CN114744809B

CN114744809B - Multifunctional integrated intelligent control generator set

Info

Publication number: CN114744809B
Application number: CN202210659574.4A
Authority: CN
Inventors: 陈国平
Original assignee: Aksa Electric Power Technology (china) Co ltd
Current assignee: Aksa Electric Power Technology (china) Co ltd
Priority date: 2022-06-13
Filing date: 2022-06-13
Publication date: 2022-08-12
Anticipated expiration: 2042-06-13
Also published as: CN114744809A

Abstract

The invention relates to the technical field of power generation equipment, in particular to a multifunctional integrated intelligent control generator set. The method comprises the following steps: the base is fixed on the inner bottom wall of the box body, the generator is fixed on the base, the winding part is fixed on the base close to the generator, and the winding disc is rotatably fixed on the base; the side wall of the first ring groove is provided with a plurality of first linkage pieces in a sliding manner along the circumferential direction; a plurality of second linkage members are arranged on the side wall of the second ring groove in a sliding manner along the circumferential direction, and one first linkage member corresponds to one second linkage member; the oil applying assembly is fixed below the driving gear and is linked with the driving gear; rotating the driving gear anticlockwise, and enabling the power cord to extrude the first linkage piece and the second linkage piece to contract inwards in the radial direction synchronously so that the first linkage piece and the second linkage piece can blow air to the outer wall of the power cord to clean dirt adhered to the outer wall of the power cord; when drive gear offseted with the subassembly of applying oil, the subassembly of applying oil can paint the protection oil to the power cord outer wall through drive gear.

Description

Multifunctional integrated intelligent control generator set

Technical Field

The invention relates to the technical field of power generation equipment, in particular to a multifunctional integrated intelligent control generator set.

Background

The generator set is a complete set of mechanical equipment for converting energy of other forms into electric energy, consists of a power system, a control system, a silencing system, a damping system and an exhaust system, is driven by a water turbine, a steam turbine, a diesel engine or other power machines, converts energy generated by water flow, air flow, fuel combustion or nuclear fission into mechanical energy to be transmitted to a generator, and then converts the mechanical energy into electric energy to be output to electric equipment for use. The generator has wide application in industrial and agricultural production, national defense, science and technology and daily life. With the recent technological progress, lightweight portable small-sized generator sets are also beginning to enter the daily lives of residents as high-quality choices of household emergency power supplies and field trip power supplies.

The electric energy that the generator produced need be through the power cord with electric energy transmission to consumer on, and to box generating set, needs extra supporting power cord to connect generating set and consumer, such mode needs extra standing by power connecting wire, can appear finding the condition of power connecting wire to urgent power consumption, consequently, it is very necessary to develop a multi-functional integrated intelligent control generating set that can the rolling power cord.

Disclosure of Invention

The invention aims to provide a multifunctional integrated intelligent control generator set.

In order to solve the technical problem, the invention provides a multifunctional integrated intelligent control generator set, which comprises: the power line winding device comprises a box body, a base, a generator and a winding part, wherein the box body is rectangular, is hollow, and is provided with a line hole suitable for a power line to pass through;

the base is fixed on the inner bottom wall of the box body, the generator is fixed on the base, and the generator is suitable for generating electricity;

the winding part is fixed on the base close to the generator and is suitable for winding a power line;

the winding part includes: the oil applying device comprises a winding disc, a driving gear, a driven gear, a supporting frame and an oil applying assembly, wherein the winding disc is rotatably fixed on the base;

the driving gear and the driven gear are respectively and rotatably arranged on the side wall of the support frame and are meshed with each other;

the driving gear is provided with a first ring groove matched with the power line along the circumferential direction;

the driven gear is provided with a second ring groove matched with the power line along the circumferential direction;

the side wall of the first ring groove is provided with a plurality of first linkage pieces in a sliding manner along the circumferential direction;

a plurality of second linkage members are arranged on the side wall of the second ring groove in a sliding manner along the circumferential direction, and one first linkage member corresponds to one second linkage member;

the oil applying assembly is fixed below the driving gear and is linked with the driving gear; wherein

The driving gear is suitable for driving the driven gear to synchronously rotate reversely when rotating forwardly;

the driving gear is rotated anticlockwise, the first linkage piece and the second linkage piece can clamp the power cord from the upper side and the lower side and drive the power cord to move towards the winding disc so as to wind the power cord;

the power cord extrudes the first linkage piece and the second linkage piece to synchronously contract inwards along the radial direction, so that the first linkage piece and the second linkage piece can blow air to the outer wall of the power cord to clean dirt adhered to the outer wall of the power cord;

when drive gear offseted with the subassembly of applying oil, the subassembly of applying oil can paint the protection oil to the power cord outer wall through drive gear.

