阅读说明：本技术 手摇脚踩一体式发电装置 (Hand-operated and foot-operated integrated power generation device ) 是由 任小勇 邱安良 田伟 张天彪 田伟国 于 2021-09-22 设计创作，主要内容包括：本发明涉及一种手摇脚踩一体式发电装置。本发明包括脚踩模组、手摇模组和主体模组,脚踩模组设置在主体模组一侧,手摇模组设置在主体模组另一侧,主体模组包括壳体、磁缸、线圈、脚踩传动装置和手摇传动装置,线圈设置在磁缸内,磁缸设置在壳体内,脚踩模组通过脚踩传动装置与磁缸连接,手摇模组通过手摇传动装置与磁缸连接。本发明即能够采用手摇发电又能采用脚踩发电,适用范围大且便于携带。(The invention relates to a hand-operated and foot-operated integrated power generation device. The invention comprises a foot-operated module, a hand-operated module and a main body module, wherein the foot-operated module is arranged on one side of the main body module, the hand-operated module is arranged on the other side of the main body module, the main body module comprises a shell, a magnetic cylinder, a coil, a foot-operated transmission device and a hand-operated transmission device, the coil is arranged in the magnetic cylinder, the magnetic cylinder is arranged in the shell, the foot-operated module is connected with the magnetic cylinder through the foot-operated transmission device, and the hand-operated module is connected with the magnetic cylinder through the hand-operated transmission device. The invention can generate electricity by hand and foot, with wide application and easy carrying.)

1. The utility model provides an integral type power generation facility is stepped on to hand foot which characterized in that: integral type power generation facility is stepped on to hand foot includes that the foot steps on module, hand module and main part module, the foot steps on the module setting in main part module one side, hand module setting is at main part module opposite side, the main part module includes that casing, jar, coil, foot step on transmission and hand transmission, the coil sets up in the jar, the jar sets up in the casing, the foot is stepped on the module and is stepped on transmission through the foot and be connected with the jar, hand module is connected with the jar through hand transmission.

2. The hand-cranking and foot-stepping integrated power generation device as claimed in claim 1, wherein: the main part module still includes left core and right core, left side core and right core symmetry set up in the casing, the coil is fixed on left core, hand transmission includes staff, gear, pinion, gear shaft and the bearing housing who takes the gear, the magnetic cylinder is fixed on the gear shaft, the gear shaft passes left core and stretches in the right side of left core, the gear shaft outer end is connected with the casing, and the inner is provided with the bearing housing who takes the gear, the staff is fixed between left core and right core through two bearings, and the staff left end is connected with hand module, be provided with the gear on the staff between right side core and the left core, the gear passes through the pinion and takes the bearing housing meshing of gear.

3. The hand-cranking and foot-stepping integrated power generation device as claimed in claim 2, wherein: the foot-operated transmission device comprises a gear carrier, a one-way bearing with an external gear, a small shaft, a gear and a pinion, wherein the outer end of the gear carrier is connected with the foot-operated module, the inner end of the gear carrier is meshed with the one-way bearing with the external gear through a rack on the gear carrier, and the one-way bearing with the external gear is connected with the right end of the small shaft.

4. The hand-cranking and foot-stepping integrated power generation device as claimed in claim 3, wherein: the pedal transmission device further comprises a torsion spring and a spring support, the spring support is welded on the gear rack, one end of the torsion spring is clamped on the spring support, and the other end of the torsion spring is clamped on the inner side of the casing.

5. The hand-cranking and foot-stepping integrated power generation device as claimed in claim 2, wherein: the hand-cranking module comprises a hand rocker arm and a hand crank, the hand crank is connected with the hand rocker arm, and the hand rocker arm is connected with the small shaft.

6. The hand-cranking and foot-stepping integrated power generation device as claimed in claim 3, wherein: the foot stepping module comprises a pedal and a pedal arm, the pedal is connected with the pedal arm, and the pedal arm is connected with the gear rack.

