CN109193361A - Energy-saving spark plug and its manufacturing method - Google Patents

Abstract

The invention discloses energy-saving spark plug and its manufacturing methods, including pedestal, the translation space of upper end wall connection free surrounding space is provided on the right side of the pedestal upper surface, a motor-driven translation shaft is rotatably connected between the translation space left hand end wall, threaded engagement is connected with a upper end through translation space upper end wall and is located at the support column of free surrounding space on the translation shaft axis body, the upper end of support column left side is fixedly connected with a fixed block, a drive block is fixedly connected on the left of the pedestal upper surface, a driving mechanism is provided in the drive block, the friction space of left end wall connection free surrounding space is provided in the fixed block.The apparatus structure is simple, and it is convenient to operate, and in present invention work, the carbon distribution on two electrodes of comprehensive automated cleaning ensures the stability that electrode spark generates, by machine driving with step up automatically, improve work efficiency, ensure that efficient except carbon.

Description

Energy-saving spark plug and its manufacturing method

Technical field

The present invention relates to spark plugs to remove carbon field, specially energy-saving spark plug and its manufacturing method.

Background technique

With the development of science and technology, social progress, vehicle gradually enters into public family, and vehicle increases, spark plug conduct The core component of engine is also gradually increased using the amount of replacement, at this stage in the processing to spark plug fouling, is mostly used greatly It directly replaces, then wastes resource, and removing on carbon is manual operation mostly, it is complicated for operation and inefficient.

Summary of the invention

The purpose of the present invention is to provide energy-saving spark plug and its manufacturing methods, mentioned above in the background art to solve Problem.

To achieve the above object, the invention provides the following technical scheme: energy-saving spark plug and its manufacturing method, including bottom , the translation space of upper end wall connection free surrounding space, described translation space or so are provided in the pedestal upper surface right side A motor-driven translation shaft is rotatably connected between end wall, threaded engagement is connected with a upper end through flat on the translation shaft axis body It moves space upper end wall and is located at the support column of free surrounding space, the upper end of support column left side is fixedly connected with a fixed block, institute It states and is fixedly connected with a drive block on the left of pedestal upper surface, be provided with a driving mechanism in the drive block, in the fixed block It is provided with the friction space of left end wall connection free surrounding space, left end wall connection is provided in the right end wall of the friction space and is rubbed Erased shifting chute, is provided with a lever space in the shifting chute upper end wall, on the left of the lower end wall of the lever space in set It is equipped with the lifting groove in a connection lever space and the space that rubs, lever space lower end wall is provided with a connection lever in right side The translation slot in space and shifting chute slidably connects a movable block in the shifting chute, and the movable block left side is fixedly connected There is a left end through shifting chute left end wall and be located at the first connecting rod to rub in space, the first connecting rod left end is fixed to be connected It is connected to the first friction block, a L pipeline is provided in the movable block, slidably connects the first pushing plate in the L pipeline right side, The electromagnetism slot of left end wall connection shifting chute is provided in the shifting chute right end wall, first pushing plate right side is fixed to be connected A right end is connected to connect through L pipeline right end wall and electromagnetism slot left end wall and the second connecting rod in electromagnetism slot, described second Extension bar right end is fixedly connected with the first electromagnet being slidably connected with electromagnetism slot, and the electromagnetism slot right end wall is fixedly connected with second Electromagnet, on the upside of the L pipeline in slidably connect the second pushing plate, second pushing plate upper surface is fixedly connected with third Connecting rod, third connecting rod upper end are run through translation slot or more end wall and are located in lever space, the movable block right side It is fixedly connected with a mobile spring between shifting chute right end wall, is fixedly connected with a lever between end wall before and after the lever space Axis is rotatably connected to the lever of a right end and the transmission connection of third connecting rod upper-end contact, the thick stick on the lever shaft axis body Bar left end is through lifting groove upper end wall and be located in lifting groove, is provided on the downside of the lever left end and is slidably connected with lifting groove Lifter plate, the lifter plate lower end surface are fixedly connected with a lower end through lifting groove lower end wall and are located at second to rub in space Friction block, is provided with an electromagnetic mechanism in second friction block lower end, the lifter plate lower end surface and lifting groove lower end wall it Between a lifting spring is symmetrically fixedly connected with centered on the second friction block, pass through torsion between the lever shaft and lever Spring connects, and the annular hydraulic slot in inner wall connection friction space, the annular liquid are provided in the friction space lower end wall Third friction block is slidably connected in indent, third friction block lower end surface is fixedly connected with a lower end and annular hydraulic slot is sliding The hydraulicefficiency elevation structure of connection is moved, a right end is provided in the friction space and is connect with the first friction block left side Contact Transmission And left end, through friction space left end wall and positioned at the second electrode of free surrounding space, the second electrode left end is fixedly connected with one The spark plug that left end is connect with driving mechanism Contact Transmission, the spark plug right side are fixedly connected with a right end through rubbing hole Family can left end wall and the first electrode that is located in friction space, be provided with a transmission mechanism in the shifting chute lower end wall；

