CN113279929A - V-shaped intelligent feedback damping power generation device based on cutting magnetic induction line - Google Patents

Abstract

The invention discloses a V-shaped intelligent feedback damping power generation device based on a cutting magnetic induction line, belongs to the technical field of vehicle-mounted damping energy-saving power generation, and comprises a V-shaped support, wherein a mounting assembly is arranged at the front end of the V-shaped support, and connecting assemblies are arranged at the two rear ends of the V-shaped support. The V-shaped intelligent feedback damping power generation device based on the cutting magnetic induction line increases the stability of a connection part, ensures the damping effect more fully, saves the material cost, is convenient and simple to install, is easy to operate, utilizes the power generation device to regenerate energy, improves the resource utilization rate, saves energy, protects environment, is low-carbon, meets the power consumption requirement of a vehicle, realizes the utilization and conversion of energy, achieves the purpose of energy conservation, selects a mobile power supply sold in the market, is convenient and practical, improves the comfort level of a user, and can change a slide rheostat to autonomously select more comfort levels or more external electric energy.

Description

V-shaped intelligent feedback damping power generation device based on cutting magnetic induction line

Technical Field

The invention relates to the technical field of vehicle-mounted damping energy-saving power generation, in particular to a V-shaped intelligent feedback damping power generation device based on a cutting magnetic induction line.

Background

Most of traditional vehicle-mounted shock absorbers are only provided with a group of shock absorption structures, mainly achieve shock absorption through springs and are mostly made of materials such as metal, so that the traditional shock absorbers do not accord with the concept of environmental protection priority advocated by the state at present, and electric energy is the most important energy in China and is a necessity for normal production and life of people. However, because of the use of a large amount of energy, the problem of environmental pollution is becoming more and more serious, so that better utilization of energy is required, energy conservation and emission reduction are realized, and environmental pollution is reduced. Meanwhile, the electric power resource is a clean resource, compared with other renewable energy sources, the energy-saving and emission-reducing effects are obvious, the production technology level of the domestic spring shock absorber is greatly improved and updated at present, the equipment performance is also greatly improved, and the requirements of industrial development in China are basically met; the spring shock absorber in foreign countries has a higher technical development level, the design of the shock absorber tends to be perfect, but a shock-absorbing power generation device capable of generating electric energy by utilizing the spring shock does not exist.

Disclosure of Invention

The invention aims to provide a V-shaped intelligent feedback damping power generation device based on a cutting magnetic induction line, which increases the stability of a connecting part, ensures the damping effect more fully, saves the material cost, is convenient and simple to install, is easy to operate, utilizes a power generation device to regenerate energy, improves the resource utilization rate, is energy-saving, environment-friendly, green and low-carbon, meets the power consumption requirement of a vehicle, realizes the utilization and conversion of energy, achieves the aim of energy conservation, selects a mobile power supply sold in the market, is convenient and practical, improves the comfort level of a user, and can change a sliding rheostat to autonomously select whether more comfort levels or more external electric energy is needed, so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

the utility model provides a V type intelligence feedback shock attenuation power generation facility based on cutting magnetic induction line, includes V type support, the front end of V type support is provided with the installation component, and the rear both ends of V type support are provided with coupling assembling, the top of V type support sets up damper, and damper sets up two sets of support interlude of installing respectively at V type support, is provided with the electricity generation subassembly on the V type support of damper both sides, and the winding of electricity generation subassembly one end sets up on damper, and electricity generation subassembly one end is connected with the subassembly that discharges.

Furthermore, the V-shaped support is of a V-shaped frame structure formed by the left mounting rod, the front fixing plate and the right mounting rod, one ends of the left mounting rod and the right mounting rod are connected with the front fixing plate, and the left mounting rod and the right mounting rod are arranged in a bilateral symmetry mode with respect to the center line of the front fixing plate.