7. The hand-cranking and foot-stepping integrated power generation device as claimed in any one of claims 2 to 6, wherein: the main body module further comprises a PCB connected with the coil, and the PCB is arranged on the left core board.

8. The hand-cranking and foot-stepping integrated power generation device as claimed in any one of claim 7, wherein: the main part module still inserts output interface and waterproof USB female seat including navigating, insert output interface and waterproof USB female seat setting on the casing by plane, the PCB board is connected with inserting output interface and waterproof USB female seat through the cable respectively.

9. The hand-cranking and foot-stepping integrated power generation device as claimed in any one of claim 8, wherein: the silicon steel sheet is arranged between the inner wall of the magnetic cylinder and the outer wall of the positioning ring.

10. The hand-cranking and foot-stepping integrated power generation device as claimed in claim 9, wherein: the casing includes procapsid, well casing and back casing, procapsid, well casing and back casing are in the same place in the lock in proper order, hand module sets up in the front in the casing outside, the module setting is stepped on in the foot in the back casing outside.

Technical Field

The invention relates to the field of power generation, in particular to a hand-operated and foot-operated integrated power generation device.

Background

The hand-operated generator or the foot-operated generator can be supplied to various electronic products by manual power generation under the condition of no electric supply and oil power generation. The device can be applied to the states of field operations, field investigation, emergency power utilization and the like. The power supply device is mainly used for supplying power or charging portable products such as low-power communication radio stations, interphones, various measuring instruments and the like. The existing generator using manpower to generate electricity adopts a single hand-operated or foot-operated power generation mode, the power generation mode is single, and the application range is small; and the existing pedal generator has larger volume and is inconvenient to carry.

Disclosure of Invention

In order to solve the problems in the prior art, the invention provides a hand-operated and foot-operated integrated power generation device which can generate power by hand and foot, has a wide application range and is convenient to carry.

The technical solution of the invention is as follows: the invention relates to a hand-operated and foot-operated integrated power generation device, which is characterized in that: integral type power generation facility is stepped on to hand foot includes that the foot steps on the module, hand module and main part module, and the module setting is stepped on in main part module one side to the foot, and hand module setting is at main part module opposite side, and the main part module includes casing, jar, coil, transmission and hand transmission are stepped on to the foot, and the coil setting is in the jar, and the jar setting is in the casing, and the foot is stepped on the module and is stepped on transmission through the foot and be connected with the jar, and hand module is connected with the jar through hand transmission.

Further, the main body module still includes left core and right core, left core and right core symmetry set up in the casing, the coil is fixed on left core, hand transmission includes the staff, the gear, the pinion, gear shaft and the bearing housing that takes the gear, the magnetic cylinder is fixed on the gear shaft, the gear shaft passes left core and stretches in the right side of left core, the gear shaft outer end is connected with the casing, the inner is provided with the bearing housing that takes the gear, the staff is fixed between left core and right core through two bearings, the staff left end is connected with hand module, be provided with the gear on the staff between right core and the left core, the gear passes through the pinion and meshes with the bearing housing that takes the gear.

Furthermore, the foot-operated transmission device comprises a gear carrier, a one-way bearing with an external gear, a small shaft, a gear and a pinion, wherein the outer end of the gear carrier is connected with the foot-operated module, the inner end of the gear carrier is meshed with the one-way bearing with the external gear through a rack on the gear carrier, and the one-way bearing with the external gear is connected with the right end of the small shaft.

Furthermore, the foot-treading transmission device also comprises a torsion spring and a spring support, the spring support is welded on the gear rack, one end of the torsion spring is clamped on the spring support, the other end of the torsion spring is clamped on the inner side of the casing, and therefore the foot has resilience after treading.

Furthermore, hand module includes hand rocking arm and hand crank, and the hand crank is connected with hand rocking arm, and hand rocking arm is connected with the staff.

Furthermore, the foot pedal module comprises a pedal plate and a pedal arm, the pedal plate is connected with the pedal arm, and the pedal arm is connected with the gear rack.