The method comprises the following steps:

It is filled in firstly, spark plug is moved downward, to drive trapezoid block to move downward, so that two pieces of trapezoidal plates be made to support bullet Movement is put down towards spark plug under the action of spring, to clamp spark plug, while translation shaft drives branch driven by the motor Dagger moves downward, to make in the second electrode engaging friction space of spark plug, with moving downward for support column, the first electricity Magnet repels each other with the second work of electromagnet, second electrode right end push the first friction block move right, thus push movable block to Right movement, to make the first pushing plate move downward relative to movable block, to drive the second pushing plate to move upwards, to make It is moved upwards under the action of the second pushing plate while second connecting rod moves right under the action of movable block, to drive Lever rotation, so that lifter plate is driven to decline, so that the decline of the second friction block is driven, when second electrode moves to right end, Second friction block enters the front end face contact between second electrode and first electrode and with the former left side and the latter, in thick stick Second friction block lower end surface and second electrode upper surface left contact under the action of bar, at this point, motor mechanism works, in electromagnet Under the action of, the 4th friction block moves downward, to make in first electrode engaging friction slot, hydraulicefficiency elevation structure work drives the Three friction blocks rise, to contact with second electrode；

Then, at this time since spark plug is clamped, driving motor work drives drive disk rotation by drive shaft, to drive Spark plug is carrying out back rotation, so that the obstinate carbon distribution polished on spark plug, second electrode pass through friction band in the course of rotation Dynamic third friction block rotation, when third friction block is limited by annular hydraulic slot, second electrode is continued to rotate, to make second electrode Relative displacement is generated with third friction block, so that starting friction removes carbon distribution, first electrode rotates in frictional groove, to remove Carbon distribution, the second friction block and the first friction block remove the carbon distribution of second electrode or so end face, when spark plug returns to original state Transmission mechanism work is primary, drives the 5th friction block and the 6th friction block side-to-side movement primary, removes second electrode front/rear end Carbon distribution, when the first electromagnet and the second work of electromagnet are attracting after the completion, so that electromagnetic mechanism be driven to drive the 4th friction block Mobile space is returned to, to make the second friction block move upwards under the action of lifting spring, so that translation shaft work be made to drive Support column moves right, to take out spark plug.

Preferably, the driving mechanism includes driving space, it is extraneous that right end wall connection is provided in the drive block The driving space in space, driving space left end wall are fixedly connected with a driving motor, driving motor right side power It is connected with a drive shaft, the drive shaft right end is fixedly connected with a drive disk, and right end wall company is provided in the drive disk Lead to the driver slot in driving space, the spring groove of right end wall connection driver slot, the drive are provided in the wall of the driver slot left end The trapezoidal plate symmetrical above and below for slidably connecting a left end and running through spring groove right end wall and being located in spring groove, described trapezoidal in dynamic slot A supporting mechanism is provided between end wall of the plate far from driving groove center and driving trough end wall, the supporting mechanism includes supporting Block is provided with a support space in the support block, slidably connects a support plate in the support space, the support plate leans on One end that the nearly end face for driving groove center is fixedly connected with a close driving groove center, which is run through, supports space is close to drive groove center End wall and the steady arm that is fixedly connected with trapezoidal plate, be provided with the support being fixedly connected with trapezoidal plate on the right side of the supporting mechanism Spring, described that the one end of spring far from driving groove center is supported to be fixedly connected with driving trough end wall, spring groove left end wall is solid Surely it is connected with a supporting mechanism, the supporting mechanism right end is fixedly connected with a right end through spring groove right end wall and is located at driving Trapezoid block in slot, between the trapezoid block left side and spring groove left end wall centered on supporting mechanism it is symmetrical above and below it is fixed even It is connected to an adjustable spring, the elastic force of the adjustable spring is greater than the elastic force for supporting spring.