Preferably, the winding disc includes: the winding support is vertically fixed on the base, the rotating shaft is rotatably arranged at the upper end of the winding support, and the wire wheel disc is sleeved on the outer wall of the rotating shaft;

the spring sleeve is fixed on the side wall of the winding support and sleeved on the outer wall of the rotating shaft;

one end of the volute spiral spring is fixed on the inner wall of the spring sleeve, the other end of the volute spiral spring is fixed on the outer wall of the rotating shaft, and the volute spiral spring is suitable for driving the wire disc to rotate circumferentially to wind up a power line.

Preferably, the driving gear is radially provided with a first sliding groove along the inner side wall of the first ring groove, and two ends of the first linkage piece are respectively slidably arranged in the first sliding groove;

the driven gear is radially provided with a second sliding groove along the inner side wall of the second annular groove, and two ends of the second linkage part are slidably arranged in the second sliding groove respectively.

Preferably, the first linkage includes: the fixing block is fixed at the lower end of the fixing block, the organ pipe is hollow, and two side walls of the fixing block are respectively matched with the first sliding groove in a sliding mode;

the fixed block is provided with a plurality of air holes communicated with the organ pipes; wherein

When the power cord extrudes the fixed block to shrink and slide towards the first sliding groove, the fixed block extrudes the organ pipe, so that air in the organ pipe is blown to the surface of the power cord through the air holes, and dirt on the surface of the power cord is cleaned.

Preferably, the upper end of the fixing block is provided with a radian groove matched with the power line.

Preferably, a plurality of oil applying sliding blocks are arranged on the inner side wall of the driving gear, the oil applying sliding blocks are in sliding fit with the first sliding grooves, and the oil applying sliding blocks and the first linkage pieces are arranged at intervals; wherein

When the driving gear rotates anticlockwise until the oil smearing sliding block abuts against the oil smearing component, the oil smearing sliding block pushes the oil smearing component so that the protective oil is sprayed onto the oil smearing sliding block;

when the drive gear drives the oil smearing sliding block to abut against the power line, the oil smearing sliding block can smear oil on the side wall of the power line.

Preferably, the oil application slider includes: the oil smearing plate is fixed on the side wall of the sliding plate, is made of flexible materials, and two ends of the oil smearing plate protrude out of the rack of the driving gear;

the sliding plate is in sliding fit with the first sliding groove, one end of the compression spring is fixed at the lower end of the sliding plate, and the other end of the compression spring is fixed on the bottom wall of the first annular groove; wherein

When the drive gear circumferential direction offsets to the oil smearing plate and power cord, the power cord extrudees the oil smearing plate to make the adsorbed protective oil on the oil smearing plate smear the power cord outer wall.

Preferably, the oil applying assembly comprises: the oil storage tank is fixed on the support frame and arranged below the driving gear;

the supporting seat is fixed above the oil storage tank and communicated with the oil storage tank;

the supporting seat is provided with an oil injection port, and the regulating valve is slidably arranged at the upper end of the oil injection port;

the fixing strip is fixed on the supporting seat, one end of the tension spring is fixed on the side wall of the fixing strip, and the other end of the tension spring is fixed on the side wall of the regulating valve; wherein

When the driving gear rotates anticlockwise, the oil smearing plate is abutted to the adjusting valve and pushes the adjusting valve to slide rightwards to open the oil injection port, and the protective oil in the oil storage tank can be injected to the side wall of the oil smearing plate.

Preferably, the driven gear is provided with a plurality of cleaning sliding blocks, and the cleaning sliding blocks are in sliding fit with the second sliding grooves;

the cleaning slide block and the second linkage member are arranged at intervals; wherein

The rack of the driving gear and the rack of the driven gear are meshed with each other to the end part of the cleaning sliding block at the lowermost end and the end part of the oiling sliding block at the uppermost end to be abutted, so that the cleaning sliding block and the oiling sliding block are sequentially attached to the side wall of the power line.

Preferably, the groove width of the first ring groove is consistent with the groove width of the second ring groove, and the groove width of the first ring groove is not smaller than the outer diameter of the power cord.

