GB2591206A - A cleaning apparatus for sparking plugs of quadruple cylinder engine - Google Patents

Abstract

A cleaning apparatus for sparking plugs of quadruple cylinder engine comprises a housing 11, a cavity 12 and a gear wheel 69. The gear wheel has driving devices 101 on an upper side and eight water cleaning devices 103 on a lower side. Eight cleaning devices are located on an outer side of the gear wheel along a circumferential direction and comprise rotation shafts 79, pinions 44 on the rotation shafts and threaded cavities 46 in the pinions. Cleaning shells 45 are in threaded connection within the threaded cavities 46 and comprise brushes. The arrangement is able to adapt to a multiple of the sparking plugs of the engines and avoids scraping of the spark plugs due to the carbon deposits. A batch of sparking plugs may be placed in clamping grooves 19 with the heads downwards. Rust inhibitor may be placed in the cavity. Blowing fans may be provided to dry the spark plugs.

Description

A CLEANING APPARATUS FOR SPARKING PLUGS OF QUADRUPLE CYLINDER ENGINE

TECHNICAL FIELD

[0001] The present invention relates to the field of vehicles, in particular to a cleaning apparatus for sparking plugs of quadruple cylinder engine

BACKGROUND OF THE INVENTION

[0002] Sparking plug is a common electronic components, the high-voltage wire sent to the pulse of high-voltage electrical discharge, penetrating the air between the two electrodes of the spark plug, producing electric sparks to ignite the cylinder mixture, mainly by the wiring nut, insulator, wiring screw, center electrode, side electrode and shell, but in the use of spark plugs will produce a lot of carbon in the wiring nut and side electrode and center motor between, affecting the However, after cleaning the spark plug can still be used, while the current cleaning is more difficult, which is easy to be treated as waste.

BRIEF SUMMARY OF THE INVENTION

[0003] The technical problem to be solved by the invention is to provide a cleaning apparatus for sparking plugs of quadruple cylinder engine which is able to clean all sparking plugs on one engine at the same time so as to overcome the problems existing in the prior art.

[0004] A cleaning apparatus for sparking plugs of quadruple cylinder engine and a new cleaning method thereof comprises a shell, wherein a cavity is arranged in the shell, wherein a gear wheel is arranged on a lower end wail of the cavity, wherein transportation devices are arranged on an upper side of the gear wheel, wherein eight of water cleaning devices are uniformly distributed on a lower side of the gear wheel along a circumferential direction, wherein eight of cleaning devices are uniformly distributed on an outer side of the gear wheel along a circumferential direction, wherein the cleaning devices comprise rotation shafts rotatahly arranged on a bottom end surface of the cavity, wherein pinions are fixedly arranged on the rotation shafts, wherein threaded cavities are arranged in the pinions, wherein cleaning shells are in threaded connection within the threaded cavities,wherein cleaning cavities are arranged in the cleaning shells, wherein a plurality of bushes are fixedly arranged on inner walls of the cleaning cavities, wherein placement blocks are fixedly arranged on the inner walls of the cleaning cavities, wherein spherical cavities are arranged in the placement blocks, wherein spheres are rolling in the spherical cavities,wherein brushing plates are fixedly arranged on first end surfaces of the spheres, wherein the bushes are fixedly arranged on the first end surfaces of the brushing plates, wherein sliding grooves are arranged on the brushing plates, wherein software sliding blocks are reciprocally and slidably arranged within the sliding grooves, wherein software blocks are fixedly arranged on rear end surfaces of the software sliding blocks, wherein the software sliding blocks are fixedly connected with first end walls of the sliding grooves via elastic springs, and the spheres are connected with inner walls of the spherical cavities via four of resetting springs on surfaces of the spheres, and the gear wheel is fixedly arranged on first output shaft.

[0005] The benefits of the invention are as follows: the present invention is simple in structure and operation process, which is able to adapt to a multiple of the sparking plugs of the engines, and a cleaning performance avoids scrapings of the sparking plugs due to the carbon deposits, thereby problems like damaging to the sparking plugs due to human operations are avoided.