Preferably, the electromagnetic mechanism includes extendable room, a left end wall is provided in second friction block lower end It is connected to the extendable room in friction space, the 4th friction block is slidably connected in the extendable room, is set in the 4th friction block It is equipped with the frictional groove of left end wall connection extendable room, it is fixed between the 4th friction block right side and extendable room right end wall It is connected with a compressed spring, the 4th friction block right side is symmetrical above and below centered on compressed spring to be fixedly connected with third electricity Magnet, the extendable room right end wall is symmetrical above and below centered on compressed spring to be fixedly connected with the 4th electromagnet.

Preferably, the arc length of the annular hydraulic slot is less than the rotation path length of spark plug.

Preferably, the transmission mechanism includes transmission space, it is provided with a transmission space in the shifting chute lower end wall, A motor-driven transmission shaft is rotatably connected to above and below the transmission space between end wall, is provided with and is driven on front side of the transmission shaft The spatially driven shaft of lower end wall rotation connection, is fixedly connected with a transmission gear, the driving cog on the transmission shaft axis body The engagement of wheel front side is connected with a driven gear being fixedly connected with driven shaft, and the transmission gear rear end is connected by meshing transmission and has one Left end is through transmission space left end wall and is located at the 5th friction block to rub in space, and the driven gear front end engaged transmission is even A left end is connected to through transmission space left end wall and is located at the 6th friction block to rub in space.

Compared with prior art, the beneficial effects of the present invention are: moving downward and filling in by spark plug in present invention work, To drive trapezoid block to move downward, so that two pieces of trapezoidal plates be made to put down fortune towards spark plug under the action of supporting spring It is dynamic, to clamp spark plug, while translation shaft drives support column to move downward driven by the motor, to make the of spark plug In two electrode engaging friction spaces, with moving downward for support column, the first electromagnet repels each other with the second work of electromagnet, and second Electrode right end pushes the first friction block to move right, so that movable block be pushed to move right, thus make the first pushing plate relative to Movable block moves downward, thus drive the second pushing plate move upwards, thus make the second connecting rod under the action of movable block to It is moved upwards under the action of the second pushing plate while right movement, so that lever rotation is driven, so that lifter plate is driven to decline, To drive the decline of the second friction block, when second electrode moves to right end, the second friction block enters second electrode and first Front end face contact between electrode and with the former left side and the latter, under the action of lever the second friction block lower end surface with Second electrode upper surface left contact, at this point, motor mechanism works, under the action of electromagnet, the 4th friction block is moved downward, To make in first electrode engaging friction slot, hydraulicefficiency elevation structure work drives third friction block to rise, thus and second electrode Contact, at this time since spark plug is clamped, driving motor work drives drive disk rotation by drive shaft, to drive spark Plug is carrying out back rotation, thus the obstinate carbon distribution polished on spark plug, second electrode passes through friction in the course of rotation and drives the The rotation of three friction blocks, when third friction block is limited by annular hydraulic slot, second electrode is continued to rotate, to make second electrode and the Three friction blocks generate relative displacement, so that starting friction removes carbon distribution, first electrode rotates in frictional groove, to remove product Carbon, the second friction block and the first friction block remove the carbon distribution of second electrode or so end face, the biography when spark plug returns to original state The work of motivation structure is primary, drives the 5th friction block and the 6th friction block side-to-side movement primary, removes second electrode front/rear end Carbon distribution, when the first electromagnet and the second work of electromagnet are attracting after the completion, to drive electromagnetic mechanism that the 4th friction block is driven to return To mobile space, to make the second friction block move upwards under the action of lifting spring, so that translation shaft work be made to drive branch Dagger moves right, to take out spark plug, the apparatus structure is simple, and it is convenient to operate, on two electrodes of comprehensive automated cleaning Carbon distribution, ensure electrode spark generate stability, by machine driving with step up automatically, improve work efficiency, ensure that It is efficient except carbon.

Detailed description of the invention

Fig. 1 is the schematic view of the front view of energy-saving spark plug of the present invention and its manufacturing method entirety complete section；

Fig. 2 is the overlooking structure diagram of energy-saving spark plug of the present invention and its manufacturing method transmission mechanism complete section.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment shall fall within the protection scope of the present invention.