The multifunctional integrated intelligent control generator set has the advantages that electric energy generated by the work of the generator is transmitted to electric equipment through a power line through the cooperation of the winding part and the generator, the intermittent winding or unwinding of the power line is realized through the cooperation of the driving gear, the driven gear and the winding disc, meanwhile, the first linkage part and the second linkage part are matched, when the driving gear rotates anticlockwise, the power line can be driven to move and wind towards the winding disc, meanwhile, the effect of cleaning dirt on the outer wall of the power line is also achieved through the matching of the first linkage part and the second linkage part, the driving gear and the oil wiping component are matched, protective oil can be coated on the outer wall of the power line, and the problem of preventing the outer layer of the power line from aging can be effectively achieved.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a perspective view of a preferred embodiment of a multifunctional integrated intelligent controlled generator set of the present invention;

FIG. 2 is a front view of a preferred embodiment of a multifunctional integrated intelligent control generator set of the present invention with a portion of the housing removed;

FIG. 3 is a perspective view of the wrap of the present invention;

FIG. 4 is a perspective view of a take-up reel of the present invention;

FIG. 5 is a perspective view of the drive gear of the present invention;

FIG. 6 is a perspective view of the driven gear of the present invention;

FIG. 7 is a perspective view of a first linkage of the present invention;

FIG. 8 is a perspective view of the present invention oiling assembly;

fig. 9 is a schematic view of the construction of the locking ring and locking block of the present invention.

In the figure:

1. a box body; 11. a wire hole; 2. a base; 3. a generator; 4. an engine; 5. a winding part; 51. a winding disc;

511. winding a support; 512. a spring housing; 513. a rotating shaft; 514. a reel disc;

52. a drive gear; 521. a oiling sliding block; 522. a compression spring; 523. a slide plate; 524. smearing oil plates;

53. a driven gear; 531. cleaning the sliding block;

54. a support frame; 541. a drive motor; 542. locking the air cylinder; 543. a locking ring; 544. a locking block;

55. an oiling component; 551. an oil storage tank; 552. a supporting seat; 553. a fixing strip; 554. adjusting a valve; 555. a tension spring;

56. a first ring groove; 561. a first sliding groove; 57. a second ring groove; 571. a second sliding groove; 58. a first linkage member; 581. a fixed block; 582. an organ tube; 583. air holes; 584. a radian groove; 59. a second linkage member.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic views illustrating only the basic structure of the present invention in a schematic manner, and thus show only the constitution related to the present invention.

As shown in fig. 1 to 8, the present invention provides a multifunctional integrated intelligent control generator set, comprising: the method comprises the following steps: the power supply device comprises a box body 1, a base 2, a generator 3, an engine 4 and a winding part 5, wherein the box body 1 is rectangular, the inside of the box body 1 is hollow, and the box body 1 is provided with a wire hole 11 suitable for a power wire to pass through; the box body 1 is used as a main supporting and protecting box of the invention, can effectively protect the internal generator 3 and the internal engine 4, and simultaneously effectively prevent external dust particles from entering the generator 3 and the internal engine 4. The base 2 is fixed on the inner bottom wall of the box body 1, the generator 3 and the engine 4 are respectively fixed on the base 2, and the engine 4 is suitable for driving the generator 3 to work; the engine 4 is a gasoline or diesel engine 4, the engine 4 can convert energy generated by fuel into mechanical energy and transmit the mechanical energy to the generator 3 when working, and the generator 3 can convert the mechanical energy into electric energy and transmit the electric energy to electric equipment through a power line. The winding part 5 is fixed on the base 2 close to the generator 3, and the winding part 5 is suitable for winding a power line; the winding part 5 is arranged in the box body 1, so that electric energy generated by the generator 3 is conveniently connected with electric equipment, when the generator 3 does not work, the power line is wound in the winding part 5, and the power line does not need to be additionally stored.