[0006] The cleaning devices further comprise vibration cavities fixedly arranged on the cleaning shells, L-shaped rods, soft rods, software spherical blocks, horizontal springs, vertical springs, locating grooves, a motor shell" a first motor, a motor cavity, a first output shaft, wherein the L-shaped rods are fixedly arranged on second end surfaces of the spheres, wherein a plurality of cleaning assemblies are fixedly arranged on first end surfaces of the L.-shaped rods, wherein the cleaning assemblies comprise the soft rods fixedly arranged on the first end surfaces of the L-shaped rods, wherein the software spherical blocks are fixedly arranged on first end surfaces of the soft rods, wherein two of the horizontal springs are fixedly arranged on two end surfaces of the:L-shaped rods, wherein two of the vertical springs are fixedly arranged on upper and lower end surfaces of the L-shaped rods, wherein two of the locating grooves are fixedly arranged on the cleaning shells, wherein the motor shell are fixedly arranged on a lower end surface of the shell, wherein the motor cavity is arranged within the motor shell, and the first motor is fixedly arranged on a lower end surface of the cavity, wherein the first output shaft is rotatably arranged on an upper end surface of the first motor, wherein the gear wheel is fixedly arranged on an upper end surface of the first output shaft, and the gear wheel engages with the pinions, and the L-shaped rods are fixedly connected with two end walls of the vibration cavities via two of the horizontal springs, and the L-shaped rods are fixedly connected with upper and lower end walls of the vibration cavities via two of the vertical springs; whereby when the first motor is started to drive the first output shaft to rotate, thereby the gear wheel is driven to rotate, thereby the pinions are driven to rotate, thereby the cleaning shells are driven to rotate, and at this time, the bushes are able to brush off carbon deposits on threads of heads of sparking plugs along a circumferential direction, and then side electrodes of the sparking plugs abut against the brushing plates for stopping rotations of the cleaning devices, and at this time, under actions of the spheres, the brushing plates are performing; a slow rotation until the brushing plates pass through the side electrodes of the sparking plugs relative to the spheres, and then as the resetting springs reset to a natural state suddenly, the spheres rotate with vibrating, thereby the brushing plates are driven to vibrate, thereby the software sliding blocks are driven to vibrate, thereby the software blocks are driven to vibrate, thereby the carbon deposits between the side electrodes of the sparking plugs and central electrodes is driven to fall down slowly, and the software blocks move towards a first side when confronted with the carbon deposits, thereby the software sliding blocks are driven to move, thereby the software sliding blocks are able to slide within the sliding grooves, thereby the carbon deposits between the side electrode and the central electrode is driven to fall down more thoroughly, thereby the spheres vibrate to drive the L-shaped rods to vibrate, thereby the soft rods are driven to vibrate, thereby the software spherical blocks are driven to vibrate to clean the carbon deposits on the bushes; and after the sparking plugs are cleaned up, the lifting plates move to an original position, and at this time, hot gases in the motor cavity enter into the cylinder cavity via the connection pipe, and then the hot gases enter into the cavity via the blowing fans by the rotation, thereby the sparking plugs are driven to be dried quickly; the present invention is simple in structure and operation process., which is able to adapt to a multiple of the sparking plugs of the engines, and a cleaning performance avoids scrapings of the sparking plugs due to the carbon deposits, thereby problems like damaging to the sparking plugs due to human operations are avoided, and moreover, cleaning cups being in threaded connection are detachable without limitation, thereby the present invention is able to obtain more widespread users and couple to more types of the sparking plugs; by arranging the bushes with springs; the sparking plugs are driven to be cleaned more completely, and by arranging rollers with the springs and grooves, the bushes are not only able to clean the side electrodes, but also clean inner threads and inner walls by vibrations produced by the side electrodes, thereby the carbon deposits between the side electrodes and the central electrodes are able to be cleaned, thereby problems like an incomplete cleaning to the carbon deposits and a relative poor using effect of the apparatus after being washed are avoided.

