with the control unit, a user is forced to do sports, and the number of sporting opportunities is increased.

Description

The bicycle with motion mouse

Technical field

The present invention relates to a kind of bicycle, particularly a kind of bicycle with motion expression.

Background technology

Along with the level of informatization of modern society is more and more high, modern be seated in the face of the time of computer operation also more and more long.Common people are for a long time when the computer, and pin is conventionally on the ground in motion, and hand just does not need to execute being displaced on mouse or keyboard slightly of great strength too yet, lack motion and often can cause the generation of the various ciril diseases such as obesity, hypertension so for a long time.Some is fat of bad in the user of stroke degree, can ride instead of walk with known electric wheelchair, electric wheelchair comprises a rocking bar, the user of these electric wheelchairs only need to mobile rocking bar, this electric wheelchair can carry this user and arrive each place, yet so but cause chance that user moves still less, make the vicious circle more of fat situation.

Summary of the invention

The object of the present invention is to provide a kind of bicycle with motion mouse, in order to solve above-mentioned existing issue.

Technical scheme of the present invention is as follows: have the bicycle of motion mouse, it is characterized in that: the bicycle of motion mouse comprises a mouse apparatus, a foot pedal apparatus and a control module; Mouse apparatus comprises iron pan, the handle extending from iron pan upward, be positioned at iron pan and the mouse case that can move relative to iron pan, be installed in mouse case mouse sensor that can sensing mouse case displacement, and is arranged at the magnetic force unit that also can hold iron pan in mouse case; It is outer and be electrically connected to the mouse magnetic coil of this control module that magnetic force unit comprises that the mouse magnetic patch and that is distributed in mouse surrounding unshakable in one's determination unshakable in one's determination, a plurality of is wound in mouse iron core; Foot pedal apparatus comprises that reluctance force device, that crank unit, that a housing unit, is arranged at housing unit rotatably pins down this crank unit can measure the speed probe of crank unit rotating speed, and the electric organ being driven by crank unit.

Housing unit comprises that one is the foot-operated housing of hollow, two gear frames that are relatively and are arranged at foot-operated shell inner surface, and one is arranged at the resistance frame of riding shell inner surface.

Crank unit comprises that a crank axle that is rotatably arranged in housing unit, two crank arms that radially extend outwardly from these crank axle two ends respectively, two are respectively adjacent to these crank arm outer ends and are arranged at the driving cog axle that the pedal of these crank arms, this crank axle outer peripheral face radially extends outwardly certainly a crank gear and rotating speed wheel, mesh with this crank gear, and one is sheathed on this driving cog axle and meshes the travelling gear of this reluctance force device.

The number of teeth of crank gear is all greater than the number of teeth of driving cog axle and travelling gear, and rotating speed wheel can corresponding speed probe 44, and has a breach, and speed probe is in the mode of light sensing, to detect the number of times of breach process.

Reluctance force device comprises the resistance tooth axle of an engaged transmission gear, resistance wheel iron and that radially extend outwardly from resistance tooth axle outer peripheral face, a resistance iron core, and is wound in the resistance magnetic coil outside resistance iron core.

Resistance wheel is positioned between resistance two ends unshakable in one's determination, and the number of teeth of travelling gear is greater than the number of teeth of resistance tooth axle.

Driving cog axle is arranged on these gear frames rotationally, and crank gear and driving cog axle engagement place are positioned between these gear frames, and resistance tooth axle is arranged on resistance frame and foot-operated housing rotationally.

Control module is electrically connected to mouse apparatus and foot pedal apparatus, and receives the signal of mouse sensor and speed probe, and controls and drive magnetic force unit according to signal.

Control module comprise a main frame, be electrically connected to the port,input-output interface card of this main frame, a mouse control circuit that is electrically connected to this port,input-output interface card, a draught control circuit with an ADC, be electrically connected to mouse control circuit respectively and be electrically connected to the charging circuit of this electric organ and this main frame with a mouse-driven circuit of draught control circuit with a resistance drive circuit,, and be electrically connected to a display and a keyboard of this main frame.

Technology beneficial effect of the present invention is: by magnetic force unit, allow user increase the required power of rolling mouse, and utilize foot pedal apparatus to coordinate control module to carry out mouse beacon device, force user to move, reach the effect that increases fitness machine meeting.