The winding portion 5 includes: the device comprises a winding disc 51, a driving gear 52, a driven gear 53, a supporting frame 54 and an oiling assembly 55, wherein the winding disc 51 is rotatably fixed on the base 2; the winding disc 51 can wind or unwind the power line when rotating circumferentially; the driving gear 52 and the driven gear 53 are respectively rotatably arranged on the side wall of the supporting frame 54, and the driving gear 52 and the driven gear 53 are meshed with each other; a driving motor 541 is fixed on the side wall of the supporting frame 54, the driving gear 52 is sleeved on the outer wall of the rotating shaft of the driving motor 541, and the driving motor 541 is suitable for driving the driving gear 52 to rotate circumferentially; the driving gear 52 is circumferentially provided with a first ring groove 56 adapted to a power line; the driven gear 53 is provided with a second annular groove 57 matched with the power line along the circumferential direction; the first ring groove 56 is matched with the second ring groove 57, the first ring groove 56 and the second ring groove 57 surround the power cord from the upper side and the lower side, and meanwhile, the outer wall of the power cord is not contacted with the side wall of the first ring groove 56 and the side wall of the second ring groove 57; a plurality of first linkage pieces 58 are arranged on the side wall of the first annular groove 56 in a sliding manner along the circumferential direction; the first linkage piece 58 is slidable radially along the drive gear 52; a plurality of second linkage members 59 are arranged on the side wall of the second ring groove 57 in a sliding manner along the circumferential direction, and one first linkage member 58 corresponds to one second linkage member 59; the driving gear 52 drives the driven gear 53 to rotate circumferentially until a first linkage 58 and a corresponding second linkage 59 abut against the power line from the upper side and the lower side of the power line respectively, the driving gear 52 is rotated continuously, the power line can extrude the first linkage 58 and the second linkage 59 to respectively contract towards the axial center direction of the driving gear 52 and the driven gear 53, meanwhile, the first linkage 58 and the second linkage 59 can clamp the power line from the upper side and the lower side and drive the driving gear 52 to rotate circumferentially at any time, and therefore the power line is driven to move towards the winding disc 51 or move towards the outside of the box body 1. The oil applying component 55 is fixed below the driving gear 52, and the oil applying component 55 is linked with the driving gear 52; wherein the driving gear 52 is adapted to drive the driven gear 53 to rotate in a synchronous reverse direction when rotating in a forward direction; rotating the driving gear 52 counterclockwise, the first linkage member 58 and the second linkage member 59 can clamp the power cord from the upper and lower sides and drive the power cord to move towards the take-up reel 51 to take up the power cord; the power cord presses the first linkage piece 58 and the second linkage piece 59 to contract inwards in a radial direction synchronously, so that the first linkage piece 58 and the second linkage piece 59 can blow air to the outer wall of the power cord to clean dirt adhered to the outer wall of the power cord; when the driving gear 52 is abutted against the oil smearing assembly 55, the oil smearing assembly 55 can smear the protective oil to the outer wall of the power line through the driving gear 52. The power cord winding device is simple in structure and convenient to operate, the driving gear 52 is driven to rotate in the circumferential direction by the driving motor 541, the power cord is wound by clockwise rotation and anticlockwise rotation of the driving gear 52, and meanwhile, in the process that the first linkage member 58 and the second linkage member 59 clamp the power cord from the upper side and the lower side and drive the power cord to move, the first linkage member 58 and the second linkage member 59 can blow air to the outer wall of the power cord so as to clean dirt such as oil stain, water stain and the like adhered to the outer wall of the power cord; meanwhile, through the matching of the driving gear 52 and the oil smearing component 55, protective oil can be smeared on the outer wall of the power line when the power line is rolled, the phenomenon of oxidation of the outer layer of the power line wound together in a long-term rolling mode can be effectively prevented, and the service life of the power line can be effectively prolonged.

Optionally, the winding disc 51 includes: the winding device comprises a winding support 511, a volute spiral spring, a spring sleeve 512, a rotating shaft 513 and a reel 514, wherein the winding support 511 is vertically fixed on the base 2, and the setting height of the winding support 511 is larger than the diameter of the reel 514; the rotating shaft 513 is rotatably arranged at the upper end of the winding bracket 511, and the wire reel 514 is sleeved on the outer wall of the rotating shaft 513; the spring sleeve 512 is fixed on the side wall of the winding support 511, and the spring sleeve 512 is sleeved on the outer wall of the rotating shaft 513; one end of the spiral spring is fixed on the inner wall of the spring sleeve 512, the other end of the spiral spring is fixed on the outer wall of the rotating shaft 513, and the spiral spring is suitable for driving the wire disc 514 to rotate circumferentially to roll a power wire. When the power cord is wound on the cord reel 514, the spiral spring is in a contracted state; when the driving gear 52 drives the power cord to wind the winding disc 51 through the first link 58, the spiral spring can wind the loose power cord between the spool disc 514 and the driving gear 52, and the elastic force of the spiral spring cannot actively wind the power cord which passes through the space between the driving gear 52 and the driven gear 53 and extends outwards.