A kind of embodiment provided by the invention referring to FIG. 1-2: energy-saving spark plug and its manufacturing method, including pedestal 1, The translation space 43 of upper end wall connection free surrounding space is provided on the right side of 1 upper surface of pedestal, the translation space 43 is left A motor-driven translation shaft 44 is rotatably connected between right end wall, threaded engagement is connected with a upper end on 44 axis body of translation shaft Through 43 upper end wall of translation space and positioned at the support column 45 of free surrounding space, the 45 upper end left side of support column is fixedly connected with One fixed block 46,1 upper surface of the pedestal left side are fixedly connected with a drive block 2, are provided with a driving machine in the drive block 2 Structure 63 is provided with the friction space 55 of left end wall connection free surrounding space, 55 right end of friction space in the fixed block 46 It is provided with the shifting chute 36 in left end wall connection friction space 55 in wall, is provided with lever sky in 36 upper end wall of shifting chute Between 21, on the left of 21 lower end wall of lever space in be provided with the lifting groove 19 in a connection lever space 21 with friction space 16, The translation slot 64 in a connection lever space 21 and shifting chute 36, the movement are provided on the right side of 21 lower end wall of lever space A movable block 34 is slidably connected in slot 36,34 left side of movable block is fixedly connected with a left end through 36 left end of shifting chute Wall and the first connecting rod 47 being located in friction space 55,47 left end of first connecting rod is fixedly connected with the first friction block 48, it is provided with a L pipeline 42 in the movable block 34, slidably connects the first pushing plate 41 in 42 right side of L pipeline, it is described The electromagnetism slot 38 of left end wall connection shifting chute 36 is provided in 36 right end wall of shifting chute, 41 right side of the first pushing plate is solid Surely a right end is connected with through 42 right end wall of L pipeline and 38 left end wall of electromagnetism slot and the second connecting rod in electromagnetism slot 38 40,40 right end of the second connecting rod is fixedly connected with the first electromagnet 39 being slidably connected with electromagnetism slot 38, the electromagnetism slot 38 right end walls are fixedly connected with the second electromagnet 37, slidably connect the second pushing plate 33 in 42 upside of L pipeline, and described the Two pushing plates, 33 upper surface is fixedly connected with third connecting rod 32, and 32 upper end of third connecting rod is through translation 64 upper and lower side of slot Wall and it is located in lever space 21, a mobile bullet is fixedly connected between 36 right end wall of 34 right side of movable block and shifting chute Spring 35 is fixedly connected with a lever shaft 26 between the 21 front and back end wall of lever space, is rotatablely connected on 26 axis body of lever shaft There is the lever 27 of a right end and the transmission connection of 32 upper-end contact of third connecting rod, 19 upper end of lifting groove is run through in 27 left end of lever Wall and it is located in lifting groove 19, is provided with the lifter plate 20 being slidably connected with lifting groove 19 on the downside of 27 left end of lever, it is described 20 lower end surface of lifter plate is fixedly connected with a lower end through 19 lower end wall of lifting groove and is located at the second friction to rub in space 55 Block 18, is provided with an electromagnetic mechanism 31 in 18 lower end of the second friction block, under 20 lower end surface of lifter plate and lifting groove 19 A lifting spring 17, the lever shaft 26 and lever are symmetrically fixedly connected between end wall centered on the second friction block 18 It is connected between 27 by torsionspring 25, the ring in inner wall connection friction space 55 is provided in friction 55 lower end wall of space The hydraulic slot 50 of shape, third friction block 51 is slidably connected in the annular hydraulic slot 50, and 51 lower end surface of third friction block is solid Surely it is connected with the hydraulicefficiency elevation structure 49 that a lower end is slidably connected with annular hydraulic slot 50, is provided with one in the friction space 55 Right end is connect with 48 left side Contact Transmission of the first friction block and left end is through friction 55 left end wall of space and positioned at free surrounding space Second electrode 53,53 left end of second electrode is fixedly connected with the spark that a left end is connect with 63 Contact Transmission of driving mechanism Plug 54,54 right side of spark plug are fixedly connected with a right end through rubbing hole man 5 left end walls of energy and are located at friction space 55 Interior first electrode is provided with a transmission mechanism 64 in 36 lower end wall of shifting chute；

The method comprises the following steps:

It is filled in firstly, spark plug 54 is moved downward, to drive trapezoid block 9 to move downward, so that two pieces of trapezoidal plates 10 be made to exist Movement is put down towards spark plug 54 under the action of support spring 15, to clamp spark plug 54, while translation shaft 44 is in motor Drive under drive support column 45 to move downward, to make in the 53 engaging friction space 55 of second electrode of spark plug 54, with Support column 45 moves downward, and the first electromagnet 39 repels each other with the work of the second electromagnet 37, and 53 right end of second electrode pushes first Friction block 48 moves right, so that movable block 34 be pushed to move right, thus make the first pushing plate 41 relative to movable block 34 to Left movement, thus drive the second pushing plate 41 move upwards, thus make the second connecting rod 32 under the action of movable block 34 to the right It is moved upwards under the action of the second pushing plate 41 while movement, to drive lever 27 to rotate, to drive lifter plate 20 Decline, to drive the decline of the second friction block 18, when second electrode 53 moves to right end, the second friction block 18 enters second Front end face contact between electrode 53 and first electrode and with the former left side and the latter, second under the action of lever 27 18 lower end surface of friction block and 53 upper surface left contact of second electrode, at this point, motor mechanism 31 works, in the effect of electromagnet Under, the 4th friction block 23 moves downward, to make in first electrode engaging friction slot 24, the work of hydraulicefficiency elevation structure 49 drives the Three friction blocks 51 rise, to contact with second electrode 53；