[0007] The transportation devices comprise twoof lifting assemblies symmetrically arranged on an inner wall of the cavity, wherein the lifting assemblies comprise the support columns symmetrically arranged on the inner wall of the cavity, wherein second motors are fixedly arranged on front end surfaces of the support columns, wherein second output shafts are rotatably arranged on front end surfaces of the second motors, wherein two of upper and lower lifting assemblies are fixedly arranged on front end surfaces of the second output shafts, wherein the upper and lower lifting assemblies comprise pulleys fixedly arranged on the front end surfaces of the second output shafts, wherein conveyor belt is \vound on two of the pulleys, wherein connection blocks are fixedly arranged on a first end surface of the conveyor belt, wherein lifting plates are fixedly arranged between two of the connection blocks, wherein eight of clamping assemblies are uniformly distributed on the lifting plates along a circumferential direction, wherein clamping assemblies comprise the clamping blocks uniformly distributed on the lifting plates along the circumferential direction, wherein two of location blocks are arranged on lower end surfaces of the clamping blocks, wherein clamping grooves are arranged within the clamping blocks, wherein six of sliding assemblies are uniformly distributed on inner walls of the clamping grooves along a circumferential direction, wherein sliding assemblies comprise the clamping plates arranged within the clamping grooves, wherein rollers are rotatably arranged on lower end surfaces of the clamping grooves, and a limited plate is fixedly arranged on the inner wall of the cavity, and a connection pipe is fixedly arranged on the motor shell, and a cylinder is fixedly arranged on an upper end surface of the gear wheel, and a cylinder cavity is arranged in the cylinder, wherein eight of blowing fans are uniformly distributed on the cylinder along a circumferential direction, and a cylinder cavity is communicated with the motor cavity via the connection pipe, and rollers are reciprocally and slidably connected with an inner wall of the clamping grooves via the connection springs; whereby operators pour rust remover into the cavity, and the rust remover is poured until aligns with a lower end surface of the!Milted plate, and at this time, the operators put a same batch of sparking plugs into the clamping grooves with heads of the sparking plugs downwards, and at e, internal hexagons of the sparking plugs are abutted against the clamping plates, thereby the damping grooves are pushed to move in all directions until the inner hexagons of the sparking plugs tightly stick to the clamping plates, and at this time, the second motors are started, thereby the second output shafts are driven to rotate, thereby the pulleys are driven to rotate, thereby the conveyor belt is driven to move downwards, thereby the lifting plates are driven to move downwards until the lower end surfaces of the lifting plates stick to the upper end surface of the limited plate, and at this time, the location blocks enter into the locating grooves, and the heads of the sparking plugs enter into the cleaning cavities and immersed in decarbonizer.

[0008] The water cleaning devices comprise two of transmission assemblies symmetrically arranged on a rear end wall of the cavity, power shafts, transmission belt wheels, band carriers, triangle plates, water-proof blocks, water-proof grooves, triangular cylindrical plates, carbon deposits collect cups, and carbon deposits collect cavities, wherein the transmission assemblies comprise the power shafts symmetrically and rotatably arranged on the rear end wall of the cavity, wherein the transmission belt wheels are fixedly arranged on the power shafts, wherein the band carriers are wound between two of the transmission belt wheels, and the triangle plates are fixedly arranged on a bottom end wall of the cavity, and water-proof assemblies comprise water-proof blocks symmetrically arranged on a lower end surface of shell, wherein water-proof grooves are arranged in the water-proof blocks, wherein the triangular cylindrical plates are arranged in the water-proof grooves, wherein the carbon deposits collect cups are in threaded connection between the water-proof blocks, wherein the carbon deposits collect cavities are arranged in the carbon deposits collect cups, and the carbon deposits collect cavities are communicated with the cavity, and the triangular cylindrical plates are reciprocally and slidably connected with inner walls of the water-proof grooves via small springs, and by vibrations, the carbon deposits on the sparking plugs fall on upper surfaces of the band carriers, and at this time, the power shafts rotate to drive the transmission belt wheels to rotate, thereby the band carriers are driven to rotate clockwise, thereby the carbon deposits on the upper surfaces of the band carriers fail down into the carbon deposits collect cavities, and when the carbon deposits in the carbon deposits collect cavities is relative much, the carbon deposits collect cups loss a riveting with the water-proof blocks when the carbon deposits collect cups rotate, and when upper end surfaces of the carbon deposits collect cups are lower than the triangular cylindrical plates, two of the triangular cylindrical plates are able to perform opposite movements due to triangle shape, thereby the decarbonizer is not flowing out, and at this time, after the carbon deposits in the carbon deposits collect cavities are removed, the carbon deposits collect cavities are able to rotate and reset, and by arranging transmission belts and triangle plates, the carbon deposits fallen in the cleaning devices are able to be collected into the detachable cavities, and a. leakproofness of a container is ensured when in disassembly, thereby a pollution to the outside world from the decarbonizer is avoided, and at the same time, the present invention is able to be utilized repeatedly.