Accompanying drawing explanation

Fig. 1 is a preferred embodiment figure of the present invention;

Fig. 2 is a side view of preferred embodiment;

Fig. 3 is a cutaway view of preferred embodiment;

Fig. 4 is a block diagram of preferred embodiment;

Fig. 5 is a flow chart of preferred embodiment;

Fig. 6 is a stereogram of the present invention.

In figure, indicate: 3, mouse apparatus, 31, iron pan, 32, handle, 33, mouse case, 34, mouse sensor, 35, magnetic force unit, 351, mouse is unshakable in one's determination, and 352, magnetic patch, 353, mouse magnetic coil, 4, foot pedal apparatus, 41, housing unit, 411, foot-operated housing, 412, gear frame, 413, resistance frame, 42, crank unit, 421, crank axle, 422, crank arm, 423, pedal, 424, crank gear, 425, rotating speed wheel, 426, driving cog axle, 427, travelling gear, 428, breach, 43, reluctance force device, 431, resistance tooth axle, 432, resistance wheel, 433, resistance is unshakable in one's determination, and 434, resistance magnetic coil, 44, speed probe, 45, electric organ, 5, control module, 50, charging circuit, 51, main frame, 52, port,input-output interface card, 53, mouse control circuit, 54, draught control circuit, 55, ADC, 58, mouse-driven circuit, 59, resistance drive circuit, 60, display, 61, keyboard, 700, power supply, 800, electric wheelchair.

The specific embodiment

By reference to the accompanying drawings, the present invention is described in further detail.

As shown in the figure, the present invention has the bicycle of motion mouse, it is characterized in that: the bicycle of motion mouse comprises a mouse apparatus 3, a foot pedal apparatus 4 and a control module 5; Mouse apparatus 3 comprises iron pan 31, the handle 32 extending from iron pan 31 upward, be positioned at iron pan 31 and the mouse case 33 that can move relative to iron pan 31, be installed in mouse case 33 mouse sensor 34 that can sensing mouse case 33 displacements, and is arranged at the interior magnetic force unit 35 that also can hold iron pan 31 of mouse case 33; It is outer and be electrically connected to the mouse magnetic coil 353 of this control module 5 that magnetic force unit 35 comprises that a mouse iron core 351, a plurality of magnetic patch 352 and that is distributed in mouse 351 surroundings unshakable in one's determination are wound in mouse unshakable in one's determination 351; Foot pedal apparatus 4 comprises that the reluctance force device 43, that crank unit 42, that a housing unit 41, is arranged at housing unit 41 rotatably pins down this crank unit 42 can measure the speed probe 44 of crank unit 42 rotating speeds, and the electric organ 45 being driven by crank unit 42.Housing unit 41 comprises that one is the foot-operated housing 411 of hollow, two gear frames 412 that are relatively and are arranged at foot-operated housing 411 inner surfaces, and a resistance frame 413 that is arranged at foot-operated housing 411 inner surfaces.Crank unit 42 comprise a crank axle 421 that is rotatably arranged in housing unit 41, two crank arms that radially extend outwardly from these crank axle 421 two ends respectively 422, two be respectively adjacent to these crank arm 422 outer ends and be arranged at the driving cog axle 426 that the pedal 423 of these crank arms 422, these crank axle 421 outer peripheral faces radially extend outwardly certainly a crank gear 424 and rotating speed wheel 425, mesh with this crank gear 424, and one is sheathed on this driving cog axle 426 and meshes the travelling gear 427 of this reluctance force device 43.The number of teeth of crank gear 424 is all greater than the number of teeth of driving cog axle 426 and travelling gear 427, and rotating speed wheel 425 can corresponding speed probe 44, and has a breach 428, and speed probe 44 is in the mode of light sensing, to detect the number of times of breach 428 processes.Reluctance force device 43 comprises the resistance tooth axle 431 of an engaged transmission gear 427, resistance wheel 432 iron and that radially extend outwardly from resistance tooth axle 431 outer peripheral faces, a resistance iron core 433, and is wound in the resistance magnetic coil 434 outside resistance iron core 433.Resistance wheel 432 is positioned between resistance 433 two ends unshakable in one's determination, and the number of teeth of travelling gear 427 is greater than the number of teeth of resistance tooth axle 431.Driving cog axle 426 is arranged on these gear frames 412 rotationally, and crank gear 424 and driving cog axle 426 engagement places are positioned at 412 of these gear frames, and resistance tooth axle 431 is arranged on resistance frame 413 and foot-operated housing 411 rotationally.Control module 5 is electrically connected to mouse apparatus 3 and foot pedal apparatus 4, and receives the signal of mouse sensor 34 and speed probe 44, and controls and drive magnetic force unit 35 according to signal.Control module 5 comprise a main frame 51, be electrically connected to the port,input-output interface card 52 of this main frame 51, a mouse control circuit 53 that is electrically connected to this port,input-output interface card 52, a draught control circuit 54 with an ADC 55, be electrically connected to mouse control circuit 53 respectively and be electrically connected to the charging circuit 50 of this electric organ 45 and this main frame 51 with a resistance drive circuit 59, with a mouse-driven circuit 58 of draught control circuit 54, and be electrically connected to a display 60 and a keyboard 61 of this main frame 51.

