CN109519348B - Multifunctional solar power generation dotting counting device - Google Patents

Multifunctional solar power generation dotting counting device Download PDF

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Publication number
CN109519348B
CN109519348B CN201910040868.7A CN201910040868A CN109519348B CN 109519348 B CN109519348 B CN 109519348B CN 201910040868 A CN201910040868 A CN 201910040868A CN 109519348 B CN109519348 B CN 109519348B
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wheel
welding
seat
mode
dotting
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CN109519348A (en
Inventor
张树祥
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Yangzhou Weihe photoelectric Co., Ltd
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Yangzhou Weihe Photoelectric Co Ltd
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F03MACHINES OR ENGINES FOR LIQUIDS; WIND, SPRING, OR WEIGHT MOTORS; PRODUCING MECHANICAL POWER OR A REACTIVE PROPULSIVE THRUST, NOT OTHERWISE PROVIDED FOR
    • F03GSPRING, WEIGHT, INERTIA OR LIKE MOTORS; MECHANICAL-POWER PRODUCING DEVICES OR MECHANISMS, NOT OTHERWISE PROVIDED FOR OR USING ENERGY SOURCES NOT OTHERWISE PROVIDED FOR
    • F03G6/00Devices for producing mechanical power from solar energy
    • F03G6/06Devices for producing mechanical power from solar energy with means for concentrating solar rays
    • GPHYSICS
    • G06COMPUTING; CALCULATING; COUNTING
    • G06MCOUNTING MECHANISMS; COUNTING OF OBJECTS NOT OTHERWISE PROVIDED FOR
    • G06M1/00Design features of general application
    • G06M1/08Design features of general application for actuating the drive
    • G06M1/083Design features of general application for actuating the drive by mechanical means
    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02KDYNAMO-ELECTRIC MACHINES
    • H02K7/00Arrangements for handling mechanical energy structurally associated with dynamo-electric machines, e.g. structural association with mechanical driving motors or auxiliary dynamo-electric machines
    • H02K7/18Structural association of electric generators with mechanical driving motors, e.g. with turbines
    • H02K7/1807Rotary generators
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E10/00Energy generation through renewable energy sources
    • Y02E10/40Solar thermal energy, e.g. solar towers
    • Y02E10/46Conversion of thermal power into mechanical power, e.g. Rankine, Stirling or solar thermal engines

Abstract

The invention relates to a solar dotting counting device, in particular to a multifunctional solar power generation dotting counting device which comprises a solar collecting mechanism, a water tank mechanism, a dotting counting mechanism and a power generation mechanism.

Description

Multifunctional solar power generation dotting counting device
Technical Field
The invention relates to a solar dotting counting device, in particular to a multifunctional solar power generation dotting counting device.
Background
With the social progress, the consumption of various fossil energy sources is accelerated, the research on the utilization of new energy sources by people is never stopped, the traditional solar device cannot rotate along with the sun, the solar energy collection efficiency in the effective illumination time is low, and the functions are few, so that the multifunctional solar power generation counting device is designed.
Disclosure of Invention
The invention mainly solves the technical problem of providing a multifunctional solar power generation counting device, the device can effectively collect solar energy, convert the solar energy into mechanical energy, supplement water, tension a connecting belt, enable counting to be more stable, count, generate power and automatically feed paper.
In order to solve the technical problems, the invention relates to a solar dotting counting device, in particular to a multifunctional solar power generation dotting counting device which comprises a solar collecting mechanism, a water tank mechanism, a dotting counting mechanism and a power generation mechanism, wherein the device can effectively collect solar energy, can convert the solar energy into mechanical energy, can supplement water, can tension a connecting belt, and can ensure that dotting counting is more stable, dotting counting can be realized, power can be generated, and paper can be automatically fed.
The solar energy collecting mechanism comprises a spray pipe, a hose, a solar energy collecting pot mechanism, a connecting rod and a hydraulic adjusting mechanism, wherein the spray pipe is connected with the hose in a welding mode, the solar energy collecting pot mechanism is connected with the hose in a welding mode, the connecting rod is hinged with the solar energy collecting pot mechanism, the solar energy collecting pot mechanism is hinged with the hydraulic adjusting mechanism, and the hydraulic adjusting mechanism is hinged with the connecting rod;
the solar energy collecting pot mechanism comprises an interface, a heating pot, a water injection plug, a heating pot supporting leg, a solar energy collecting pot body, an adjusting block, a sliding groove, a buffer spring and a hinge ring, wherein the interface is positioned above the heating pot, the water injection plug is in spiral connection with the heating pot, the heating pot supporting leg is welded with the heating pot, the heating pot supporting leg is positioned above the solar energy collecting pot body, the adjusting block is welded with the solar energy collecting pot body, and the hinge ring is positioned below the solar energy collecting pot body;
the hydraulic adjusting mechanism comprises an adjusting shell, an adjusting slide rail, an adjusting slide block, a hydraulic rod, a hydraulic cylinder, a piston and a hydraulic spring, wherein the adjusting shell is connected with the adjusting slide rail through a bolt, the adjusting slide block is in clearance fit with the adjusting slide rail, the adjusting slide block is connected with the hydraulic rod through welding, the hydraulic rod is connected with the piston through welding, the piston is in clearance fit with the hydraulic cylinder, the hydraulic spring is connected with the piston through welding, the hydraulic spring is connected with the hydraulic cylinder through welding, and the hydraulic cylinder is connected with the adjusting shell through welding;
the water tank mechanism comprises a pressurizing motor, a pressurizing cam, a pressurizing seat, a pressurizing rod, a shell A, a one-way valve, a water tank cavity, a water tank water filling plug, an internal one-way valve, a pressurizing cavity, a pressurizing return spring and a pressurizing middle seat, the connection mode of the pressurizing motor and the pressurizing cam is expansion sleeve connection, the matching mode of the pressurizing seat and the pressurizing cam is contact matching, the connection mode of the pressurizing seat and the pressurizing rod is welding, the connection mode of the pressurizing rod and the pressurizing middle seat is welding, the matching mode of the pressurizing middle seat and the pressurizing cavity is clearance matching, the connection mode of the pressurizing reset spring and the pressurizing middle seat is welding, the pressurizing cavity is arranged on the right side of the shell A, the connection mode of the one-way valve and the shell A is welding, the water tank cavity is arranged on the left side of the shell A, the connection mode of the water tank water injection plug and the shell A is spiral connection, and the connection mode of the internal one-way valve and the shell A is welding;
the dotting counting mechanism comprises a towing hook, a base, a machine body supporting leg, a machine body, a one-way valve hole, a spray pipe welding hole, a conversion wheel mechanism, a belt tensioning mechanism, a toggle wheel mechanism, a dotting mechanism, a paper feeding wheel mechanism and a moving wheel, the towing hook is arranged on the base, the machine body supporting leg is arranged between the base and the machine body, the one-way valve is provided with a hole in the machine body, a spray pipe welding hole is formed in the machine body, the switching wheel mechanism is connected with the machine body in a bearing mode, the switching wheel mechanism is connected with the belt tensioning mechanism and the toggle wheel mechanism through a belt, the belt tensioning mechanism is welded with the machine body, the toggle wheel mechanism is connected with the machine body in a bearing mode, the striking mechanism is welded with the machine body in a contact matching mode, the striking mechanism is in contact matching with the toggle wheel mechanism in a bolt connection mode, the paper feeding wheel mechanism is in bolt connection with the machine body supporting leg in a bolt connection mode, and the moving wheel is in bolt connection with the base;