BRIEF DESCRIPTION OF THE DRAWINGS

[0009] FIG. 1 is a sectional elevational view of the invention, [0010] FIG. 2 is a cross-sectional view along "A-A' direction in FIG. 1; [0011] FIG. 3 is an enlarged diagram of "B" in FIG.]; [0012] FIG. 4 is a cross-sectional view along -C-C" direction in FIG. 3; [0013] FIG. 5 is a cross-sectional view along "D-D" direction in FIG. 3; [0014] FIG. 6 is a partial enlarged diagram of "F" in FIG. 1; [0015] FIG. 7 is a partial enlarged diagram of "G in FIG. 1;

DETAILED DESCRIPTION OF THE INVENTION

[0016] Referring to figures 1-7, a cleaning apparatus for sparking plugs of quadruple cylinder engine and a new cleaning method thereof comprises a shell 11, wherein a cavity 12 is arranged in the shell II. wherein a gear wheel 69 is arranged on a lower end wall of the cavity 12, wherein transportation devices 101 are arranged on an upper side oldie gear wheel 69, wherein eight of water cleaning devices 103 are uniformly distributed on a lower side of the gear wheel 69 along a circumferential direction, wherein eight of cleaning devices 102 are uniformly distributed on an outer side of the gear wheel 69 along a circumferential direction, wherein the cleaning devices 102 comprise rotation shafts 79 rotatablv arranged on a bottom end surface of the cavity 12, wherein pinions 44 are fixedly arranged on the rotation shafts 79, wherein threaded cavities 46 are arranged in the pinions 44, wherein cleaning shells 45 are in threaded connection within the threaded cavities 46, wherein cleaning cavities 48 are arranged in the cleaning shells 45, wherein a plurality of bushes 61 are fixedly arranged on inner walls of the cleaning cavities 48, wherein placement blocks 58 are fixedly arranged on the inner walls of the cleaning cavities 48, wherein spherical cavities 57 are arranged in the placement blocks 58, wherein spheres 56 are rolling in the spherical cavities 57, wherein brushing plates 51 are fixedly arranged on first end surfaces of the spheres 56, wherein the bushes 61 are fixedly arranged on the first end surfaces of the brushing plates 51, wherein sliding grooves 52 are arranged on the brushing plates Si, wherein software sliding blocks 67 are reciprocally and slidably arranged within the sliding grooves 52, wherein software blocks 53 are fixedly arranged on rear end surfaces of the software sliding blocks 67, wherein the software sliding blocks 67 are fixedly connected with first end walls of the sliding grooves 52 via elastic springs 55, and the spheres 56 are connected with inner walls of the spherical cavities 57 via four of resetting springs 66 on surfaces of the spheres 56, and the gear wheel 69 is fixedly arranged on first output shaft 40, [0017] The cleaning devices 102 ftirther comprise vibration cavities 70 fixedly arranged on the cleaning shells 45, L-shaped rods 59, soft rods 60, software spherical blocks 62, horizontal springs 64, vertical springs 63, locating grooves 47, a motor shell 37, a first motor 39, a motor cavity 42, a first output shaft 40, wherein the L-shaped rods 59 are fixedly arranged on second end surfaces of the spheres 56, wherein a plurality of cleaning assemblies are fixedly arranged on first end surfaces of the L-shaped rods 59,, wherein the cleaning assemblies comprise the soft rods 60 fixedly arranged on the first end surfaces of the L-shaped rods 59, wherein the software spherical blocks 62 are fixedly arranged on first end surfaces of -the soft rods 60, wherein two of the horizontal springs 64 are fixedly arranged on two end surfaces of the L-shaped rods 59; wherein two of the vertical springs 63 are fixedly arranged on upper and lower end surfaces of the L-shaped rods 59, wherein two of the locating grooves 47 are fixedly arranged on the cleaning shells 45, wherein the motor shell 37 are fixedly arranged on lmver end surface of the shell ii., wherein the motor cavity 42 is arranged within the motor shell 37, and the first motor 39 is fixedly arranged on a lower end surface of the cavity 12 wherein the first output shaft 40 is rotatably arranged on an upper end surface of the first motor 39, wherein the gear wheel 69 is fixedly arranged on an upper end surface of the first output shaft 40, and the gear wheel 69 engages with the pinions 44, and the L-shaped rods 59 are fixedly connected with two end walls of the vibration cavities 70 via two of the horizontal springs 64, and the L-shaped rods 59 are fixedly connected with upper and lower end walls of the vibration cavities 70 via two of the vertical springs 63; whereby when the first motor 39 is started to drive the first output shaft 40 to rotate, thereby the gear wheel 69 is driven to rotate, thereby the pinions 44 are driven to rotate, thereby the cleaning shells 45 are driven to rotate, and at this time, the bushes 61 are able to brush off carbon deposits on threads of heads of sparking plugs along a circumferential direction, and then side electrodes of the sparking plugs abut against the brushing plates 51 for stopping rotations of the cleaning devices, and at this time, under actions of the spheres 56, the brushing plates 51 are performing a slow rotation until the brushing plates 51 pass through the side electrodes of the sparking plugs relative to the spheres 56, and then as the resetting springs 66 reset to a natural state suddenly, the spheres 56 rotate with vibrating, thereby the brushing plates 51 are driven to vibrate, thereby the software sliding blocks 67 are driven to vibrate, thereby the software blocks 53 are driven to vibrate; thereby the carbon deposits between the side electrodes of the sparking plugs and central electrodes is driven to fall down slowly, and the software blocks 53 move towards a first side when confronted with the carbon deposits, thereby the software sliding blocks 67 are driven to move, thereby the software sliding blocks 67 are able to slide within the sliding grooves 52, thereby the carbon deposits between the side electrode and the central electrode is driven to fall down more thoroughly, thereby the spheres 56 vibrate to drive the L-shaped rods 59 to vibrate, thereby the soft rods 60 are driven to vibrate, thereby the software spherical blocks 62 are driven to vibrate to clean the carbon deposits on the bushes 61, and after the sparking plugs are cleaned up, the lifting plates 17 move to an original position, and at this time, hot gases in the motor cavity 42 enter into the cylinder cavity 26 via the connection pipe 41, and then the hot gases enter into the cavity 12 via the blowing fans 24 by the rotation, thereby the sparking plugs are driven to be dried quickly; the present invention is simple in structure and operation process, which is able to adapt to a multiple the sparking plugs of the engines, and a cleaning performance avoids scrapings of the sparking plugs due to the carbon deposits, thereby problems like damaging to the sparking plugs due to human operations are avoided, and moreover, cleaning cups being in threaded connection are detachable without limitation, thereby the present invention is able to obtain more widespread users and couple to more types of the sparking plugs; by arranging the bushes 61 with springs, the sparking plugs are driven to be cleaned more completely, and by arranging rollers with the springs and grooves, the bushes 61 are not only able to clean the side electrodes, but also clean inner threads and inner walls by vibrations produced by the side electrodes, thereby the carbon deposits between the side electrodes and the central electrodes are able to be cleaned, thereby problems like an incomplete cleaning; to the carbon deposits and a relative poor using effect of the apparatus after being washed are avoided.