Further, the installation component comprises a left installation support, a right installation support, a left installation lantern ring, a right installation lantern ring and a butt joint rod, the left installation support and the right installation support are respectively installed at two side ends of the front fixing plate, one end of the left installation support is connected with the left installation lantern ring, one end of the right installation support is connected with the right installation lantern ring, and the butt joint rod is arranged inside the left installation lantern ring and the right installation lantern ring in a sleeved mode.

Further, coupling assembling includes the butt joint lantern ring, connecting rod, clamp ring and connecting seat, and the butt joint lantern ring sets up two sets ofly, fixes respectively at the front end of left side installation pole and right side installation pole, and the butt joint lantern ring cup joints and installs the connecting rod, and the connecting rod is fixed at butt joint lantern ring side by clamp ring joint in the inner, and the connecting rod other end is connected with the connecting seat, and connecting rod, clamp ring and connecting seat all set up two sets ofly.

Further, the damping assembly comprises a guide rod, a guide sleeve, a top seat, a damper, a damping spring and a fixing support plate, the guide rod is fixed on the V-shaped support, the guide sleeve is sleeved above the guide rod, the top seat is connected to the top end of the guide sleeve, the damping spring is wrapped on the outer sides of the guide rod and the guide sleeve, and the damper is installed at the side end of the top seat through the fixing support plate.

Furthermore, the guide rods, the guide sleeves, the top seat, the shock absorbers, the shock absorbing springs and the fixed support plate are arranged in two groups to form two groups of shock absorbing assemblies, and the two groups of shock absorbing assemblies are fixed at the middle ends of the left mounting rod and the right mounting rod respectively through the two groups of guide rods.

Further, the electricity generation subassembly includes first strong magnet, the second strong magnet, multiturn coil and magnetic induction coil, first strong magnet and second strong magnet pass through the bracing frame to be fixed in the both sides of left side installation pole and right side installation pole, be provided with magnetic induction coil between the butt joint face of first strong magnet and second strong magnet, first strong magnet and second strong magnet and multiturn coil connection, multiturn coil sets up two sets ofly, twine respectively on two sets of damper assembly, and multiturn coil one end is connected with the subassembly electricity that discharges.

Further, the discharging assembly comprises a mobile power supply, a diode rectifier bridge, a voltage stabilizing module, a discharging circuit and electric equipment, the diode rectifier bridge is electrically connected with the voltage stabilizing module, the voltage stabilizing module is electrically connected with the mobile power supply, the mobile power supply is connected with the electric equipment through the discharging circuit, and one end of the multi-turn coil is connected into the voltage stabilizing module through the diode rectifier bridge.

Furthermore, a protection circuit module is arranged in the power generation assembly and comprises a temperature protection module, a short circuit protection module, an input overvoltage protection module, an input reverse protection module, an input overcurrent protection module, an output overvoltage protection module and a battery overshoot and over-discharge protection module, and the protection modules in the protection circuit module are all electrically connected with the power generation assembly.

Furthermore, a feedback system is arranged in the discharge assembly and comprises a fixed resistor, a sliding rheostat and a feedback coil, the fixed resistor and the sliding rheostat are respectively connected with the discharge circuit, the other end of the fixed resistor is connected with electric equipment, the discharge circuit is connected into the feedback coil through the sliding rheostat, the feedback coil is vertically arranged between the two groups of damping springs in a staggered mode, and the feedback coil is connected with an external circuit through a connecting wire.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the V-shaped intelligent feedback damping power generation device based on the cutting magnetic induction line, the inner end of the connecting rod is clamped and fixed at the side end of the butt joint sleeve ring through the clamp ring, the other end of the connecting rod is connected with the connecting seat, the connecting rod, the clamp ring and the connecting seat are respectively provided with two groups, the V-shaped support is more convenient to mount through the mounting assemblies and the connecting assemblies arranged at the two ends of the V-shaped support, the stability of the connecting position is improved, the V-shaped support is prevented from greatly shaking when in use, and the stability in subsequent energy storage is improved.