Optionally, the driving gear 52 is radially provided with a first sliding groove 561 along the inner side wall of the first ring groove 56, one first sliding groove 561 corresponds to the rack of one driving gear 52, the two first sliding grooves 561 are oppositely arranged, and the distance between the two first sliding grooves 561 is greater than the outer diameter of the power line; both ends of the first linkage member 58 are slidably disposed in the first sliding grooves 561 respectively; the first linkage piece 58 can slide up and down along the radial direction of the driving rack; the driven gear 53 is radially provided with a second sliding groove 571 along the inner side wall of the second ring groove 57, and two ends of the second linkage member 59 are slidably disposed in the second sliding groove 571, respectively. The first linkage member 58 and the second linkage member 59 are identical in structure, and the sliding directions of the first linkage member 58 and the second linkage member 59 are opposite.

Preferably, the first linkage piece 58 comprises: the fixing block 581 and the organ pipe 582, the organ pipe 582 is fixed on the lower end of the fixing block 581, and the interior of the organ pipe 582 is hollow, the lower end of the organ pipe 582 is fixed on the bottom wall of the first ring groove 56, and the organ pipe 582 is made of elastic material; two side walls of the fixed block 581 are respectively in sliding fit with the first sliding groove 561; the fixing block 581 can slide up and down along the first sliding groove 561; a plurality of air holes 583 communicated with the organ pipes 582 are formed in the fixed block 581; the upper end of the fixed block 581 is provided with a radian groove 584 matched with the power line, and the radian groove 584 is arranged so as to improve the contact area of the fixed block 581 and the power line and reduce the longitudinal extrusion force of the fixed block 581 on the power line when the first linkage member 58 and the second linkage member 59 synchronously clamp the power line from the upper side and the lower side of the power line; in operation, the driving gear 52 drives the driven gear 53 to rotate circumferentially until the first linkage member 58 and the second linkage member 59 synchronously abut against the power cord, and in the process that the first linkage member 58 and the second linkage member 59 gradually move towards each other, the power cord pressing fixing block 581 contracts and slides towards the first sliding groove 561, the fixing block 581 presses the organ pipe, so that air in the organ pipe 582 is blown to the surface of the power cord through the air hole 583, and dirt on the surface of the power cord is cleaned; meanwhile, the driving gear 52 rotates circumferentially, and drives the extrusion block to drive the power line to wind in the direction of the winding disc 51 or move to the outside of the box body 1 for unwinding.

Optionally, a plurality of oil applying sliders 521 are arranged on the inner side wall of the driving gear 52, the oil applying sliders 521 are in sliding fit with the first sliding grooves 561, one oil applying slider 521 corresponds to one first sliding groove 561, and the distance between the two oppositely arranged oil applying sliders 521 is not smaller than the outer diameter of the power line; the oil applying slide block 521 and the first linkage piece 58 are arranged at intervals; the number of the oil applying sliding blocks 521 is greater than that of the first linkage pieces 58, and preferably, one first linkage piece 58 is arranged every three oil applying sliding blocks 521; when the driving gear 52 rotates counterclockwise until the oiling sliding block 521 abuts against the oiling assembly 55, the oiling sliding block 521 pushes the oiling assembly 55 so as to spray the protective oil onto the oiling sliding block 521; when the driving gear 52 drives the oil applying slider 521 to abut against the power line, the oil applying slider 521 can abut against the power line from both sides and apply the protective oil to the outer wall of the power line.

The oiling slider 521 includes: the oil applying plate 524 is fixed on the side wall of the sliding plate 523, the oil applying plate 524 is made of a flexible material, and two ends of the oil applying plate 524 protrude out of the rack of the driving gear 52; the sliding plate 523 is in sliding fit with the first sliding groove 561, that is, the sliding plate 523 can drive the oil wiping plate 524 to slide up and down along the first sliding groove 561, one end of the compression spring 522 is fixed at the lower end of the sliding plate 523, and the other end of the compression spring 522 is fixed at the bottom wall of the first annular groove 56; when the driving gear 52 rotates circumferentially until the oil applying plate 524 abuts against the power line, the power line extrudes the oil applying plate 524, so that the protective oil adsorbed on the oil applying plate 524 applies to the outer wall of the power line.

Optionally, the oil applying assembly 55 includes: the oil storage tank 551 is fixed on the supporting frame 54, and the oil storage tank 551 is arranged below the driving gear 52; an oil delivery pipe is arranged on the side wall of the oil storage tank 551 and can always keep a certain pressure in the oil storage tank 551, so that when the regulating valve 554 is opened, the protective oil in the oil storage tank 551 can be sprayed to the oil smearing plate 524 through an oil spraying opening; the supporting seat 552 is fixed above the oil storage tank 551, and the supporting seat 552 is communicated with the oil storage tank 551; an oil injection port is formed in the supporting seat 552, and the regulating valve 554 is slidably arranged at the upper end of the oil injection port; the regulating valve 554 is a control switch of an oil injection port, and when the regulating valve 554 is opened, the protective oil in the oil storage tank 551 can be injected outwards through the oil injection port; the fixing strip 553 is fixed on the supporting seat 552, one end of the tension spring 555 is fixed on the side wall of the fixing strip 553, and the other end of the tension spring 555 is fixed on the side wall of the regulating valve 554; when the driving gear 52 is rotated counterclockwise, the oil wiping plate 524 abuts against the regulating valve 554 and pushes the regulating valve 554 to slide rightward to open the oil injection port, so that the protective oil in the oil storage tank 551 can be injected to the side wall of the oil wiping plate 524.