[0018] The transportation devices 101 comprise two of lifting assemblies symmetrically arranged on an inner wall of the cavity 12, support columns 80, second motors 50, second output shafts 13, pulleys 14, a conveyor belt 71, connection blocks 16, lifting plates 17, clamping blocks 18, location blocks 23, clamping grooves 19, clamping plates 20, a limited plate 27, rollers 22, cylinder 75, a connection pipe 41, a cylinder cavity 26 and blowing fans 24, wherein the lifting assemblies comprise the support columns 80 symmetrically arranged on the inner wall of the cavity 12, wherein the second motors 50 are fixedly arranged on front end surfaces of the support, columns 80, wherein the second output shafts 13 are rotatably arranged on front end surfaces of the second motors 50, wherein two of upper and lower Lifting assemblies are fixedly arranged on front end surfaces of the second output shafts 13, wherein the upper and lower lifting assemblies comprise pulleys 14 fixedly arranged on the front end surfaces of the second output shafts 13, wherein the conveyor belt 71 is wound on two of the pulleys 14, wherein the connection blocks 16 are fixedly arranged on a first end surface of the conveyor belt 71, wherein the lifting plates 17 are fixedly arranged between two of the connection blocks 16, wherein eight of clamping assemblies are uniformly distributed on the lifting plates 17 along a circumferential direction, wherein the clamping assemblies comprise the clamping blocks 18 uniformly distributed on the lifting plates 17 along the circumferential direction, wherein two of the location blocks 23 are arranged on lower end surfaces of the clamping blocks 18, wherein the clamping gooves 19 are arranged within the clamping blocks 18, wherein six of sliding assemblies are uniformly distributed on inner walls of the clamping grooves 19 alone a circumferential direction, wherein the sliding assemblies comprise the clamping plates 20 arranged within the clamping grooves 19, wherein the rollers:22 are rotatably arranged on lower end surfaces of the clamping grooves 19, and the limited plate 27 is fixedly arranged on the inner wall of the cavity 12, and the connection pipe 41 is fixedly arrange, on the motor shell 37, and the cylinder 75 is fixedly arranged on an upper end surface of the gear wheel 69, and the cylinder cavity 26 is arranged in the cylinder 75, wherein eight of the blowing fans 24 are uniformly distributed on the cylinder 75 along a circumferential direction, and he cylinder cavity 26 is communicated with the motor cavity 42 via the connection pipe 41, and the rollers 22 are reciprocally and slidably connected with an inner wall of the clamping grooves 19 via the connection springs 21 [0019] Operators pour rust remover Into the cavity 12, and the rust remover is poured until aligns with a lower end surface of the limited plate 27, and at this time, the operators put a same batch of sparking plugs into the clamping grooves 19 with heads of the sparking plugs downwards, and at this time, internal hexagons of the sparking, plugs are abutted against the clamping plates 20, thereby the clamping grooves 19 are pushed to move in all directions until the inner hexagons of the sparking plugs tightly stick to the clamping plate's 20, and at this time, the second motors 50 are started, thereby the second output shafts 13 are driven to rotate, thereby the pulleys 14 are driven to rotate, thereby the conveyor belt 71 is driven to move downwards, thereby the lifting plates 17 are driven to move downwards until the lower end surfaces of the lifting plates 17 stick to the upper end surface of the limited plate 27, and at this time, the location blocks 23 enter into the locating grooves 47, and the heads of the sparking plugs enter into the cleaning cavities 48 and immersed in decarbonizer, and by arranging the engines and transmission belts, the sparking plugs are able to be automatically sent into the decarbonizer, thereby a pollution of the decarbonizer to fingers due to a human placement is avoided, and by arranging clamping plates and the springs., the sparking plugs are able to be quickly clamped, thereby an operation time is saved, and by uniformly distributed clamping stations along a circumferential direction, thereby the sparking plugs on same one of the engine are able to be cleaned at the same time, thereby time of maintenance personnel is greatly saved, arid furthermore, a damage to the engine due to a change of single one of the sparking plugs is avoided.