2. According to the V-shaped intelligent feedback damping power generation device based on the cutting magnetic induction line, two groups of damping assemblies are respectively fixed at the middle ends of the left mounting rod and the right mounting rod through two groups of guide rods, the arrangement of the double damping structure increases the strength of the structure for damping vibration, so that the structure is more stable and safe, a special V-shaped frame is formed by symmetrically mounting the left mounting rod and the right mounting rod of the V-shaped support, meanwhile, the double damping structure is formed, so that the damping effect is more fully ensured, the problem that the vehicle-mounted device on the market is too complex and wastes materials such as metals is effectively solved to a certain extent, the material cost is saved, the installation is convenient and simple, and the operation is easy.

3. The V-shaped intelligent feedback damping power generation device based on the cut magnetic induction line is based on a V-shaped support, N magnets and S magnets are firmly fixed on two sides of a spring in a nut compact fixing mode on two sides of the V-shaped support, a stable magnetic field is guaranteed to be generated, a multi-turn coil is wound clockwise, the positions of a first strong magnet, a second strong magnet and two groups of multi-turn coils are ingeniously arranged, when the shock absorber performs damping work, the vibration of the shock absorber cuts the set strong magnetic field to generate induced electromotive force, the three coils are used for cutting the magnetic induction line together, so that a required current value is achieved, the power generation device is used for regenerating energy, the resource utilization rate is improved, and the power generation device is energy-saving, environment-friendly, green and low-carbon.

4. The V-shaped intelligent feedback shock absorption power generation device based on the cutting of the magnetic induction line is connected with a voltage stabilizing module through a coil outside a magnet and a diode rectifier bridge, is connected with a mobile power supply through the voltage stabilizing module, and is used for transporting electric energy generated by a shock absorber to the mobile power supply for storage, and simultaneously, a vehicle can also perform discharge operation by using the stored electric energy, so that the power consumption requirement of the vehicle is met, the utilization and conversion of the energy are realized, and the purpose of energy saving is achieved, the mobile power supply sold in the market is selected, the design circuit is convenient and practical, the two mobile power supplies are adopted for interactive charging and discharging, when one power supply is full, the other power supply can be charged through a change-over switch, and the former power supply can be discharged so as to achieve the purpose of charging and discharging, a frictionless power generation mode is adopted, and a set strong magnetic field is cut by using the shaking of the vehicle shock absorption device, the electric energy that produces the bumper shock absorber is transported to portable power source and is stored, can be used to the portable power source of other devices on other vehicles, anytime and anywhere solves the demand of charging, convenient and fast, and the factor of safety of device is high, utilizes the reliable stable circuit of multiple maturity to guarantee safety, and the electric energy that produces the output is stable high-efficient, and conversion efficiency is high.

5. According to the V-shaped intelligent feedback damping power generation device based on the cutting magnetic induction line, the other end of the fixed resistor is connected with the electric equipment, the discharging circuit is connected to the feedback coil through the sliding rheostat, part of electric energy generated by cutting the magnetic induction line is used for being used by a user, and part of electric energy is fed back to the feedback coil, so that a magnetic field opposite to an original magnetic field is generated, the purpose of weakening the magnetic field is achieved, the vibration amplitude of the spring is increased, the spring becomes softer, the comfort level of the user is improved, and the user can change the sliding rheostat to independently select whether more comfort levels or more external electric energy is needed.

Drawings

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

FIG. 2 is a schematic view of the structure of the V-shaped bracket of the present invention;

FIG. 3 is a schematic view of the shock absorbing assembly of the present invention;

FIG. 4 is a front view of the power generation assembly of the present invention;

FIG. 5 is a diagram of a coil magnetic field force apparatus of the present invention;

FIG. 6 is a block diagram of a discharge assembly connection module according to the present invention;

FIG. 7 is a block diagram of the protection circuit module according to the present invention;

fig. 8 is a block diagram of the feedback system connection of the present invention.