Preferably, the driven gear 53 is provided with a plurality of cleaning sliders 531, and the cleaning sliders 531 are in sliding fit with the second sliding grooves 571; the cleaning slider 531 and the second linkage member 59 are arranged at intervals, wherein the racks of the driving gear 52 and the driven gear 53 are meshed with each other to the end part of the cleaning slider 531 at the lowermost end and the end part of the oiling slider 521 at the uppermost end to abut against each other, at the moment, the inner side wall of the cleaning slider 531 and the inner side wall of the oiling slider 521 clamp the power line from two sides of the power line respectively, so that the cleaning slider 531 and the oiling slider 521 are attached to the side wall of the power line sequentially.

When the power cord is unreeled, the driving gear 52 and the driven gear 53 are kept in a non-rotating state; the inner side wall of the cleaning slide block 531 and the inner side wall of the oil applying slide block 521 clamp the power line from two sides of the power line respectively; when the power line unreeling device works, in the process that the power line is manually pulled to move outwards to unreel, the inner side wall of the cleaning sliding block 531 and the inner side wall of the oil smearing sliding block 521 extrude the outer wall of the power line, the cleaning sliding block 531 and the oil smearing sliding block 521 can clean the residual protective oil on the outer wall of the power line so as to prevent the protective oil from adhering to the outer wall of the power line extending out of the box body and avoid dust and other impurities from adhering to the outer surface of the power line due to the residual protective oil; meanwhile, the outer wall of the power line can adsorb a large amount of dust after the protective oil is remained, and the power line can be wound on the wire wheel disc 514.

The inside wall of the cleaning slider 531 and the inside wall of the oil smearing slider 521 are made of flexible materials, so that the inside wall of the cleaning slider 531 and the inside wall of the oil smearing slider 521 can be deformed into a shape matched with the outside wall of the power line in the process that the inside wall of the oil smearing slider 521 abuts against the outside wall of the power line, and therefore the protective oil on the outside wall of the power line can be better cleaned.

The flexible material with high non-deformability is softer and has poor wear resistance; the protection oil of power cord outer wall adhesion is the great oil of viscidity, and the flexible material that the deformability is high strikes off the effect not good when striking off the remaining protection oil of power cord outer wall, unreels the power cord many times simultaneously after, the flexible material that the deformability is high wear resistance poor, and clearance slider 531 inside wall with the flexible material of oiling slider 521 inside wall is changed comparatively trouble. Furthermore, the flexible material with high deformability is non-sponge, and cannot have a water absorption function.

Preferably, the flexible material can be the wear-resisting material of rubber that the deformability is low, and the deformability is low on the one hand for the flexible material of the wear-resisting material of rubber, and is great to the clamping-force of power cord when pressing from both sides tight power cord outer wall, can strike off the greasy dirt of clean power cord outer wall, and the wearability is good simultaneously, long service life. The flexible material made of the rubber wear-resistant material can meet the effect of being matched with the power line to be attached to the outer wall of the power line; meanwhile, when the power line is unreeled for multiple times, the inner side wall of the cleaning slide block 531 and the inner side wall of the oil applying slide block 521 can scrape the residual protective oil on the outer wall of the power line.

The groove width of the first ring groove 56 is consistent with the groove width of the second ring groove 57, and the groove width of the first ring groove 56 is not less than the outer diameter of the power cord. The grooving width of the first ring groove 56 and the second ring groove 57 is not less than the outer diameter of the power cord, and when the power cord passes between the first ring groove 56 and the second ring groove 57, the driving rack and the driven rack cannot be extruded to damage the outer wall of the power cord.