Then, at this time since spark plug 54 is clamped, driving motor 6 works, and drives drive disk 4 to rotate by drive shaft 7, thus Spark plug 54 is driven to carry out back rotation, thus the obstinate carbon distribution polished on spark plug 54, second electrode 53 is in the course of rotation Third friction block 51 is driven to rotate by friction, when third friction block 51 is limited by annular hydraulic slot 50, second electrode 53 continues Rotation, to make second electrode 53 and third friction block 51 generate relative displacement, so that starting friction removes carbon distribution, first electrode It is rotated in frictional groove 24, to remove carbon distribution, the second friction block 18 and the first friction block 48 remove second electrode 53 or so and hold The carbon distribution in face, when spark plug 54 returns to original state, transmission mechanism 64 works once, and the 5th friction block 56 is driven to rub with the 6th 62 side-to-side movement of cleaning block is primary, removes the carbon distribution of 53 front/rear end of second electrode, when the first electromagnet 39 and second is electric after the completion Magnet 37 work it is attracting, thus drive electromagnetic mechanism 31 drive the 4th friction block 23 return to mobile space 22, to make second to rub Cleaning block 18 moves upwards under the action of lifting spring, thus make the work of translation shaft 44 that support column 15 be driven to move right, thus Take out spark plug.

Valuably, the driving mechanism 63 includes driving space 3, and it is outer that right end wall connection is provided in the drive block 2 The driving space 3 in boundary space, the 3 left end wall of driving space are fixedly connected with a driving motor 6,6 right end of driving motor Face has been connected by power a drive shaft 7, and 7 right end of drive shaft is fixedly connected with a drive disk 4, is provided in the drive disk 4 The connection of one right end wall drives the driver slot 16 in space 3, and right end wall connection driver slot 16 is provided in the 4 left end wall of driver slot Spring groove 5, it is symmetrical above and below in the driver slot 16 to slidably connect a left end through 5 right end wall of spring groove and be located at spring groove Trapezoidal plate 10 in 5 is provided with one between end wall of the trapezoidal plate 10 far from 16 center of driver slot and 16 end wall of driver slot Support mechanism 52, the supporting mechanism 52 include supporting block 13, are provided with a support space 14, the support in the support block 13 A support plate 12 is slidably connected in space 14, the support plate 12 is fixedly connected with one close to the end face at 16 center of driver slot and leans on The one end at nearly 16 center of driver slot is fixedly connected close to the end wall at 16 center of driver slot and through support space 14 with trapezoidal plate 10 Steady arm 11, be provided with the support spring 15 being fixedly connected with trapezoidal plate 10, the support bullet on the right side of the supporting mechanism 52 The one end of spring 15 far from 16 center of driver slot is fixedly connected with 16 end wall of driver slot, and the 5 left end wall of spring groove is fixedly connected with One supporting mechanism 52,52 right end of supporting mechanism are fixedly connected with a right end through 5 right end wall of spring groove and are located at driver slot Trapezoid block 9 in 16, it is symmetrical above and below centered on supporting mechanism 52 between 5 left end wall of 9 left side of trapezoid block and spring groove It is fixedly connected with an adjustable spring 8, the elastic force of the adjustable spring 8 is greater than the elastic force for supporting spring 15, and effect is to clamp fire Flower plug 54.

Valuably, the electromagnetic mechanism 31 includes extendable room 22, and a left side is provided in 18 lower end of the second friction block The extendable room 22 in end wall connection friction space 55, slidably connects the 4th friction block 23 in the extendable room 22, and described the Be provided in four friction blocks 23 a left end wall connection extendable room 22 frictional groove 24,23 right side of the 4th friction block with stretch A compressed spring 30 is fixedly connected between 22 right end wall of contracting space, 23 right side of the 4th friction block is with compressed spring 30 Center is symmetrical above and below to be fixedly connected with third electromagnet 28, and the 22 right end wall of extendable room is upper and lower centered on compressed spring 30 It is symmetrically fixedly connected with the 4th electromagnet 29, effect is easy for taking in first electrode in frictional groove 24.