In the figure: 1. a V-shaped bracket; 11. a left mounting bar; 12. a front fixing plate; 13. a right mounting bar; 2. mounting the component; 21. a left mounting bracket; 22. a right mounting bracket; 23. a left mounting collar; 24. a right mounting lantern ring; 25. a docking rod; 3. a connecting assembly; 31. butting lantern rings; 32. a connecting rod; 33. a clamp ring; 34. a connecting seat; 4. a shock absorbing assembly; 41. a guide bar; 42. a guide sleeve; 43. a top seat; 44. a shock absorber; 45. a damping spring; 46. fixing a support plate; 5. a power generation assembly; 51. a first strong magnet; 52. a second strong magnet; 53. a multi-turn coil; 54. a magnetic induction coil; 6. a discharge assembly; 61. a mobile power supply; 62. a diode rectifier bridge; 63. a voltage stabilization module; 64. a discharge circuit; 65. an electricity-consuming device; 7. a protection circuit module; 71. a temperature protection module; 72. a short circuit protection module; 73. an input overvoltage protection module; 74. an input anti-reverse protection module; 75. inputting an overcurrent protection module; 76. an output overvoltage protection module; 77. a battery over-discharge protection module; 8. a feedback system; 81. a constant value resistor; 82. a slide rheostat; 83. a feedback coil.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, a V-shaped intelligent feedback damping power generation device based on cutting magnetic induction lines comprises a V-shaped bracket 1, wherein a mounting assembly 2 is arranged at the front end of the V-shaped bracket 1, connecting assemblies 3 are arranged at two rear ends of the V-shaped bracket 1, a damping assembly 4 is arranged above the V-shaped bracket 1, the damping assembly 4 is provided with two groups of mounting assemblies respectively arranged at the middle sections of the two brackets of the V-shaped bracket 1, power generation assemblies 5 are arranged on the V-shaped brackets 1 at two sides of the damping assembly 4, one end of each power generation assembly 5 is wound on the damping assembly 4, one end of each power generation assembly 5 is connected with a discharge assembly 6, each mounting assembly 2 comprises a left mounting bracket 21, a right mounting bracket 22, a left mounting lantern ring 23, a right mounting lantern ring 24 and a butt rod 25, the left mounting bracket 21 and the right mounting bracket 22 are respectively arranged at two side ends of a front fixing plate 12, one end of the left mounting bracket 21 is connected with the left mounting lantern ring 23, right installation lantern ring 24 is connected to right installing support 22 one end, and the inside butt joint pole 25 that all cup joints of left installation lantern ring 23 and right installation lantern ring 24, coupling assembling 3 is including the butt joint lantern ring 31, connecting rod 32, clamp ring 33 and connecting seat 34, butt joint lantern ring 31 sets up two sets ofly, fix the front end at left installation pole 11 and right installation pole 13 respectively, butt joint installs connecting rod 32 in the lantern ring 31 endotheca, connecting rod 32 the inner is fixed at butt joint lantern ring 31 side by clamp ring 33 joint, the connecting rod 32 other end is connected with connecting seat 34, connecting rod 32, clamp ring 33 and connecting seat 34 all set up two sets ofly, through setting up installation component 2 and coupling assembling 3 at V type support 1 both ends, make things convenient for V type support 1 to install more, increase the stability of junction, it rocks to appear by a wide margin when preventing V type support 1 to use, stability when improving subsequent energy storage.