Concrete structure of the present invention as described above.Wherein, main frame 51 can be processed the signal of this port,input-output interface card 52, port,input-output interface card 52 can be passed to this main frame 51 by the signal than digital converter 55 by these, and the signal of main frame 51 can be passed to mouse control circuit 53 and draught control circuit 54.Resistance magnetic coil 434 is electrically connected to resistance drive circuit 59, resistance drive circuit 59 is given in 54 citations number of draught control circuit, resistance drive circuit 59 is controlled the magnetism intensity that resistance magnetic coil 434 produces, mouse magnetic coil 353 is electrically connected to mouse-driven circuit 58, this mouse-driven circuit 58, the magnetism intensity of mouse-driven circuit 58 mouse beacon magnetic coils 353 are given in 53 citations number of mouse control circuit.

Consult Fig. 4,5, control module 5 operates according to step 900 ~ 914: step 900: start.Step 901: judge whether user will open automatic resisting and control, and if so, carry out step 902, if not, carry out step 911.Step 902: user inputs a foot pedal apparatus 4 and allows dwell time.Step 903: the ordinate of mouse index and abscissa value on reading displayed device 60.Step 904: read the measured numerical value of speed probe 44.Step 905: calculate the translational speed of this mouse sensor 34, and these crank unit 42 revolutions.Step 906: according to a database, calculate the resistance of this mouse apparatus 3 and foot pedal apparatus 4, wherein, this database comprises the Resistance Value of speed, rotating speed and mapping.Step 907: execution can drive mouse apparatus 3 and foot pedal apparatus 4 to produce the subprogram of resistance; Step 908: judge whether this crank unit 42 (as shown in Figure 5) surpasses this foot pedal apparatus 4 and allow dwell time, if so, carry out step 909, if not, carry out step 903.Step 909: close this mouse sensor 34 and allow the mouse index of user on cannot operation display 60, also can freeze mouse index by software in addition, or the mode that allows this mouse index disappear allows the mouse index of user on cannot operation display 60.Step 910: finish.Step 911: user's input mouse device 3 and foot pedal apparatus 4 Resistance Values.Step 912: user inputs foot pedal apparatus 4 and allows dwell time.Step 913: execution can drive mouse apparatus 3 and foot pedal apparatus 4 to produce the subprogram of resistance.Step 914: judge whether this crank unit 42 surpasses this foot pedal apparatus 4 and allow dwell time, if so, carry out step 909, if not, carry out step 913.

In sum, the bicycle that the present invention has motion mouse has following effect: one, the magnetic force unit 35 of this mouse apparatus 3 can hold this iron pan 31, the resistance when increasing user and moving, and reach the movement effects of hand.Two, this control module 5 can be according to the rotating speed of the crank unit 42 of this pedal unit 4, and stops or the mouse index that opening display 60 is shown, and reach, forces user to ride this foot pedal apparatus 4, and reach increase fitness machine can effect.

Consult Fig. 6, it is worth mentioning that the bicycle with motion mouse can omit keyboard 31, and be applicable to be installed on the electric wheelchair 800 of an applicable fat bad use of the user in row, mouse apparatus 3 sees through and controls the direction of advance that electric wheelchair 800 is controlled in unit 5, so, can allow the user mouse case 33 of rolling mouse device 3 and consumption of calorie arduously.And user also can step on crank unit 42 by pin, and reach the effect of motion, reach too increase fitness machine can effect.