the conversion wheel mechanism comprises blades, an impeller, a primary belt pulley, a secondary belt pulley and a fixed shaft, wherein the blades are connected with the impeller through bolts, the impeller is welded with the primary belt pulley, the primary belt pulley is welded with the secondary belt pulley, and the impeller is connected with the fixed shaft through an expansion sleeve;
the belt tensioning mechanism comprises a tensioning wheel mechanism, a steel wire rope, a tensioning shell, a tensioning shaft, a locking hole, a limiting slide block mechanism, a limiting rod and a hand wheel, the tensioning wheel mechanism is welded with the steel wire rope, the tensioning wheel mechanism is welded with the tensioning shell, the tensioning shaft is connected with the tensioning shell through a bearing, the locking hole is formed in the tensioning shaft, the steel wire rope is welded with the tensioning shaft, the limiting slide block mechanism is connected with the tensioning shell through a bolt, the limiting rod is in clearance fit with the tensioning shell, and the hand wheel is welded with the tensioning shaft;
the tensioning wheel mechanism comprises a wheel, a wheel shaft, a wheel seat, a welding cross rod, an adjusting spring and an upper seat, wherein the wheel is connected with the wheel shaft in a welding mode, the wheel shaft is connected with the wheel seat in a bearing mode, the welding cross rod is arranged on the left side and the right side of the wheel seat, and the adjusting spring is arranged between the wheel seat and the upper seat;
the limiting slide block mechanism comprises a limiting slide rail, a limiting slide block and a limiting top block, the limiting slide rail is in clearance fit with the limiting slide block, and the limiting top block is connected with the limiting slide block in a welding mode;
the poking wheel mechanism comprises a poking arm, a wheel body, a belt pulley A and a fixed shaft B, wherein the poking arm is connected with the wheel body through a bolt, the wheel body is welded with the belt pulley A, and the belt pulley A is connected with the fixed shaft B through an expansion sleeve;
the dotting mechanism comprises a pressing seat, a pressing rod, a force transmission seat, a reset spring B, a dotting shell, a downward pressing hinged rod, a dotting arm, a fixed hinged wheel mechanism, a dotting needle and a dotting seat, wherein the pressing rod is arranged between the pressing seat and the force transmission seat, the force transmission seat is in clearance fit with the dotting shell, the reset spring B is welded with the force transmission seat, the reset spring B is welded with the dotting shell, the downward pressing hinged rod is welded with the force transmission seat, the downward pressing hinged rod is hinged with the dotting arm, the dotting arm is hinged with the fixed hinged wheel mechanism, the dotting needle is fixed on the dotting arm through a bolt, and the dotting seat is positioned below the dotting needle;
the fixed hinge wheel mechanism comprises a hinge seat and a hinge ring, and the hinge seat and the hinge ring are connected in a welding manner;
the paper feeding wheel mechanism comprises a paper feeding base, a sliding rod, a spring A, a hydraulic regulator, a sliding groove, a motor base, a motor, a paper feeding driving wheel and a paper feeding driven wheel, wherein the paper feeding base is welded with the sliding rod in a connecting mode, the spring A is arranged between the paper feeding base and the motor base, the hydraulic regulator is arranged between the paper feeding base and the motor base, the sliding groove is formed in the motor base, the sliding rod is in clearance fit with the sliding groove in a matching mode, the motor is positioned above the motor base, the paper feeding driving wheel is connected with the motor in an expansion sleeve mode, and the paper feeding driving wheel is in contact fit with the paper feeding driven wheel in a matching mode;
the power generation mechanism comprises a belt, a partition plate, a belt through hole, a helical gear, a belt connecting wheel A, a helical gear fixing shaft, a cutting coil mechanism and a permanent magnet mechanism, wherein the belt is flexibly connected with the belt connecting wheel A, the belt through hole is formed in the partition plate, the helical gear is welded with the belt connecting wheel A, the helical gear is meshed with the cutting coil mechanism, the cutting coil mechanism is positioned above the partition plate, and the permanent magnet mechanism is positioned above the partition plate;
the cutting coil mechanism comprises a helical gear A, a helical gear A shaft, a bearing seat and a coil, wherein the helical gear A is positioned on the left side of the helical gear A shaft, the helical gear A shaft is connected with the bearing seat in a bearing connection mode, and the coil is positioned on the right side of the helical gear A shaft;
the permanent magnet mechanism comprises a permanent magnet and an irregular seat, and the permanent magnet and the irregular seat are in transition fit;
the solar energy collecting mechanism and the dotting counting mechanism are connected in a welding mode, the water tank mechanism is arranged inside the dotting counting mechanism, the water tank mechanism and the dotting counting mechanism are connected in a welding mode, the power generation mechanism is arranged inside the dotting counting mechanism, and the power generation mechanism and the dotting counting mechanism are connected in a welding mode.
As a further optimization of the technical scheme, the water tank cavity of the multifunctional solar power generation counting device is made of stainless steel.
As a further optimization of the technical scheme, the number of the moving wheels of the multifunctional solar power generation dotting counting device is two.
As a further optimization of the technical scheme, the helical gear A is made of 40 Cr.
The multifunctional solar power generation dotting counting device has the beneficial effects that:
according to the multifunctional solar power generation counting device, solar energy can be effectively collected, the device can convert the solar energy into mechanical energy, water can be supplemented, a connecting belt can be tensioned, counting is more stable, counting can be performed, power can be generated, and paper can be automatically fed.
Drawings
The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.
Fig. 1 is a schematic structural diagram of a multifunctional solar power generation dotting counting device of the present invention.
Fig. 2 is a schematic structural diagram of a solar energy collecting mechanism 1 of the multifunctional solar power generation dotting counting device of the invention.
Fig. 3 is a schematic structural diagram of a solar energy collection pot mechanism 1-3 of the multifunctional solar power generation dotting counting device.
Fig. 4 is a schematic structural diagram of hydraulic adjusting mechanisms 1-5 of the multifunctional solar power generation dotting counting device.
Fig. 5 is a schematic structural diagram of a water tank mechanism 2 of the multifunctional solar power generation dotting counting device of the invention.
Fig. 6 is a schematic structural diagram of a dotting counting mechanism 3 of the multifunctional solar power generation dotting counting device of the present invention.
FIG. 7 is a schematic structural diagram of a switching wheel mechanism 3-7 of the multifunctional solar power generation counting device of the present invention.
Fig. 8 is a schematic structural diagram of a belt tensioning mechanism 3-8 of the multifunctional solar power generation dotting counting device.