Referring to fig. 2-3, the V-shaped bracket 1 is formed into a V-shaped frame structure by a left mounting rod 11, a front fixing plate 12 and a right mounting rod 13, one end of each of the left mounting rod 11 and the right mounting rod 13 is connected to the front fixing plate 12, the left mounting rod 11 and the right mounting rod 13 are symmetrically arranged on the left and right of the center line of the front fixing plate 12, the damping assembly 4 includes a guide rod 41, a guide sleeve 42, a top seat 43, a damper 44, a damping spring 45 and a fixing support plate 46, the guide rod 41 is fixed on the V-shaped bracket 1, the guide sleeve 42 is sleeved above the guide rod 41, the top seat 43 is connected to the top end of the guide sleeve 42, the damping spring 45 is wrapped on the outer sides of the guide rod 41 and the guide sleeve 42, the damper 44 is installed on the side end of the top seat 43 through the fixing support plate 46, the guide rod 41, the guide sleeve 42, the top seat 43, the damper 44, the damping spring 45 and the fixing support plate 46 are respectively arranged to form two damping assemblies 4, and the two damping assemblies 4 are respectively fixed on the middle ends of the left mounting rod 11 and the right mounting rod 13 through the guide rod 41 The utility model discloses a damping structure, including two shock-absorbing structure, the left side installation pole 11 and the right side installation pole 13 symmetry installation through V type support 1 form distinctive V type frame, two shock-absorbing structure's setting increases the intensity of structure buffering vibrations, make it more steady safety, left side installation pole 11 and the right side installation pole 13 symmetry installation through V type support 1 have formed two shock-absorbing structure simultaneously and have made the shock attenuation effect obtain guaranteeing more fully, effectively alleviated the problem of the too complicated extravagant materials such as metal of vehicular apparatus on the market to a certain extent, material saving cost, and install convenient simple, the easy to operate is the first hand.

Referring to fig. 4, the power generation assembly 5 includes a first strong magnet 51, a second strong magnet 52, a multi-turn coil 53 and a magnetic induction coil 54, the first strong magnet 51 and the second strong magnet 52 are fixed on both sides of the left mounting rod 11 and the right mounting rod 13 through an inclined bracket, the magnetic induction coil 54 is disposed between the abutting surfaces of the first strong magnet 51 and the second strong magnet 52, the first strong magnet 51 and the second strong magnet 52 are connected with the multi-turn coil 53, the multi-turn coil 53 is disposed in two sets and respectively wound on the two sets of damping assemblies 4, one end of the multi-turn coil 53 is electrically connected with the discharge assembly 6, two sets of rare earth neodymium iron boron strong magnets are respectively added on both ends of the V-shaped bracket 1 to form a coil magnetic force field, the multi-turn coil 53 cuts the magnetic induction coil 54 between the first strong magnet 51 and the second strong magnet 52 to generate current during damping, the V-shaped bracket 1 is supported, the both sides of the V-shaped bracket 1 adopt a compact fixing manner, firmly fix N and S magnet in the spring both sides, guarantee to produce stable magnetic field, press multiturn coil 53 clockwise winding mode, through ingenious first strong magnet 51 that sets up, second strong magnet 52 and two sets of multiturn coil 53 'S position, utilize bumper shock absorber 44 when carrying out shock attenuation during operation, damping device' S shake cuts the strong magnetic field that sets up, produce induced electromotive force, adopt three coil to cut magnetic induction line jointly, so as to reach required current value, utilize power generation facility to make the energy regeneration, resource utilization is improved, energy-concerving and environment-protective green low carbon.

Referring to fig. 5, the magnetic induction B is E/LV, where E is induced electromotive force, and can be measured by a multimeter; l is the length of the coil for cutting the magnetic induction line, and can be calculated by a formula L-RS/rho by measuring the resistance R and the sectional area S of the coil; v is the speed of the coil cutting magnetic induction line, different speeds V are given, the induced electromotive force E generated under coils with different diameters is measured, the magnetic induction intensity generated under the coils with different diameters can be obtained, the most appropriate coil diameter is selected by comparing the voltage, the current and the power generated under the coils with different diameters, and as the induced electromotive force E is in direct proportion to the magnetic induction intensity B, the coil length L and the cutting speed V, corresponding parameters can be adjusted according to the condition of a rider, so that the power generation efficiency is improved.