Valuably, the arc length of the annular hydraulic slot 50 is less than the rotation path length of spark plug 54, and effect is to make the Two electrodes 53 drive third friction block 51 to rotate by friction in the course of rotation, and third friction block 51 is by annular hydraulic slot 50 When limitation, second electrode 53 is continued to rotate, to make second electrode 53 and third friction block 51 generate relative displacement, to start Friction removes carbon distribution.

Valuably, the transmission mechanism 64 includes transmission space 57, is provided with a transmission in 36 lower end wall of shifting chute Space 52, is rotatably connected to a motor-driven transmission shaft 58 between about 52 end wall of transmission space, before the transmission shaft 58 Side is provided with the driven shaft 60 with the rotation connection of about 57 end wall of transmission space, is fixedly connected with one on 58 axis body of transmission shaft Transmission gear 59, engagement is connected with a driven gear 61 being fixedly connected with driven shaft 60 on front side of the transmission gear 59, described 59 rear end of transmission gear be connected by meshing transmission have a left end through 57 left end wall of transmission space and be located in friction space 55 the Five friction blocks 56,61 front end of driven gear be connected by meshing transmission a left end through 57 left end wall of transmission space and be located at rub The 6th friction block 62 in erased 55.

Specifically used mode: in present invention work, spark plug 54 is moved downward and is filled in, to drive trapezoid block 9 to the left Movement, to make two pieces of trapezoidal plates 10 put down movement towards spark plug 54 under the action of supporting spring 15, to clamp fire Flower plug 54, while translation shaft 44 drives support column 45 to move downward driven by the motor, to make the second electricity of spark plug 54 In 53 engaging friction space 55 of pole, with moving downward for support column 45, the first electromagnet 39 and the second electromagnet 37 work phase Reprimand, 53 right end of second electrode pushes the first friction block 48 to move right, to push movable block 34 to move right, to make first Pushing plate 41 is moved downward relative to movable block 34, to drive the second pushing plate 41 to move upwards, to make the second connecting rod 32 move upwards under the action of the second pushing plate 41 while moving right under the action of movable block 34, to drive lever 27 rotations, to drive lifter plate 20 to decline, so that the decline of the second friction block 18 is driven, when second electrode 53 moves to right end When, the second friction block 18 enters between second electrode 53 and first electrode and connects with the front end face of the former left side and the latter Touching, second friction block, 18 lower end surface and 53 upper surface left contact of second electrode under the action of lever 27, at this point, motor mechanism 31 work, under the action of electromagnet, the 4th friction block 23 is moved downward, to make in first electrode engaging friction slot 24, liquid Press the work of elevating mechanism 49 that third friction block 51 is driven to rise, to contact with second electrode 53, at this time due to 54 quilt of spark plug It clamping, driving motor 6 works, and drive drive disk 4 to rotate by drive shaft 7, so that spark plug 54 is driven to carry out back rotation, thus The obstinate carbon distribution polished on spark plug 54, second electrode 53 drive 51 turns of third friction block by friction in the course of rotation Dynamic, when third friction block 51 is limited by annular hydraulic slot 50, second electrode 53 is continued to rotate, to make second electrode 53 and third Friction block 51 generates relative displacement, so that starting friction removes carbon distribution, first electrode rotates in frictional groove 24, to remove product Carbon, the second friction block 18 and the first friction block 48 remove the carbon distribution of 53 or so end face of second electrode, return to initially in spark plug 54 Transmission mechanism 64 works once when state, drives the 5th friction block 56 and 62 side-to-side movement of the 6th friction block primary, removes second The carbon distribution of 53 front/rear end of electrode, when the first electromagnet 39 after the completion work with the second electromagnet 37 it is attracting, to drive electromagnetism Mechanism 31 drives the 4th friction block 23 to return to mobile space 22, to keep the second friction block 18 upward under the action of lifting spring Movement, to make the work of translation shaft 44 that support column 15 be driven to move right, to take out spark plug, the apparatus structure is simple, behaviour It is convenient to make, the carbon distribution on two electrodes of comprehensive automated cleaning, ensure electrode spark generate stability, by machine driving with Automatically step up, improve work efficiency, ensure that efficient except carbon.

It is obvious to a person skilled in the art that invention is not limited to the details of the above exemplary embodiments, Er Qie In the case where without departing substantially from spirit or essential attributes of the invention, the present invention can be realized in other specific forms.Therefore, no matter From the point of view of which point, the present embodiments are to be considered as illustrative and not restrictive, and the scope of the present invention is by appended power Benefit requires rather than above description limits, it is intended that all by what is fallen within the meaning and scope of the equivalent elements of the claims Variation is included within the present invention.Any reference signs in the claims should not be construed as limiting the involved claims.