Fig. 9 is a schematic structural diagram of a tensioning wheel mechanism 3-8-1 of the multifunctional solar power generation dotting counting device.
FIG. 10 is a schematic structural diagram of a limiting slide block mechanism 3-8-6 of the multifunctional solar power generation dotting counting device.
Fig. 11 is a schematic structural view of a toggle wheel mechanism 3-9 of the multifunctional solar power generation dotting counting device of the invention.
Fig. 12 is a schematic structural diagram of a dotting mechanism 3-10 of the multifunctional solar power generation dotting counting device of the invention.
FIG. 13 is a schematic structural diagram of a back fixed hinged wheel mechanism 3-10-8 of the multifunctional solar power generation counting device of the present invention.
FIG. 14 is a schematic structural diagram of a paper feeding wheel mechanism 3-11 of the multifunctional solar power generation counting device of the present invention.
Fig. 15 is a schematic structural diagram of the power generation mechanism 4 of the multifunctional solar power generation dotting and counting device of the present invention.
Fig. 16 is a schematic structural diagram of a cutting coil mechanism 4-7 of the multifunctional solar power generation dotting counting device.
FIG. 17 is a schematic structural diagram of a permanent magnet mechanism 4-8 of the multifunctional solar power generation dotting and counting device of the present invention.
In the figure: a solar energy collection mechanism 1; a spray pipe 1-1; 1-2 of a hose; a solar energy collection pan mechanism 1-3; interface 1-3-1; heating the pot for 1-3-2 times; 1-3-3 parts of a water injection plug; 1-3-4 of heating pot supporting legs; 1-3-5 parts of a solar energy collecting pot body; adjusting blocks 1-3-6; 1-3-7 of a chute; 1-3-8 parts of a buffer spring; hinge loops 1-3-9; connecting rods 1-4; a hydraulic adjusting mechanism 1-5; adjusting a shell 1-5-1; adjusting the sliding rail 1-5-2; adjusting the sliding block by 1-5-3; 1-5-4 parts of a hydraulic rod; 1-5-5 of a hydraulic cylinder; 1-5-6 of a piston; 1-5-7 parts of a hydraulic spring; a water tank mechanism 2; a pressurizing motor 2-1; a pressurizing cam 2-2; 2-3 of a pressurizing seat; 2-4 of a pressurizing rod; shell A2-5; 2-6 of a one-way valve; 2-7 parts of a water tank cavity; 2-8 parts of water injection plug of the water tank; 2-9 of an internal one-way valve; 2-10 parts of a pressurizing cavity; 2-11 of a pressure return spring; 2-12 parts of a pressurizing middle seat; a dotting counting mechanism 3; 3-1 of a towing hook; 3-2 of a base; 3-3 of a machine body supporting leg; 3-4 of the machine body; opening 3-5 of the one-way valve; 3-6 parts of spray pipe welding holes; a switching wheel mechanism 3-7; 3-7-1 of blades; 3-7-2 of an impeller; 3-7-3 of a primary belt pulley; 3-7-4 of a secondary belt pulley; 3-7-5 parts of a fixed shaft; 3-8 parts of a belt tensioning mechanism; a tension wheel mechanism 3-8-1; wheel 3-8-1-1; 3-8-1-2 of a wheel shaft; 3-8-1-3 of a wheel seat; welding 3-8-1-4 parts of a cross rod; adjusting the spring 3-8-1-5; 3-8-1-6 of an upper seat; 3-8-2 parts of a steel wire rope; 3-8-3 of a tensioning shell; 3-8-4 parts of a tensioning shaft; 3-8-5 parts of locking holes; 3-8-6 parts of a limiting slide block mechanism; 3-8-6-1 of a limiting slide rail; 3-8-6-2 parts of a limiting slide block; 3-8-6-3 parts of a limiting top block; 3-8-7 parts of a limiting rod; 3-8-8 parts of a hand wheel; 3-9 parts of toggle wheel mechanism; 3-9-1 of a poke arm; a wheel body 3-9-2; pulley A3-9-3; a fixed shaft B3-9-4; a dotting mechanism 3-10; 3-10-1 of a press seat; 3-10-2 of a pressure lever; 3-10-3 of force transmission seat; a return spring B3-10-4; dotting the shell by 3-10-5; 3-10-6 of the hinge rod is pressed downwards; dotting arms 3-10-7; 3-10-8 parts of a fixed hinge wheel mechanism; a hinged seat 3-10-8-1; 3-10-8-2 of a hinged ring; dotting needles are 3-10-9; dotting seats 3-10-10; a paper feeding wheel mechanism 3-11; a paper feeding base 3-11-1; a slide bar 3-11-2; spring A3-11-3; hydraulic regulation is carried out for 3-11-4; 3-11-5 of a chute; 3-11-6 parts of a motor base; 3-11-7 of a motor; 3-11-8 parts of paper feeding driving wheel; 3-11-9 of a paper feeding driven wheel; 3-12 of a moving wheel; a power generation mechanism 4; 4-1 of a belt; a partition plate 4-2; the belt passes through the holes 4-3; 4-4 of a bevel gear; a belt connecting wheel A4-5; a helical gear fixing shaft 4-6; 4-7 of a coil cutting mechanism; bevel gear A4-7-1; bevel gear A shaft 4-7-2; 4-7-3 of a bearing seat; 4-7-4 of a coil; 4-8 parts of a permanent magnet mechanism; 4-8-1 of permanent magnet; irregular seats 4-8-2.
Detailed Description
The first embodiment is as follows:
the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, and fig. 17, the invention relates to a solar dotting counting device, and more specifically to a multifunctional solar power generation dotting counting device, which comprises a solar collecting mechanism 1, a water tank mechanism 2, a dotting counting mechanism 3, and a power generation mechanism 4, and is capable of effectively collecting solar energy, converting the solar energy into mechanical energy, supplementing water, tensioning a connecting belt, making dotting counting more stable, dotting counting, generating power, and automatically feeding paper.