Referring to fig. 6, the discharging assembly 6 includes a mobile power source 61, a diode rectifier bridge 62, a voltage stabilizing module 63, a discharging circuit 64 and an electric device 65, the diode rectifier bridge 62 is electrically connected to the voltage stabilizing module 63, the voltage stabilizing module 63 is electrically connected to the mobile power source 61, the mobile power source 61 is connected to the electric device 65 through the discharging circuit 64, one end of the multi-turn coil 53 is connected to the voltage stabilizing module 63 through the diode rectifier bridge 62, the diode rectifier bridge 62 is connected to the voltage stabilizing module 63 through a coil outside the magnet, and the mobile power source 61 is connected to the voltage stabilizing module 63 through the voltage stabilizing module 63, so that the electric energy generated by the shock absorber 44 is transmitted to the mobile power source 61 for storage, and meanwhile, the vehicle can also perform discharging operation by using the stored electric energy, thereby satisfying the power consumption requirement of the vehicle, realizing the utilization and conversion of the energy, achieving the purpose of saving energy, selecting the mobile power source 61 sold in the market, which is convenient and practical, and can simplify the design circuit, the mobile power supply 61 can provide temperature protection, short circuit protection, Reset protection, input overvoltage protection, input anti-reverse protection, input overcurrent protection, output overvoltage protection, battery overcharge and overdischarge protection and battery core PTC protection, and the charging and discharging efficiency is comprehensively improved, because the speed of a damping device cutting a magnetic field is random and the direction changes at any moment, the generated induced current also needs to be correspondingly processed, the generated induced current passes through a rectifier bridge to convert alternating current generated by the cutting magnetic field into direct current, then the direct current output by the rectifier bridge is connected in series to enter a voltage stabilizing module 63, the mobile power supply 61 can be charged through the voltage stabilizing module 63 to be used by an electric appliance, the voltage stabilizing module 63 is a non-isolated voltage-reducing constant current and constant voltage module, wherein the input voltage is 4-35V, the output voltage is continuously adjustable, and the conversion efficiency is 80%, through the processing of the voltage stabilizing module 63, finally, stable direct current is sent to the mobile power supply 61, electric energy is stored, two mobile power supplies 61 are adopted for interactive charging and discharging, when one power supply is full, the other power supply can be charged through a change-over switch, meanwhile, the former power supply can be discharged to achieve the purpose of discharging while charging, a friction-free power generation mode is adopted, the electric energy generated by the shock absorber 44 is transported to the mobile power supply 61 to be stored through the high magnetic field set by the shaking cutting of the vehicle shock absorption device, the electric energy can be used for the mobile power supply 61 of other devices on other vehicles, the charging requirement can be solved anytime and anywhere, the device is convenient and rapid, the safety coefficient of the device is high, the safety is ensured by utilizing various mature and reliable stabilizing circuits, the output electric energy is stable and efficient, and the conversion efficiency is high.

Referring to fig. 7, a protection circuit module 7 is disposed in the power generation assembly 5, the protection circuit module 7 includes a temperature protection module 71, a short circuit protection module 72, an input overvoltage protection module 73, an input reverse protection module 74, an input overcurrent protection module 75, an output overvoltage protection module 76, and a battery overshoot protection module 77, the protection modules in the protection circuit module 7 are all electrically connected to the power generation assembly 5, and protection circuits such as temperature protection, short circuit protection, input overvoltage protection, input reverse protection, input overcurrent protection, output overvoltage protection, and battery overshoot protection are disposed to protect the circuits and ensure safety.

Referring to fig. 8, a feedback system 8 is further disposed in the discharging assembly 6, the feedback system 8 includes a fixed resistor 81, a sliding rheostat 82 and a feedback coil 83, the fixed resistor 81 and the sliding rheostat 82 are respectively connected to the discharging circuit 64, the other end of the fixed resistor 81 is connected to the electric equipment 65, the discharging circuit 64 is connected to the feedback coil 83 through the sliding rheostat 82, the feedback coil 83 is vertically staggered between the two sets of damping springs 45, the feedback coil 83 is connected to an external circuit through a connecting wire, a part of the electric energy generated by cutting the magnetic induction wire is used for external use by a user, a part is fed back to the feedback coil 83, thereby generating a magnetic field opposite to the original magnetic field, achieving the purpose of weakening the magnetic field, enlarging the vibration amplitude of the spring, equivalently changing the spring to be softer, this improves the comfort of the user who can change the sliding rheostat 82 to autonomously select whether more comfort or more external power is needed.