Claims (5)

1. energy-saving spark plug and its manufacturing method, including pedestal, it is characterised in that: be provided with one on the right side of the pedestal upper surface Upper end wall is connected to the translation space of free surrounding space, is rotatably connected to a motor-driven translation between the translation space left hand end wall Axis, threaded engagement is connected with a upper end through translation space upper end wall and is located at the support of free surrounding space on the translation shaft axis body Column, the upper end of support column left side are fixedly connected with a fixed block, are fixedly connected with a driving on the left of the pedestal upper surface Block is provided with a driving mechanism in the drive block, and the friction of left end wall connection free surrounding space is provided in the fixed block Space, it is described friction space right end wall in be provided with a left end wall connection friction space shifting chute, the shifting chute upper end wall It is inside provided with a lever space, the liter in a connection lever space and the space that rubs is provided in lever space lower end wall left side Slot is dropped, the translation slot of a connection lever space and shifting chute, the shifting chute are provided in lever space lower end wall right side Inside slidably connect a movable block, the movable block left side is fixedly connected with a left end and rubs through shifting chute left end wall and being located at First connecting rod in erased, the first connecting rod left end are fixedly connected with the first friction block, setting in the movable block There is a L pipeline, slidably connects the first pushing plate in the L pipeline right side, be provided with a left end in the shifting chute right end wall Wall is connected to the electromagnetism slot of shifting chute, and first pushing plate right side is fixedly connected with a right end through L pipeline right end wall and electricity Magnetic slot left end wall and the second connecting rod being located in electromagnetism slot, the second connecting rod right end is fixedly connected with to be slided with electromagnetism slot First electromagnet of connection, the electromagnetism slot right end wall are fixedly connected with the second electromagnet, are slidably connected in the L pipeline upside There is the second pushing plate, second pushing plate upper surface is fixedly connected with third connecting rod, and third connecting rod upper end is run through It translates slot or more end wall and is located in lever space, be fixedly connected with one between the movable block right side and shifting chute right end wall Mobile spring is fixedly connected with a lever shaft between end wall before and after the lever space, is rotatably connected on the lever shaft axis body The lever of one right end and the transmission connection of third connecting rod upper-end contact, the lever left end is through lifting groove upper end wall and is located at liter It drops in slot, the lifter plate being slidably connected with lifting groove is provided on the downside of the lever left end, the lifter plate lower end surface is fixed to be connected A lower end is connected to through lifting groove lower end wall and is located at the second friction block to rub in space, second friction block is set in lower end It is equipped with an electromagnetic mechanism, it is symmetrically solid centered on the second friction block between the lifter plate lower end surface and lifting groove lower end wall Surely it is connected with a lifting spring, is connected between the lever shaft and lever by torsionspring, in the lower end wall of the friction space It is provided with the annular hydraulic slot in inner wall connection friction space, slidably connects third friction block, institute in the annular hydraulic slot State the hydraulicefficiency elevation structure that third friction block lower end surface is fixedly connected with a lower end and annular hydraulic slot is slidably connected, the friction It is provided with that a right end is connect with the first friction block left side Contact Transmission and left end is through friction space left end wall and position in space In the second electrode of free surrounding space, the second electrode left end is fixedly connected with what a left end was connect with driving mechanism Contact Transmission Spark plug, the spark plug right side are fixedly connected with a right end through rubbing hole man energy left end wall and are located in friction space First electrode is provided with a transmission mechanism in the shifting chute lower end wall；

The method comprises the following steps:

It is filled in firstly, spark plug is moved downward, to drive trapezoid block to move downward, so that two pieces of trapezoidal plates be made to support bullet Movement is put down towards spark plug under the action of spring, to clamp spark plug, while translation shaft drives branch driven by the motor Dagger moves downward, to make in the second electrode engaging friction space of spark plug, with moving downward for support column, the first electricity Magnet repels each other with the second work of electromagnet, second electrode right end push the first friction block move right, thus push movable block to Right movement, to make the first pushing plate move downward relative to movable block, to drive the second pushing plate to move upwards, to make It is moved upwards under the action of the second pushing plate while second connecting rod moves right under the action of movable block, to drive Lever rotation, so that lifter plate is driven to decline, so that the decline of the second friction block is driven, when second electrode moves to right end, Second friction block enters the front end face contact between second electrode and first electrode and with the former left side and the latter, in thick stick Second friction block lower end surface and second electrode upper surface left contact under the action of bar, at this point, motor mechanism works, in electromagnet Under the action of, the 4th friction block moves downward, to make in first electrode engaging friction slot, hydraulicefficiency elevation structure work drives the Three friction blocks rise, to contact with second electrode；