Claims

1. a bicycle with motion mouse, is characterized in that:

The bicycle of motion mouse comprises a mouse apparatus (3), a foot pedal apparatus (4) and a control module (5);

The handle (32) that mouse apparatus (3) comprises iron pan (31), extend upward from iron pan (31), be positioned at iron pan (31) and the mouse case (33) that can move relative to iron pan (31), be installed in the mouse sensor (34) of mouse case (33) energy sensing mouse case (33) displacement, and being arranged at the interior magnetic force unit (35) that also can hold iron pan (31) of mouse case (33);

It is outer and be electrically connected to the mouse magnetic coil (353) of this control module (5) that magnetic force unit (35) comprises that a mouse unshakable in one's determination (351), a plurality of magnetic patch (352) and that is distributed in mouse iron core (351) surrounding are wound in mouse iron core (351);

Foot pedal apparatus (4) comprises that the reluctance force device (43), that crank unit (42), that a housing unit (41), is arranged at housing unit (41) rotatably pins down this crank unit (42) can measure the speed probe (44) of crank unit (42) rotating speed, and the electric organ (45) being driven by crank unit (42).

2. the bicycle with motion mouse according to claim 1, it is characterized in that: housing unit (41) comprises a foot-operated housing (411) that is hollow, two gear frames (412) that are relatively and are arranged at foot-operated housing (411) inner surface, and a resistance frame (413) that is arranged at foot-operated housing (411) inner surface.

3. the bicycle with motion mouse according to claim 1, it is characterized in that: crank unit (42) comprise that one is rotatably arranged in the crank axle (421) of housing unit (41), two crank arms (422) that radially extend outwardly from these crank axles (421) two ends respectively, two pedals (423) that are respectively adjacent to these crank arms (422) outer end and are arranged at these crank arms (422), the crank gear (424) radially extending outwardly from this crank axle (421) outer peripheral face and a rotating speed wheel (425), one with the driving cog axle (426) of this crank gear (424) engagement, and one be sheathed on the travelling gear (427) that this reluctance force device (43) was gone up and meshed to this driving cog axle (426).

4. the bicycle with motion mouse according to claim 1, it is characterized in that: the number of teeth of crank gear (424) is all greater than the number of teeth of driving cog axle (426) and travelling gear (427), rotating speed wheel (425) can corresponding speed probe (44), and thering is a breach (428), speed probe (44) is in the mode of light sensing, to detect the number of times of breach (428) process.

5. the bicycle with motion mouse according to claim 1, it is characterized in that: reluctance force device (43) comprises the resistance tooth axle (431) of an engaged transmission gear (427), resistance wheel (432) iron and that radially extend outwardly from resistance tooth axle (431) outer peripheral face, a resistance (433) unshakable in one's determination, and be wound in the outer resistance magnetic coil (434) of resistance iron core (433).

6. the bicycle with motion mouse according to claim 1, is characterized in that: resistance wheel (432) is positioned between resistance iron core (433) two ends, and the number of teeth of travelling gear (427) is greater than the number of teeth of resistance tooth axle (431).

7. the bicycle with motion mouse according to claim 1, it is characterized in that: driving cog axle (426) is arranged on these gear frames (412) rotationally, crank gear (424) and driving cog axle (426) engagement place are positioned between these gear frames (412), and resistance tooth axle (431) is arranged on resistance frame (413) and foot-operated housing (411) rotationally.

8. the bicycle with motion mouse according to claim 1, it is characterized in that: control module (5) is electrically connected to mouse apparatus (3) and foot pedal apparatus (4), and receive the signal of mouse sensor (34) and speed probe (44), and control and drive magnetic force unit (35) according to signal.

9. the bicycle with motion mouse according to claim 1, it is characterized in that: control module (5) comprises a main frame (51), one is electrically connected to the port,input-output interface card (52) of this main frame (51), be electrically connected to a mouse control circuit (53) of this port,input-output interface card (52), one draught control circuit (54) and an ADC (55), be electrically connected to respectively a mouse-driven circuit (58) and a resistance drive circuit (59) of mouse control circuit (53) and draught control circuit (54), one is electrically connected to the charging circuit (50) of this electric organ (45) and this main frame (51), and a display (60) that is electrically connected to this main frame (51) and a keyboard (61).