In conclusion, the V-shaped intelligent feedback damping power generation device based on the cutting magnetic induction line, provided by the invention, has the advantages that the double damping structure is arranged to increase the vibration damping intensity of the structure, so that the device is more stable and safer, the special V-shaped frame is formed by symmetrically installing the left installation rod 11 and the right installation rod 13 of the V-shaped bracket 1, the double damping structure is formed to ensure the damping effect to be more fully ensured, the problem that the vehicle-mounted device on the market wastes metal and other materials due to complexity is effectively solved to a certain extent, the material cost is saved, the installation is convenient and simple, the operation is easy, in the damping aspect, the strong damping can be realized by adopting the V-shaped double damping device, the damping requirements of most vehicles can be met, the production difficulty is small, and a manufacturer can carry out large-scale production by improving the premise of not changing the original production equipment, the production cost of manufacturers is reduced, the economic benefit of products is greatly improved, and the shock absorption device is simple in structure, can be installed on various vehicles, is good in universality, is optimized on the basis of ensuring the good shock absorption effect of the vehicle shock absorber 44, changes the existence form of energy by converting mechanical energy generated by vibration of the shock absorption device during shock absorption into electric energy which can be utilized by the vehicles, converts energy dissipated in the form of heat into usable electric energy, reduces the loss of the energy, realizes the recycling of the energy, and adopts various protection circuits for protection, so that the shock absorption device can stably and efficiently generate the electric energy.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.

Claims (10)

1. The utility model provides a V type intelligence feedback shock attenuation power generation facility based on cutting magnetic induction line which characterized in that: including V type support (1), the front end of V type support (1) is provided with installation component (2), and the rear both ends of V type support (1) are provided with coupling assembling (3), the top of V type support (1) sets up damper assembly (4), and damper assembly (4) set up two sets of support interlude of installing respectively in V type support (1), are provided with electricity generation subassembly (5) on the V type support (1) of damper assembly (4) both sides, and electricity generation subassembly (5) one end winding sets up on damper assembly (4), and electricity generation subassembly (5) one end is connected with discharge assembly (6).

2. The V-shaped intelligent feedback damping power generation device based on the cutting magnetic induction line according to claim 1, characterized in that: v type support (1) is installed pole (11), preceding fixed plate (12) and right side by a left side and is installed pole (13) and form V font frame construction, and left side installation pole (11) and right side installation pole (13) one end all are connected with preceding fixed plate (12), and the central line bilateral symmetry of preceding fixed plate (12) of left side installation pole (11) and right side installation pole (13) sets up.

3. The V-shaped intelligent feedback damping power generation device based on the cutting magnetic induction line according to claim 2, characterized in that: the mounting assembly (2) comprises a left mounting bracket (21), a right mounting bracket (22), a left mounting sleeve ring (23), a right mounting sleeve ring (24) and a butt joint rod (25), the left mounting bracket (21) and the right mounting bracket (22) are respectively mounted at two side ends of a front fixing plate (12), the left mounting sleeve ring (23) is connected with one end of the left mounting bracket (21), the right mounting sleeve ring (24) is connected with one end of the right mounting bracket (22), and the butt joint rod (25) is arranged inside the left mounting sleeve ring (23) and the right mounting sleeve ring (24) in a sleeved mode.

4. The V-shaped intelligent feedback damping power generation device based on the cutting magnetic induction line according to claim 3, characterized in that: coupling assembling (3) are including the butt joint lantern ring (31), connecting rod (32), clamp ring (33) and connecting seat (34), butt joint lantern ring (31) sets up two sets ofly, fix the front end at left side installation pole (11) and right side installation pole (13) respectively, the butt joint is installed in butt joint lantern ring (31) endotheca and is installed connecting rod (32), connecting rod (32) inner is fixed at butt joint lantern ring (31) side by clamp ring (33) joint, the connecting rod (32) other end is connected with connecting seat (34), connecting rod (32), clamp ring (33) and connecting seat (34) all set up two sets ofly.