Then, at this time since spark plug is clamped, driving motor work drives drive disk rotation by drive shaft, to drive Spark plug is carrying out back rotation, so that the obstinate carbon distribution polished on spark plug, second electrode pass through friction band in the course of rotation Dynamic third friction block rotation, when third friction block is limited by annular hydraulic slot, second electrode is continued to rotate, to make second electrode Relative displacement is generated with third friction block, so that starting friction removes carbon distribution, first electrode rotates in frictional groove, to remove Carbon distribution, the second friction block and the first friction block remove the carbon distribution of second electrode or so end face, when spark plug returns to original state Transmission mechanism work is primary, drives the 5th friction block and the 6th friction block side-to-side movement primary, removes second electrode front/rear end Carbon distribution, when the first electromagnet and the second work of electromagnet are attracting after the completion, so that electromagnetic mechanism be driven to drive the 4th friction block Mobile space is returned to, to make the second friction block move upwards under the action of lifting spring, so that translation shaft work be made to drive Support column moves right, to take out spark plug.

2. energy-saving spark plug according to claim 1 and its manufacturing method, it is characterised in that: the driving mechanism includes driving Space is moved, the driving space of right end wall connection free surrounding space is provided in the drive block, the driving space left end wall is solid Surely it is connected with a driving motor, the driving motor right side has been connected by power a drive shaft, and the drive shaft right end is fixed to be connected It is connected to a drive disk, the driver slot in right end wall connection driving space, driver slot left end wall are provided in the drive disk It is inside provided with the spring groove of right end wall connection driver slot, the left end symmetrical above and below that slidably connects is through bullet in the driver slot Spring slot right end wall and be located at spring groove in trapezoidal plate, the trapezoidal plate far from driving groove center end wall and driving trough end wall it Between be provided with a supporting mechanism, the supporting mechanism includes supporting block, is provided with a support space, the branch in the support block It holds and slidably connects a support plate in space, the support plate is fixedly connected with one close to driving close to the end face of driving groove center One end of groove center is through the steady arm supporting the end wall of the close driving groove center in space and being fixedly connected with trapezoidal plate, the branch Be provided with the support spring being fixedly connected with trapezoidal plate on the right side of support mechanism, it is described support the one end of spring far from driving groove center with Driving trough end wall is fixedly connected, and spring groove left end wall is fixedly connected with a supporting mechanism, and the supporting mechanism right end is fixed A right end is connected with through spring groove right end wall and the trapezoid block in driver slot, the trapezoid block left side and spring groove are left Symmetrical above and below centered on supporting mechanism between end wall to be fixedly connected with an adjustable spring, the elastic force of the adjustable spring is greater than branch Hold the elastic force of spring.

3. energy-saving spark plug according to claim 1 and its manufacturing method, it is characterised in that: the electromagnetic mechanism includes stretching Contracting space is provided with the extendable room in left end wall connection friction space, the extendable room in second friction block lower end The 4th friction block is inside slidably connected, the frictional groove of left end wall connection extendable room, institute are provided in the 4th friction block It states and is fixedly connected with a compressed spring between the 4th friction block right side and extendable room right end wall, the 4th friction block right end Face is symmetrical above and below centered on compressed spring to be fixedly connected with third electromagnet, and the extendable room right end wall is with compressed spring Center is symmetrical above and below to be fixedly connected with the 4th electromagnet.

4. energy-saving spark plug according to claim 1 and its manufacturing method, it is characterised in that: the arc of the annular hydraulic slot The long rotation path length for being less than spark plug.

5. energy-saving spark plug according to claim 1 and its manufacturing method, it is characterised in that: the transmission mechanism includes passing Space is moved, a transmission space is provided in the shifting chute lower end wall, is rotatably connected to one between end wall above and below the transmission space Motor-driven transmission shaft, the transmission shaft front side is provided with the driven shaft being rotatablely connected with end wall above and below transmission space, described A transmission gear is fixedly connected on transmission shaft axis body, engagement is connected with one and is fixedly connected with driven shaft on front side of the transmission gear Driven gear, the transmission gear rear end, which is connected by meshing transmission, has a left end through transmission space left end wall and to be located at friction empty The 5th interior friction block, the driven gear front end are connected by meshing transmission a left end through transmission space left end wall and are located at The 6th friction block to rub in space.