The solar energy collecting mechanism 1 comprises a spray pipe 1-1, a hose 1-2, a solar energy collecting pot mechanism 1-3, a connecting rod 1-4 and a hydraulic adjusting mechanism 1-5, wherein the spray pipe 1-1 and the hose 1-2 are connected in a welding mode, the solar energy collecting pot mechanism 1-3 and the hose 1-2 are connected in a welding mode, the connecting rod 1-4 and the solar energy collecting pot mechanism 1-3 are hinged together, the solar energy collecting pot mechanism 1-3 and the hydraulic adjusting mechanism 1-5 are connected in a hinged mode, and the hydraulic adjusting mechanism 1-5 and the connecting rod 1-4 are connected in a hinged mode;
the solar energy collecting pot mechanism 1-3 comprises a connector 1-3-1, a heating pot 1-3-2, a water injection plug 1-3-3, a heating pot support leg 1-3-4, a solar energy collecting pot body 1-3-5, an adjusting block 1-3-6, a sliding chute 1-3-7, a buffer spring 1-3-8 and a hinge ring 1-3-9, wherein the connector 1-3-1 is positioned above the heating pot 1-3-2, the water injection plug 1-3-3 is in spiral connection with the heating pot 1-3-2, the heating pot support leg 1-3-4 is in welding connection with the heating pot 1-3-2, the heating pot support leg 1-3-4 is positioned above the solar energy collecting pot body 1-3-5, the adjusting blocks 1-3-6 and the solar energy collecting pot body 1-3-5 are connected in a welding mode, the hinged rings 1-3-9 are located below the solar energy collecting pot body 1-3-5, solar heat collected by the solar energy collecting pot body 1-3-5 can heat water in the heating pot 1-3-2, the water can generate high-pressure water vapor, the water vapor can be sprayed out of the spray pipe 1-1, and the sprayed water vapor can drive the conversion wheel mechanism 3-7 to rotate, so that the solar energy is converted into mechanical energy;
the hydraulic adjusting mechanism 1-5 comprises an adjusting machine shell 1-5-1, an adjusting slide rail 1-5-2, an adjusting slide block 1-5-3, a hydraulic rod 1-5-4, a hydraulic cylinder 1-5-5, a piston 1-5-6 and a hydraulic spring 1-5-7, wherein the adjusting machine shell 1-5-1 is connected with the adjusting slide rail 1-5-2 through bolts, the adjusting slide block 1-5-3 is in clearance fit with the adjusting slide rail 1-5-2, the adjusting slide block 1-5-3 is connected with the hydraulic rod 1-5-4 through welding, the hydraulic rod 1-5-4 is connected with the piston 1-5-6 through welding, the piston 1-5-6 is in clearance fit with the hydraulic cylinder 1-5-5, the connection mode of the hydraulic spring 1-5-7 and the piston 1-5-6 is welding, the connection mode of the hydraulic spring 1-5-7 and the hydraulic cylinder 1-5-5 is welding, the connection mode of the hydraulic cylinder 1-5-5 and the adjusting machine shell 1-5-1 is welding, hydraulic oil is injected into the hydraulic cylinder 1-5-5, the hydraulic rod 1-5-4 moves under the driving of the hydraulic oil, the hydraulic rod 1-5-4 moves to drive the adjusting slide block 1-5-3 to move, the adjusting slide block 1-5-3 moves to drive the solar energy collecting pot body 1-3-5 to move through the connecting rod 1-4, and the directions of the hydraulic oil injected into the two hydraulic cylinders 1-5-5 are opposite, therefore, the solar energy collecting pot body 1-3-5 is deflected to one side, and the injection direction of the hydraulic oil can be adjusted according to the direction of the sun, so that the effective illumination time is prolonged, and the solar energy is better collected;
the water tank mechanism 2 comprises a pressurizing motor 2-1, a pressurizing cam 2-2, a pressurizing seat 2-3, a pressurizing rod 2-4, a shell A2-5, a one-way valve 2-6, a water tank cavity 2-7, a water tank water injection plug 2-8, an internal one-way valve 2-9, a pressurizing cavity 2-10, a pressurizing return spring 2-11 and a pressurizing middle seat 2-12, wherein the pressurizing motor 2-1 is connected with the pressurizing cam 2-2 in an expansion sleeve mode, the pressurizing seat 2-3 is matched with the pressurizing cam 2-2 in a contact matching mode, the pressurizing seat 2-3 is connected with the pressurizing rod 2-4 in a welding mode, the pressurizing rod 2-4 is connected with the pressurizing middle seat 2-12 in a welding mode, and the pressurizing middle seat 2-12 is matched with the pressurizing cavity 2-10 in a clearance matching mode, the connection mode of the pressurizing reset spring 2-11 and the pressurizing middle seat 2-12 is welding, the pressurizing cavity 2-10 is arranged on the right side of the shell A2-5, the connection mode of the one-way valve 2-6 and the shell A2-5 is welding, the water tank cavity 2-7 is arranged on the left side of the shell A2-5, the connection mode of the water tank water injection plug 2-8 and the shell A2-5 is spiral connection, the connection mode of the internal one-way valve 2-9 and the shell A2-5 is welding, when the water in the heating pot 1-3-2 is insufficient, the heating pot 1-3-2 and the one-way valve 2-6 can be connected together by a hose, then the pressurizing motor 2-1 is operated, the pressurizing motor 2-1 can drive the pressurizing cam 2-2 to rotate, the pressurizing cam 2-2 rotates to drive the pressurizing seat 2-3 to reciprocate up and down, the pressurizing seat 2-3 moves up and down to reciprocate to drive the pressurizing middle seat 2-12 to repeatedly compress the air in the pressurizing cavity 2-10, the internal one-way valve 2-9 is opened when the air pressure is increased, then the water in the water tank cavity 2-7 is pressurized, the one-way valve 2-6 is opened by the water in the water tank cavity 2-7, and the water flows into the heating pot 1-3-2 from the hose, so that the water supplement is completed;
the dotting counting mechanism 3 comprises a towing hook 3-1, a base 3-2, a machine body supporting leg 3-3, a machine body 3-4, a one-way valve opening 3-5, a spray pipe welding hole 3-6, a conversion wheel mechanism 3-7, a belt tensioning mechanism 3-8, a toggle wheel mechanism 3-9, a dotting mechanism 3-10, a paper feeding wheel mechanism 3-11 and a moving wheel 3-12, wherein the towing hook 3-1 is arranged on the base 3-2, the machine body supporting leg 3-3 is arranged between the base 3-2 and the machine body 3-4, the one-way valve opening 3-5 is arranged on the machine body 3-4, the spray pipe welding hole 3-6 is arranged on the machine body 3-4, the conversion wheel mechanism 3-7 is connected with the machine body 3-4 through a bearing, the conversion wheel mechanism 3-7 is connected with the belt tensioning mechanism 3-8, The toggle wheel mechanisms 3-9 are connected together through a belt, the connection mode of the belt tensioning mechanism 3-8 and the machine body 3-4 is welding, the connection mode of the toggle wheel mechanism 3-9 and the machine body 3-4 is bearing connection, the connection mode of the dotting mechanism 3-10 and the machine body 3-4 is welding, the matching mode of the dotting mechanism 3-10 and the toggle wheel mechanism 3-9 is contact matching, the connection mode of the paper feeding wheel mechanism 3-11 and the machine body support leg 3-3 is bolt connection, and the connection mode of the movable wheel 3-12 and the base 3-2 is bolt connection;