In order to improve the stability of the driving gear 52 and the driven gear 53 when unwinding the power line, a locking cylinder 542 is vertically fixed on a side wall of the supporting frame 54, the locking cylinder 542 is parallel to the driving motor 541, and the locking cylinder 542 is disposed below the driving motor 541; the end of the piston rod of the locking cylinder 542 faces the side wall of the driving gear 52; a locking block 544 is fixed at the end of the piston rod of the locking cylinder;

a locking ring 543 is circumferentially arranged on one side wall of the driving gear 52 close to the locking cylinder 542, and the locking ring 543 is matched with the locking block 544; when the power cord is unreeled, the driving motor 541 stops working, at this time, the driving gear 52 and the driven gear 53 keep in a static state, and the locking cylinder 542 drives the locking block 544 to move towards the side wall of the driving gear 52, so that the locking block 544 is inserted into the locking ring 543; in order to increase the friction between the lock ring 543 and the lock block 544, a first rack is provided on the side wall of the lock block 544; the inner bottom wall of the locking ring 543 is provided with a second rack, and when the locking block 544 is inserted into the locking ring 543, the first rack and the second rack are meshed with each other; to prevent axial rotation of the drive gear 52.

In light of the foregoing description of the preferred embodiment of the present invention, it is to be understood that various changes and modifications may be made by one skilled in the art without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims

1. The utility model provides a multi-functional integrated intelligent control generating set which characterized in that includes:

the power supply device comprises a box body (1), a base (2), a generator (3) and a winding part (5), wherein the box body (1) is rectangular, the box body (1) is hollow, and the box body (1) is provided with a wire hole (11) suitable for a power line to pass through;

the base (2) is fixed on the inner bottom wall of the box body (1), the generator (3) is fixed on the base (2), and the generator (3) is suitable for generating electricity;

the coiling part (5) is fixed on the base (2) close to the generator (3), and the coiling part (5) is suitable for coiling a power line;

the winding part (5) comprises: the oil applying device comprises a winding disc (51), a driving gear (52), a driven gear (53), a supporting frame (54) and an oil applying assembly (55), wherein the winding disc (51) is rotatably fixed on the base (2);

the driving gear (52) and the driven gear (53) are respectively and rotatably arranged on the side wall of the support frame (54), and the driving gear (52) and the driven gear (53) are meshed with each other;

the driving gear (52) is circumferentially provided with a first ring groove (56) matched with the power line;

the driven gear (53) is provided with a second ring groove (57) matched with the power line along the circumferential direction;

the side wall of the first ring groove (56) is provided with a plurality of first linkage pieces (58) in a sliding manner along the circumferential direction;

a plurality of second linkage pieces (59) are arranged on the side wall of the second ring groove (57) in a sliding mode along the circumferential direction, and one first linkage piece (58) corresponds to one second linkage piece (59);

the oil applying assembly (55) is fixed below the driving gear (52), and the oil applying assembly (55) is linked with the driving gear (52); wherein

The driving gear (52) is suitable for driving the driven gear (53) to synchronously rotate reversely when rotating in the forward direction;

the driving gear (52) is rotated anticlockwise, and the first linkage piece (58) and the second linkage piece (59) can clamp the power cord from the upper side and the lower side and drive the power cord to move towards the winding disc (51) so as to wind the power cord;

the power cord presses the first linkage piece (58) and the second linkage piece (59) to contract inwards in a radial direction synchronously, so that the first linkage piece (58) and the second linkage piece (59) can blow air to the outer wall of the power cord to clean dirt adhered to the outer wall of the power cord;

when drive gear (52) offseted with oil smearing subassembly (55), oil smearing subassembly (55) can be through drive gear (52) scribble the power cord outer wall with protection oil.

2. The multifunctional integrated intelligent control generator set according to claim 1,

the take-up reel (51) comprises: the winding device comprises a winding support (511), a volute spiral spring, a spring sleeve (512), a rotating shaft (513) and a wire wheel disc (514), wherein the winding support (511) is vertically fixed on the base (2), the rotating shaft (513) is rotatably arranged at the upper end of the winding support (511), and the wire wheel disc (514) is sleeved on the outer wall of the rotating shaft (513);

the spring sleeve (512) is fixed on the side wall of the winding support (511), and the spring sleeve (512) is sleeved on the outer wall of the rotating shaft (513);

one end of the spiral spring is fixed on the inner wall of the spring sleeve (512), the other end of the spiral spring is fixed on the outer wall of the rotating shaft (513), and the spiral spring is suitable for driving the wire wheel disc (514) to rotate circumferentially to roll up a power wire.

3. The multifunctional integrated intelligent control generator set of claim 2,

the driving gear (52) is radially provided with a first sliding groove (561) along the inner side wall of the first ring groove (56), and two ends of the first linkage piece (58) are respectively arranged in the first sliding groove (561) in a sliding manner;

the driven gear (53) is radially provided with a second sliding groove (571) along the inner side wall of the second ring groove (57), and two ends of the second linkage member (59) are respectively slidably arranged in the second sliding groove (571).