5. The V-shaped intelligent feedback damping power generation device based on the cutting magnetic induction line according to claim 4, characterized in that: the shock absorption assembly (4) comprises a guide rod (41), a guide sleeve (42), a top seat (43), a shock absorber (44), a shock absorption spring (45) and a fixing support plate (46), the guide rod (41) is fixed on the V-shaped support (1), the guide sleeve (42) is sleeved above the guide rod (41), the top seat (43) is connected to the top end of the guide sleeve (42), the shock absorption spring (45) is arranged on the outer sides of the guide rod (41) and the guide sleeve (42) in a covering mode, and the shock absorber (44) is installed at the side end of the top seat (43) through the fixing support plate (46).

6. The V-shaped intelligent feedback damping power generation device based on the cutting magnetic induction line according to claim 5, characterized in that: guide arm (41), guide pin bushing (42), footstock (43), bumper shock absorber (44), damping spring (45) and fixed extension board (46) all set up two sets ofly, form two sets of damper (4), and two sets of damper (4) all fix respectively in left side installation pole (11) and right side installation pole (13) middle end through two sets of guide arm (41).

7. The V-shaped intelligent feedback damping power generation device based on the cutting magnetic induction line according to claim 6, characterized in that: the power generation assembly (5) comprises a first strong magnet (51), a second strong magnet (52), a multi-turn coil (53) and a magnetic induction coil (54), the first strong magnet (51) and the second strong magnet (52) are fixed on two sides of a left installation rod (11) and a right installation rod (13) through an inclined strut, the magnetic induction coil (54) is arranged between butt joint surfaces of the first strong magnet (51) and the second strong magnet (52), the first strong magnet (51) and the second strong magnet (52) are connected with the multi-turn coil (53), the multi-turn coil (53) is arranged in two groups and is wound on two groups of damping assemblies (4) respectively, and one end of the multi-turn coil (53) is electrically connected with a discharge assembly (6).

8. The V-shaped intelligent feedback damping power generation device based on the cutting magnetic induction line according to claim 7, characterized in that: the discharging assembly (6) comprises a mobile power supply (61), a diode rectifier bridge (62), a voltage stabilizing module (63), a discharging circuit (64) and electric equipment (65), the diode rectifier bridge (62) is electrically connected with the voltage stabilizing module (63), the voltage stabilizing module (63) is electrically connected with the mobile power supply (61), the mobile power supply (61) is connected with the electric equipment (65) through the discharging circuit (64), and one end of a multi-turn coil (53) is connected into the voltage stabilizing module (63) through the diode rectifier bridge (62).

9. The V-shaped intelligent feedback damping power generation device based on the cutting magnetic induction line according to claim 8, characterized in that: the power generation assembly is characterized in that a protection circuit module (7) is arranged in the power generation assembly (5), the protection circuit module (7) comprises a temperature protection module (71), a short-circuit protection module (72), an input overvoltage protection module (73), an input anti-reverse protection module (74), an input overcurrent protection module (75), an output overvoltage protection module (76) and a battery overshoot and over-discharge protection module (77), and the protection modules in the protection circuit module (7) are electrically connected with the power generation assembly (5).

10. The V-shaped intelligent feedback damping power generation device based on the cutting magnetic induction line according to claim 9, characterized in that: still be provided with feedback system (8) in discharge assembly (6), feedback system (8) are including definite value resistance (81), slide rheostat (82) and feedback coil (83), definite value resistance (81) and slide rheostat (82) are connected with discharge circuit (64) respectively, the definite value resistance (81) other end is connected with consumer (65), discharge circuit (64) insert feedback coil (83) through slide rheostat (82), feedback coil (83) are crisscross setting perpendicularly between two sets of damping spring (45), feedback coil (83) are connected with external circuit through connecting wire.

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