the conversion wheel mechanism 3-7 comprises blades 3-7-1, an impeller 3-7-2, a primary belt pulley 3-7-3, a secondary belt pulley 3-7-4 and a fixed shaft 3-7-5, wherein the blades 3-7-1 are connected with the impeller 3-7-2 through bolts, the impeller 3-7-2 is connected with the primary belt pulley 3-7-3 through welding, the primary belt pulley 3-7-3 is connected with the secondary belt pulley 3-7-4 through welding, and the impeller 3-7-2 is connected with the fixed shaft 3-7-5 through an expansion sleeve;
the belt tensioning mechanism 3-8 comprises a tensioning wheel mechanism 3-8-1, a steel wire rope 3-8-2, a tensioning shell 3-8-3, a tensioning shaft 3-8-4, a locking hole 3-8-5, a limiting slide block mechanism 3-8-6, a limiting rod 3-8-7 and a hand wheel 3-8-8, the tensioning wheel mechanism 3-8-1 and the steel wire rope 3-8-2 are connected in a welding mode, the tensioning wheel mechanism 3-8-1 and the tensioning shell 3-8-3 are connected in a welding mode, the tensioning shaft 3-8-4 and the tensioning shell 3-8-3 are connected in a bearing mode, the locking hole 3-8-5 is formed in the tensioning shaft 3-8-4, the connection mode of the steel wire rope 3-8-2 and the tensioning shaft 3-8-4 is welding, the connection mode of the limiting slide block mechanism 3-8-6 and the tensioning shell 3-8-3 is bolt connection, the matching mode of the limiting rod 3-8-7 and the tensioning shell 3-8-3 is clearance fit, the connection mode of the hand wheel 3-8-8 and the tensioning shaft 3-8-4 is welding, the hand wheel 3-8-8 is rotated by hands to drive the tensioning shaft 3-8-4 to rotate, the tensioning shaft 3-8-4 is rotated to drive the steel wire rope 3-8-2 to move, the steel wire rope 3-8-2 is moved to drive the tensioning wheel mechanism 3-8-1 to move up and down, the belt is tensioned when the tensioning wheel mechanism 3-8-1 moves;
the tensioning wheel mechanism 3-8-1 comprises a wheel 3-8-1-1, a wheel shaft 3-8-1-2, a wheel seat 3-8-1-3, a welding cross rod 3-8-1-4, an adjusting spring 3-8-1-5 and an upper seat 3-8-1-6, the wheel 3-8-1-1 and the wheel shaft 3-8-1-2 are connected in a welding mode, the wheel shaft 3-8-1-2 and the wheel seat 3-8-1-3 are connected in a bearing mode, the welding cross rod 3-8-1-4 is arranged on the left side and the right side of the wheel seat 3-8-1-3, the adjusting spring 3-8-1-5 is arranged between the wheel seat 3-8-1-3 and the upper seat 3-8-1-6 A (c) is added;
the limiting slide block mechanism 3-8-6 comprises a limiting slide rail 3-8-6-1, a limiting slide block 3-8-6-2 and a limiting top block 3-8-6-3, the limiting slide rail 3-8-6-1 and the limiting slide block 3-8-6-2 are in clearance fit, and the limiting top block 3-8-6-3 and the limiting slide block 3-8-6-2 are connected by welding;
the toggle wheel mechanism 3-9 comprises a toggle arm 3-9-1, a wheel body 3-9-2, a belt pulley A3-9-3 and a fixed shaft B3-9-4, the toggle arm 3-9-1 is connected with the wheel body 3-9-2 through a bolt, the wheel body 3-9-2 is connected with the belt pulley A3-9-3 through welding, and the belt pulley A3-9-3 is connected with the fixed shaft B3-9-4 through an expansion sleeve;
the dotting mechanism 3-10 comprises a pressing seat 3-10-1, a pressing rod 3-10-2, a force transmission seat 3-10-3, a return spring B3-10-4, a dotting shell 3-10-5, a downward pressing hinged rod 3-10-6, a dotting arm 3-10-7, a fixed hinged wheel mechanism 3-10-8, a dotting needle 3-10-9 and a dotting seat 3-10-10, wherein the pressing rod 3-10-2 is arranged between the pressing seat 3-10-1 and the force transmission seat 3-10-3, the force transmission seat 3-10-3 and the dotting shell 3-10-5 are in clearance fit, and the return spring B3-10-4 and the force transmission seat 3-10-3 are welded in connection mode, the connecting mode of the reset spring B3-10-4 and the striking point shell 3-10-5 is welding, the connecting mode of the lower pressing hinged rod 3-10-6 and the force transmission seat 3-10-3 is welding, the lower pressing hinged rod 3-10-6 and the striking point arm 3-10-7 are hinged together, the connecting mode of the striking point arm 3-10-7 and the fixed hinged wheel mechanism 3-10-8 is hinging, the striking point needle 3-10-9 is fixed on the striking point arm 3-10-7 through a bolt, the striking point seat 3-10-10 is positioned below the striking point needle 3-10-9, the switching wheel mechanism 3-7 rotates to drive the poking wheel mechanism 3-9 to rotate through a belt, the poking wheel mechanism 3-9 rotates to repeatedly press the pressing seat 3-10-1 downwards, the pressing seat 3-10-1 reciprocates up and down to drive the force transmission seat 3-10-3 to reciprocate up and down, the force transmission seat 3-10-3 reciprocates up and down to drive the downward pressing hinged rod 3-10-6 to reciprocate up and down, the downward pressing hinged rod 3-10-6 reciprocates up and down to drive the dotting arm 3-10-7 to swing, and the dotting arm 3-10-7 swings to drive the dotting needle 3-10-9 to count dotting;
the fixed hinge wheel mechanism 3-10-8 comprises a hinge seat 3-10-8-1 and a hinge ring 3-10-8-2, and the connection mode of the hinge seat 3-10-8-1 and the hinge ring 3-10-8-2 is welding;
the paper feeding wheel mechanism 3-11 comprises a paper feeding base 3-11-1, a sliding rod 3-11-2, a spring A3-11-3, a hydraulic adjustment 3-11-4, a sliding groove 3-11-5, a motor base 3-11-6, a motor 3-11-7, a paper feeding driving wheel 3-11-8 and a paper feeding driven wheel 3-11-9, wherein the paper feeding base 3-11-1 and the sliding rod 3-11-2 are connected in a welding mode, the spring A3-11-3 is arranged between the paper feeding base 3-11-1 and the motor base 3-11-6, the hydraulic adjustment 3-11-4 is arranged between the paper feeding base 3-11-1 and the motor base 3-11-6, the sliding groove 3-11-5 is arranged on the motor base 3-11-6, the matching mode of the sliding rod 3-11-2 and the sliding groove 3-11-5 is clearance fit, the motor 3-11-7 is positioned above the motor seat 3-11-6, the connection mode of the paper feeding driving wheel 3-11-8 and the motor 3-11-7 is expansion sleeve connection, the matching mode of the paper feeding driving wheel 3-11-8 and the paper feeding driven wheel 3-11-9 is contact fit, firstly, the height of the paper feeding driving wheel 3-11-8 is adjusted by hydraulic pressure adjustment 3-11-4, so that paper can be clamped between the paper feeding driving wheel 3-11-8 and the paper feeding driven wheel 3-11-9, then the motor 3-11-7 is operated to drive the paper feeding driving wheel 3-11-8 to rotate, so that the paper can continuously move forwards, automatic paper feeding is realized;