4. The multifunctional integrated intelligent control generator set of claim 3,

the first linkage (58) comprising: the fixing block (581) and the organ pipe (582), the organ pipe (582) is fixed at the lower end of the fixing block (581), the interior of the organ pipe (582) is hollow, and two side walls of the fixing block (581) are respectively matched with the first sliding groove (561) in a sliding manner;

a plurality of air holes (583) communicated with the organ pipes (582) are formed in the fixed block (581); wherein

When the power cord extrusion fixed block (581) contracts and slides towards the inside of the first sliding groove (561), the fixed block (581) extrudes the organ pipe, so that air in the organ pipe (582) is blown to the surface of the power cord through the air holes (583) to clean dirt on the surface of the power cord.

5. The multifunctional integrated intelligent control generator set according to claim 4,

the upper end of the fixing block (581) is provided with a radian groove (584) matched with the power line.

6. The multifunctional integrated intelligent control generator set of claim 5,

a plurality of oil applying sliding blocks (521) are arranged on the inner side wall of the driving gear (52), the oil applying sliding blocks (521) are in sliding fit with the first sliding grooves (561), and the oil applying sliding blocks (521) and the first linkage pieces (58) are arranged at intervals; wherein

When the driving gear (52) rotates anticlockwise until the oil applying sliding block (521) abuts against the oil applying assembly (55), the oil applying sliding block (521) pushes the oil applying assembly (55) so that the protective oil is sprayed onto the oil applying sliding block (521);

when the driving gear (52) drives the oil smearing sliding block (521) to abut against the power line, the oil smearing sliding block (521) can smear oil on the side wall of the power line.

7. The multifunctional integrated intelligent control generator set of claim 6,

the oiling slider (521) comprises: the oil removing device comprises a compression spring (522), a sliding plate (523) and an oil removing plate (524), wherein the oil removing plate (524) is fixed on the side wall of the sliding plate (523), the oil removing plate (524) is made of flexible materials, and two ends of the oil removing plate (524) protrude out of racks of the driving gear (52);

the sliding plate (523) is in sliding fit with the first sliding groove (561), one end of the compression spring (522) is fixed at the lower end of the sliding plate (523), and the other end of the compression spring (522) is fixed at the bottom wall of the first annular groove (56); wherein

When the driving gear (52) rotates in the circumferential direction until the oil smearing plate (524) is abutted against the power line, the power line extrudes the oil smearing plate (524) so that the protective oil adsorbed on the oil smearing plate (524) smears the outer wall of the power line.

8. The multifunctional integrated intelligent control generator set of claim 7,

the oiling assembly (55) comprises: the oil storage tank (551) is fixed on the supporting frame (54), and the oil storage tank (551) is arranged below the driving gear (52);

the supporting seat (552) is fixed above the oil storage tank (551), and the supporting seat (552) is communicated with the oil storage tank (551);

an oil injection port is formed in the supporting seat (552), and the regulating valve (554) is slidably arranged at the upper end of the oil injection port;

the fixing strip (553) is fixed on the supporting seat (552), one end of the tension spring (555) is fixed on the side wall of the fixing strip (553), and the other end of the tension spring (555) is fixed on the side wall of the regulating valve (554); wherein

When the driving gear (52) rotates anticlockwise, the oil wiping plate (524) is abutted to the regulating valve (554) and pushes the regulating valve (554) to slide rightwards to open an oil injection port, and protective oil in the oil storage tank (551) can be injected to the side wall of the oil wiping plate (524).

9. The multifunctional integrated intelligent control generator set of claim 8,

the driven gear (53) is provided with a plurality of cleaning sliding blocks (531), and the cleaning sliding blocks (531) are in sliding fit with the second sliding grooves (571);

the cleaning slide block (531) and the second linkage member (59) are arranged at intervals therein

The rack of the driving gear (52) and the rack of the driven gear (53) are meshed with each other until the end part of the cleaning slide block (531) at the lowest end is abutted against the end part of the oiling slide block (521) at the uppermost end, so that the cleaning slide block (531) and the oiling slide block (521) are sequentially attached to the side wall of the power line.

10. The multifunctional integrated intelligent control generator set of claim 9,

the slotting width of the first annular groove (56) is consistent with that of the second annular groove (57), and the slotting width of the first annular groove (56) is not smaller than the outer diameter of the power cord.