Further, the main body module further comprises a PCB connected with the coil, and the PCB is arranged on the left core board.

Further, the main body module further comprises an aerial plug output interface and a waterproof USB female seat, the aerial plug output interface and the waterproof USB female seat are arranged on the shell, and the PCB is connected with the aerial plug output interface and the waterproof USB female seat through cables respectively.

Furthermore, a silicon steel sheet and a positioning ring are arranged in the magnetic cylinder, the silicon steel sheet is arranged between the inner wall of the magnetic cylinder and the outer wall of the positioning ring, the positioning ring plays a role in positioning after the silicon steel sheet is placed in the magnetic cylinder, and the silicon steel sheet is a permanent magnet.

Further, the casing includes procapsid, well casing and back casing, and procapsid, well casing and back casing are in the same place in the lock in proper order, and hand module sets up in the front casing outside, and the module setting is stepped on in the foot in the back casing outside.

The hand-operated and foot-treaded integrated power generation device provided by the invention has two input modes of hand-operated input and foot-treaded input, the box body is provided with the aerial plug output interface, the USB output interface and the output indicator lamp, and the hand-operated and foot-treaded integrated power generation device converts hand-operated or foot-treaded input energy into stable current output through the integrated transmission device. The stepping power generation is characterized in that stepping motion is converted into circular motion of the generator by the stepping power generation, and the circular motion is output after rectification processing. The hand-operated power generation and the foot-operated power generator are organically integrated, the hand-operated input function is added on the premise of basically not increasing the size and weight of the foot-operated power generation, the application range of the power generation device is enlarged, and the power generation device is convenient to carry. The principle of the hand-operated and foot-operated integrated power generation device is an electromagnetic induction principle, and a coil generates induced electromotive force in a rotating magnetic field. The rotor in the generator is magnetic steel, the stator is a coil, the coil cuts a magnetic induction line in a magnetic field under the action of external force to generate induced electromotive force, and the generated 3-phase alternating current is converted to be stabilized in voltage and output stable direct current of 17.8V.

Drawings

FIG. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic structural diagram of a main body module according to the present invention.

The reference numerals are explained below:

1. a foot-stepping module; 2. a main body module; 3. a hand-cranking module; 4. a front housing; 5. a gear shaft; 6. a magnetic cylinder; 7. an aerial plug output interface; 8. a waterproof USB female socket; 9. a left core board; 10. a coil; 11. a torsion spring; 12. a spring support; 13. a one-way bearing with an external gear; 14. a gear carrier; 15. a rear housing; 16. a pinion gear; 17. a positioning ring; 18. a gear; 19. a middle shell; 20. a pedal; 21. a right core board; 22. a small shaft; 23. and a bearing sleeve with a gear.

Detailed Description

The general aspects of the invention will be described in further detail with reference to the following figures and specific examples:

referring to fig. 1 and 2, the structure of the embodiment of the invention comprises a foot module 1, a hand module 3 and a main module 2, wherein the foot module 1 is arranged at one side of the main module 2, the hand module 3 is arranged at the other side of the main module 2, the foot module 1 comprises a pedal plate and a pedal arm, the pedal plate is connected with the pedal arm, the hand module 3 comprises a hand rocker arm and a hand crank, the hand crank is connected with the hand arm, the main module 2 comprises a shell, a left core plate 9, a right core plate 21, a magnetic cylinder 6, a coil 10, a foot transmission device and a hand transmission device, the left core plate 9 and the right core plate 21 are symmetrically arranged in the shell, the coil 10 is fixed on the left core plate 9 through a bearing sleeve and is positioned in the magnetic cylinder 6, the hand transmission device comprises a small shaft 22, a gear 18, a small gear 16, a gear shaft 5 and a bearing sleeve 23 with a gear, the foot transmission device comprises a gear carrier 14 and a one-way bearing 13 with an external gear, the outer end of the gear shaft 5 is connected with the shell, a silicon steel sheet and a positioning ring 17 are further arranged in the magnetic cylinder 6, the silicon steel sheet is arranged between the inner wall of the magnetic cylinder and the outer wall of the positioning ring 17, the positioning ring 17 plays a role in positioning after the silicon steel sheet is placed in the magnetic cylinder 6, and the silicon steel sheet is a permanent magnet. The magnetic cylinder 6, the silicon steel sheet, the positioning ring 17 and the gear shaft 5 are fixed together and extend to the right side of the left core plate 9 through a bearing sleeve 23 with a gear, the bearing sleeve 23 with the gear is meshed with the pinion 16 through teeth, the gear 18 is fixed together with a small shaft 22, the small shaft 22 is fixed between the left core plate 9 and the right core plate 21 through two bearings, the left end of the small shaft 22 is connected with a hand crank arm of the hand crank module 3, the right end of the small shaft 22 is fixedly provided with a one-way bearing 13 with an external gear, the one-way bearing 13 with the external gear is meshed with a rack on one end of a gear rack 14, the other end of the gear rack 14 is connected with a pedal arm in the pedal module 1, the gear rack 14 rotates for 45 degrees by pedaling a pedal in the pedal module 1, the one-way bearing 13 with the external gear rotates, the small shaft 22 rotates while the gear 18 rotates, the pinion 16 also drives the gear shaft 5 to rotate, the magnetic cylinder 6 rotates, the coil 10 does not move, the motion of cutting magnetic lines is generated, and the current is produced. When the pedal is not used, the hand cranking module 3 is inserted into the left side of the shell, the hand rocker arm of the hand cranking module 3 rotates, the small shaft 22 rotates, the gear 18 rotates, the small gear 16 also drives, the gear shaft 5 rotates, the magnetic cylinder 6 rotates, the coil 10 does not move, magnetic line cutting motion is generated, and line current is generated. At this time, under the action of the one-way bearing 13 with the external gear, only when the foot is stepped on, the one-way bearing 13 with the external gear rotates to drive the small shaft 22 to rotate, and when the hand is shaken, the one-way bearing 13 with the external gear does not rotate along with the small shaft, and the gear rack 14 does not rotate.

The main body module 2 further includes a PCB connected to the coil 10, and the PCB is disposed on the left core board 9. Still be provided with aviation plug output interface 7 and waterproof USB female seat 8 on the casing, the PCB board is connected with aviation plug output interface 7 and waterproof USB female seat 8 through the cable respectively.

The bottom of the shell can also be provided with a pedal 20 which is stepped on by feet, so that the stability of the device during power generation can be improved.

In this embodiment, the housing comprises a front housing 4, a middle housing 19 and a rear housing 15, the front housing 4, the middle housing 19 and the rear housing 15 are sequentially buckled together, the hand cranking module 3 is arranged outside the front housing 4, and the foot stepping module 1 is arranged outside the rear housing 15.

In the invention, the working mode of treading is as follows: anticlockwise rotation pedal arm 45, drive gear carrier 14 and rotate 45, the rack on the gear carrier 14 drives staff 22 through the one-way bearing 13 of outband gear and rotates, and staff 22 drives gear 18 and rotates, and gear 18 drives pinion 16 and rotates to drive magnetic cylinder 6 and rotate, cut the magnetic line of force, produce the electric current, input PCB board, PCB board is connected to aviation plug output interface 7 and waterproof USB female seat 8 through the cable.

The hand-operated working mode: the hand rocker arm is rotated clockwise, the gear 18 is driven to rotate through the small shaft 22, the gear 18 drives the small gear 16 to rotate, the magnetic cylinder 6 is driven to rotate, magnetic lines of force are cut, current is generated and input into the PCB, and the PCB is connected to the aviation plug output interface 7 and the waterproof USB female seat 8 through cables.

The present invention and the technical contents not specifically described in the above embodiments are the same as the prior art.

The above embodiments are only specific embodiments disclosed in the present invention, but the scope of the present invention is not limited thereto, and the scope of the present invention disclosed in the present invention should be subject to the scope of the claims.