the power generation mechanism 4 comprises a belt 4-1, a partition plate 4-2, a belt through hole 4-3, a bevel gear 4-4, a belt connecting wheel A4-5, a bevel gear fixing shaft 4-6, a cutting coil mechanism 4-7 and a permanent magnet mechanism 4-8, wherein the belt 4-1 is in flexible connection with the belt connecting wheel A4-5, the belt is opened on the partition plate 4-2 through the hole 4-3, the bevel gear 4-4 is in welding connection with the belt connecting wheel A4-5, the bevel gear 4-4 is meshed with the cutting coil mechanism 4-7, the cutting coil mechanism 4-7 is positioned above the partition plate 4-2, and the permanent magnet mechanism 4-8 is positioned above the partition plate 4-2;
the cutting coil mechanism 4-7 comprises a bevel gear A4-7-1, a bevel gear A shaft 4-7-2, a bearing seat 4-7-3 and a coil 4-7-4, wherein the bevel gear A4-7-1 is positioned at the left side of the bevel gear A shaft 4-7-2, the bevel gear A shaft 4-7-2 is connected with the bearing seat 4-7-3 in a bearing way, the coil 4-7-4 is positioned at the right side of the bevel gear A shaft 4-7-2, the rotation of the switching wheel mechanism 3-7 can drive a belt connecting wheel A4-5 to rotate through a belt 4-1, the rotation of the belt connecting wheel A4-5 can drive the bevel gear 4-4 to rotate, the rotation of the bevel gear 4-4 can drive the bevel gear A4-7-1 to rotate, the helical gear A4-7-1 rotates to drive the helical gear A shaft 4-7-2 to rotate, the helical gear A shaft 4-7-2 rotates to drive the coil 4-7-4 to rotate, and the coil 4-7-4 cuts magnetic induction lines generated by the permanent magnet 4-8-1, so electricity is generated;
the permanent magnet mechanism 4-8 comprises a permanent magnet 4-8-1 and an irregular seat 4-8-2, and the permanent magnet 4-8-1 and the irregular seat 4-8-2 are in transition fit;
the solar energy collecting mechanism 1 and the dotting counting mechanism 3 are connected in a welding mode, the water tank mechanism 2 is arranged inside the dotting counting mechanism 3, the water tank mechanism 2 and the dotting counting mechanism 3 are connected in a welding mode, the power generating mechanism 4 is arranged inside the dotting counting mechanism 3, and the power generating mechanism 4 and the dotting counting mechanism 3 are connected in a welding mode.
The second embodiment is as follows:
the present embodiment will be described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, and fig. 17, and the first embodiment will be further described in the present embodiment, in which the material of the tank chambers 2 to 7 is stainless steel.
The third concrete implementation mode:
the present embodiment will be described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, and 17, and the first embodiment will be further described with reference to the present embodiment, in which the number of the moving wheels 3 to 12 is two.
The fourth concrete implementation mode:
the present embodiment will be described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, and fig. 17, and the present embodiment further describes the first embodiment in which the material of the helical gear a4-7-1 is 40 Cr.
The device can effectively collect solar energy, hydraulic oil is injected into the hydraulic cylinders 1-5-5, the hydraulic rods 1-5-4 move under the driving of the oil pressure, the hydraulic rods 1-5-4 move to drive the adjusting sliders 1-5-3 to move, the adjusting sliders 1-5-3 move to drive the solar energy collecting pot bodies 1-3-5 to move through the connecting rods 1-4, and the directions of the hydraulic oil injected into the hydraulic cylinders 1-5-5 are opposite, so that the solar energy collecting pot bodies 1-3-5 are deviated to one side, the injection direction of the hydraulic oil can be adjusted according to the direction of the sun, the effective illumination time is prolonged, and the solar energy is better collected; the device can convert solar energy into mechanical energy, the solar heat collected by the solar energy collecting pot body 1-3-5 can heat water in the heating pot 1-3-2, the water can generate high-pressure steam, the steam can be sprayed out from the spray pipe 1-1, and the sprayed steam can drive the conversion wheel mechanism 3-7 to rotate, so that the solar energy is converted into the mechanical energy; the device can supplement water, when the water in the heating pot 1-3-2 is insufficient, the heating pot 1-3-2 and the one-way valve 2-6 can be connected together by a hose, then the pressurizing motor 2-1 is operated, the pressurizing motor 2-1 can drive the pressurizing cam 2-2 to rotate, the pressurizing cam 2-2 can drive the pressurizing seat 2-3 to reciprocate up and down, the pressurizing seat 2-3 can drive the pressurizing middle seat 2-12 to repeatedly compress the air in the pressurizing cavity 2-10 by reciprocating up and down, the internal one-way valve 2-9 can be opened when the air pressure is increased, then, the water in the water tank cavity 2-7 is pressurized, the water in the water tank cavity 2-7 opens the one-way valve 2-6, and the water flows into the heating pot 1-3-2 from the hose, so that the water supplement is completed; the device can tension a connecting belt to enable dotting counting to be more stable, a hand wheel 3-8-8 is rotated by hands to drive a tension shaft 3-8-4 to rotate, the tension shaft 3-8-4 rotates to drive a steel wire rope 3-8-2 to move, the steel wire rope 3-8-2 moves to drive a tension wheel mechanism 3-8-1 to move in the up-and-down direction, and the tension wheel mechanism 3-8-1 moves to tension the belt; the device can count the dotting points, the switching wheel mechanism 3-7 rotates to drive the poking wheel mechanism 3-9 to rotate through a belt, the poking wheel mechanism 3-9 rotates to repeatedly press the pressing seat 3-10-1 downwards, the pressing seat 3-10-1 reciprocates up and down to drive the force transmission seat 3-10-3 to reciprocate up and down, the force transmission seat 3-10-3 reciprocates up and down to drive the downward pressing hinged rod 3-10-6 to reciprocate up and down, the downward pressing hinged rod 3-10-6 reciprocates up and down to drive the dotting arm 3-10-7 to swing, and the dotting arm 3-10-7 swings to drive the dotting needle 3-10-9 to count the dotting points; the device can generate electricity, the belt connecting wheel A4-5 is driven to rotate through the belt 4-1 when the conversion wheel mechanism 3-7 rotates, the helical gear 4-4 is driven to rotate when the belt connecting wheel A4-5 rotates, the helical gear 4-4 drives the helical gear A4-7-1 to rotate when the helical gear A4-7-1 rotates, the helical gear A shaft 4-7-2 rotates and drives the coil 4-7-4 to rotate, and the coil 4-7-4 cuts a magnetic induction line generated by the permanent magnet 4-8-1, so electricity is generated; the device can automatically feed paper, firstly, the height of the paper feeding driving wheel 3-11-8 is adjusted by hydraulic pressure adjustment 3-11-4, so that the paper can be clamped between the paper feeding driving wheel 3-11-8 and the paper feeding driven wheel 3-11-9, then the motor 3-11-7 is operated to drive the paper feeding driving wheel 3-11-8 to rotate, and the paper can continuously move forwards.
It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (4)

1. The utility model provides a counting assembly is got ready in multi-functional solar energy power generation, includes that solar energy collects mechanism (1), water tank mechanism (2), gets counting mechanism (3), generating mechanism (4), its characterized in that: the solar energy collecting mechanism (1) comprises a spray pipe (1-1), a hose (1-2), a solar energy collecting pot mechanism (1-3), a connecting rod (1-4) and a hydraulic adjusting mechanism (1-5), wherein the spray pipe (1-1) and the hose (1-2) are connected in a welding mode, the solar energy collecting pot mechanism (1-3) and the hose (1-2) are connected in a welding mode, the connecting rod (1-4) and the solar energy collecting pot mechanism (1-3) are hinged together, the solar energy collecting pot mechanism (1-3) and the hydraulic adjusting mechanism (1-5) are connected in a hinged mode, and the hydraulic adjusting mechanism (1-5) and the connecting rod (1-4) are connected in a hinged mode;
the solar energy collecting pot mechanism (1-3) comprises an interface (1-3-1), a heating pot (1-3-2), a water injection plug (1-3-3), heating pot supporting legs (1-3-4), a solar energy collecting pot body (1-3-5), an adjusting block (1-3-6), a sliding chute (1-3-7), a buffer spring (1-3-8) and a hinge ring (1-3-9), wherein the interface (1-3-1) is positioned above the heating pot (1-3-2), the water injection plug (1-3-3) is in spiral connection with the heating pot (1-3-2), the heating pot supporting legs (1-3-4) are in welding connection with the heating pot (1-3-2), the heating pot supporting legs (1-3-4) are positioned above the solar energy collecting pot body (1-3-5), the adjusting blocks (1-3-6) and the solar energy collecting pot body (1-3-5) are connected in a welding mode, and the hinge rings (1-3-9) are positioned below the solar energy collecting pot body (1-3-5);
the hydraulic adjusting mechanism (1-5) comprises an adjusting shell (1-5-1), an adjusting slide rail (1-5-2), an adjusting slide block (1-5-3), a hydraulic rod (1-5-4), a hydraulic cylinder (1-5-5), a piston (1-5-6) and a hydraulic spring (1-5-7), wherein the adjusting shell (1-5-1) is connected with the adjusting slide rail (1-5-2) through a bolt, the adjusting slide block (1-5-3) is matched with the adjusting slide rail (1-5-2) through a clearance fit, the adjusting slide block (1-5-3) is connected with the hydraulic rod (1-5-4) through welding, the hydraulic rod (1-5-4) is connected with the piston (1-5-6) through welding, the piston (1-5-6) is in clearance fit with the hydraulic cylinder (1-5-5), the hydraulic spring (1-5-7) is connected with the piston (1-5-6) by welding, the hydraulic spring (1-5-7) is connected with the hydraulic cylinder (1-5-5) by welding, and the hydraulic cylinder (1-5-5) is connected with the adjusting machine shell (1-5-1) by welding;
the water tank mechanism (2) comprises a pressurizing motor (2-1), a pressurizing cam (2-2), a pressurizing seat (2-3), a pressurizing rod (2-4), a shell A (2-5), a one-way valve (2-6), a water tank cavity (2-7), a water tank water injection plug (2-8), an internal one-way valve (2-9), a pressurizing cavity (2-10), a pressurizing reset spring (2-11) and a pressurizing middle seat (2-12), wherein the pressurizing motor (2-1) is connected with the pressurizing cam (2-2) in an expansion sleeve mode, the pressurizing seat (2-3) is in contact fit with the pressurizing cam (2-2), the pressurizing seat (2-3) is connected with the pressurizing rod (2-4) in a welding mode, and the pressurizing rod (2-4) is connected with the pressurizing middle seat (2-12) in a welding mode, the matching mode of the pressurizing middle seat (2-12) and the pressurizing cavity (2-10) is clearance fit, the connecting mode of the pressurizing return spring (2-11) and the pressurizing middle seat (2-12) is welding, the pressurizing cavity (2-10) is arranged on the right side of the shell A (2-5), the connecting mode of the one-way valve (2-6) and the shell A (2-5) is welding, the water tank cavity (2-7) is arranged on the left side of the shell A (2-5), the connecting mode of the water tank water injection plug (2-8) and the shell A (2-5) is spiral connection, and the connecting mode of the internal one-way valve (2-9) and the shell A (2-5) is welding;
the dotting counting mechanism (3) comprises a towing hook (3-1), a base (3-2), a machine body supporting leg (3-3), a machine body (3-4), a one-way valve opening (3-5), a spray pipe welding hole (3-6), a conversion wheel mechanism (3-7), a belt tensioning mechanism (3-8), a toggle wheel mechanism (3-9), a dotting mechanism (3-10), a paper feeding wheel mechanism (3-11) and a moving wheel (3-12), wherein the towing hook (3-1) is arranged on the base (3-2), the machine body supporting leg (3-3) is arranged between the base (3-2) and the machine body (3-4), the one-way valve opening (3-5) is arranged on the machine body (3-4), the spray pipe welding hole (3-6) is arranged on the machine body (3-4), the switching wheel mechanism (3-7) is connected with the machine body (3-4) in a bearing connection mode, the switching wheel mechanism (3-7) is connected with the belt tensioning mechanism (3-8), the toggle wheel mechanisms (3-9) are connected together through a belt, the belt tensioning mechanisms (3-8) are connected with the machine body (3-4) in a welding mode, the toggle wheel mechanisms (3-9) are connected with the machine body (3-4) in a bearing mode, the dotting mechanisms (3-10) are connected with the machine body (3-4) in a welding mode, the dotting mechanisms (3-10) are matched with the toggle wheel mechanisms (3-9) in a contact mode, the paper feeding wheel mechanisms (3-11) are connected with the machine body supporting legs (3-3) in a bolt mode, and the movable wheels (3-12) are connected with the base (3-2) in a bolt mode;
the conversion wheel mechanism (3-7) comprises blades (3-7-1), an impeller (3-7-2), a primary belt pulley (3-7-3), a secondary belt pulley (3-7-4) and a fixed shaft (3-7-5), wherein the blades (3-7-1) are connected with the impeller (3-7-2) through bolts, the impeller (3-7-2) is connected with the primary belt pulley (3-7-3) through welding, the primary belt pulley (3-7-3) is connected with the secondary belt pulley (3-7-4) through welding, and the impeller (3-7-2) is connected with the fixed shaft (3-7-5) through an expansion sleeve;
the belt tensioning mechanism (3-8) comprises a tensioning wheel mechanism (3-8-1), a steel wire rope (3-8-2), a tensioning shell (3-8-3), a tensioning shaft (3-8-4), a locking hole (3-8-5), a limiting slide block mechanism (3-8-6), a limiting rod (3-8-7) and a hand wheel (3-8-8), the tensioning wheel mechanism (3-8-1) and the steel wire rope (3-8-2) are connected in a welding mode, the tensioning wheel mechanism (3-8-1) and the tensioning shell (3-8-3) are connected in a welding mode, and the tensioning shaft (3-8-4) and the tensioning shell (3-8-3) are connected in a bearing mode, the locking hole (3-8-5) is formed in the tensioning shaft (3-8-4), the steel wire rope (3-8-2) and the tensioning shaft (3-8-4) are connected in a welding mode, the limiting slide block mechanism (3-8-6) and the tensioning shell (3-8-3) are connected in a bolt connection mode, the limiting rod (3-8-7) and the tensioning shell (3-8-3) are in a clearance fit mode, and the hand wheel (3-8-8) and the tensioning shaft (3-8-4) are connected in a welding mode;
the tensioning wheel mechanism (3-8-1) comprises a wheel (3-8-1-1), a wheel shaft (3-8-1-2), a wheel seat (3-8-1-3), a welding cross rod (3-8-1-4), an adjusting spring (3-8-1-5) and an upper seat (3-8-1-6), the wheel (3-8-1-1) and the wheel shaft (3-8-1-2) are connected in a welding mode, the wheel shaft (3-8-1-2) and the wheel seat (3-8-1-3) are connected in a bearing mode, the welding cross rods (3-8-1-4) are arranged on the left side and the right side of the wheel seat (3-8-1-3), the adjusting spring (3-8-1-5) is arranged between the wheel seat (3-8-1-3) and the upper seat (3-8-1-6);
the limiting slide block mechanism (3-8-6) comprises a limiting slide rail (3-8-6-1), a limiting slide block (3-8-6-2) and a limiting top block (3-8-6-3), the limiting slide rail (3-8-6-1) is in clearance fit with the limiting slide block (3-8-6-2), and the limiting top block (3-8-6-3) is in welding connection with the limiting slide block (3-8-6-2);
the toggle wheel mechanism (3-9) comprises a toggle arm (3-9-1), a wheel body (3-9-2), a belt pulley A (3-9-3) and a fixed shaft B (3-9-4), the toggle arm (3-9-1) is connected with the wheel body (3-9-2) through a bolt, the wheel body (3-9-2) is connected with the belt pulley A (3-9-3) through welding, and the belt pulley A (3-9-3) is connected with the fixed shaft B (3-9-4) through an expansion sleeve;
the dotting mechanism (3-10) comprises a pressing seat (3-10-1), a pressing rod (3-10-2), a force transmission seat (3-10-3), a return spring B (3-10-4), a dotting shell (3-10-5), a downward pressing hinged rod (3-10-6), a dotting arm (3-10-7), a fixed hinged wheel mechanism (3-10-8), a dotting needle (3-10-9) and a dotting seat (3-10-10), wherein the pressing rod (3-10-2) is arranged between the pressing seat (3-10-1) and the force transmission seat (3-10-3), the force transmission seat (3-10-3) and the dotting shell (3-10-5) are in clearance fit, the reset spring B (3-10-4) and the force transmission seat (3-10-3) are connected in a welding mode, the reset spring B (3-10-4) and the striking point shell (3-10-5) are connected in a welding mode, the downward pressing hinged rod (3-10-6) and the force transmission seat (3-10-3) are connected in a welding mode, the downward pressing hinged rod (3-10-6) and the striking point arm (3-10-7) are hinged together, the striking point arm (3-10-7) and the fixed hinged wheel mechanism (3-10-8) are connected in a hinged mode, the striking point needle (3-10-9) is fixed on the striking point arm (3-10-7) through a bolt, and the striking point seat (3-10-10) is located below the striking point needle (3-10-9);
the fixed hinged wheel mechanism (3-10-8) comprises a hinged seat (3-10-8-1) and a hinged ring (3-10-8-2), and the hinged seat (3-10-8-1) and the hinged ring (3-10-8-2) are connected in a welding manner;
the paper feeding wheel mechanism (3-11) comprises a paper feeding base (3-11-1), a sliding rod (3-11-2), a spring A (3-11-3), a hydraulic adjusting mechanism (3-11-4), a sliding groove (3-11-5), a motor base (3-11-6), a motor (3-11-7), a paper feeding driving wheel (3-11-8) and a paper feeding driven wheel (3-11-9), wherein the paper feeding base (3-11-1) and the sliding rod (3-11-2) are connected in a welding mode, the spring A (3-11-3) is arranged between the paper feeding base (3-11-1) and the motor base (3-11-6), and the hydraulic adjusting mechanism (3-11-4) is arranged between the paper feeding base (3-11-1) and the motor base (3-11-6) The paper feeding driving wheel (3-11-8) is connected with the motor (3-11-7) in an expanding sleeve mode, and the paper feeding driving wheel (3-11-8) is in contact fit with the paper feeding driven wheel (3-11-9);
the power generation mechanism (4) comprises a belt (4-1), a clapboard (4-2), a belt through hole (4-3), a helical gear (4-4), a belt connecting wheel A (4-5), a helical gear fixed shaft (4-6), a cutting coil mechanism (4-7) and a permanent magnet mechanism (4-8), the belt (4-1) is flexibly connected with a belt connecting wheel A (4-5), the belt is opened on a partition plate (4-2) through a hole (4-3), a helical gear (4-4) is welded with the belt connecting wheel A (4-5), the helical gear (4-4) is meshed with a cutting coil mechanism (4-7), the cutting coil mechanism (4-7) is positioned above the partition plate (4-2), and a permanent magnet mechanism (4-8) is positioned above the partition plate (4-2);
the cutting coil mechanism (4-7) comprises a bevel gear A (4-7-1), a bevel gear A shaft (4-7-2), a bearing seat (4-7-3) and a coil (4-7-4), wherein the bevel gear A (4-7-1) is positioned on the left side of the bevel gear A shaft (4-7-2), the bevel gear A shaft (4-7-2) is connected with the bearing seat (4-7-3) in a bearing mode, and the coil (4-7-4) is positioned on the right side of the bevel gear A shaft (4-7-2);
the permanent magnet mechanism (4-8) comprises a permanent magnet (4-8-1) and an irregular seat (4-8-2), and the permanent magnet (4-8-1) and the irregular seat (4-8-2) are in transition fit;
the solar energy collecting mechanism (1) and the dotting counting mechanism (3) are connected in a welding mode, the water tank mechanism (2) is arranged inside the dotting counting mechanism (3), the water tank mechanism (2) and the dotting counting mechanism (3) are connected in a welding mode, the power generating mechanism (4) is arranged inside the dotting counting mechanism (3), and the power generating mechanism (4) and the dotting counting mechanism (3) are connected in a welding mode.
2. The multifunctional solar power generation dotting counting device according to claim 1, characterized in that: the material of the water tank cavity (2-7) is stainless steel.
3. The multifunctional solar power generation dotting counting device according to claim 1, characterized in that: the number of the moving wheels (3-12) is two.
4. The multifunctional solar power generation dotting counting device according to claim 1, characterized in that: the bevel gear A (4-7-1) is made of 40 Cr.
CN201910040868.7A 2019-01-16 2019-01-16 Multifunctional solar power generation dotting counting device Active CN109519348B (en)

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CN201910040868.7A CN109519348B (en) 2019-01-16 2019-01-16 Multifunctional solar power generation dotting counting device

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