[0020] The water cleaning devices 103 comprise two of transmission assemblies symmetrically arranged on a rear end wall of the cavity 12, power shafts 34, transmission belt wheels 35, band carriers 36, triangle plates 72, water-proof bloCks 28, water-proof grooves 29, triangular cylindrical plates 31, carbon deposits collect cups 32, and carbon deposits collect cavities 33, wherein the transmission assemblies comprise die power shafts 34 symmetrically and rotatably arranged on the rear end wall of the cavity 12, wherein the transmission belt wheels 35 are fixedly arranged on the power shafts 34, wherein the band carriers 36 are wound between two of the transmission belt wheels 35, and the triangle plates 72 are fixedly arranged on a bottom end wall of the cavity 12, and water-proof assemblies comprise water-proof blocks 28 symmetrically arranged on a lower end surface of the shell 11, wherein waterproof grooves 29 are arranged in the water-proof blocks 28, wherein the triangular cylindrical plates 31 are arranged in the water-proof grooves 29, wherein the carbon deposits collect cups 32 are in threaded connection between the water-proof blocks 28, wherein the carbon deposits collect cavities 33 are arranged in the carbon deposits collect cups 32, and the carbon deposits collect cavities 33 are communicated with the cavity 12, and the triangular cylindrical plates 31 are reciprocally and slidably connected with inner walls of the water-proof grooves 29 via small springs 30, and by vibrations, the carbon deposits on the sparking plugs fall on upper surfaces of the band carriers 36, and at this time, the power shafts 34 rotate to drive the transmission belt wheels 35 to rotate, thereby the band carriers 36 are driven to rotate clockwise, thereby the carbon deposits on the upper surfaces of the band carriers 36 fall down into the carbon deposits collect cavities 33, and when the carbon deposits in the carbon deposits collect cavities 33 is relative much, the carbon deposits collect cups 32 loss a riveting with the water-proof blocks 28 when the carbon deposits collect cups 32 rotate, and when upper end surfaces of the carbon deposits collect cups 32 are lower than the triangular cylindrical plates 31, two of the triangular cylindrical plates 31 are able to perform opposite movements due to triangle shape, thereby the decarbonizer is not flowing out, and at this time, after the carbon deposits in the carbon deposits collect cavities 33 are removed, the carbon deposits collect cavities are able to rotate and reset, and by arranging transmission belts and triangle plates, the carbon deposits fallen in the cleaning devices are able to be collected into the detachable cavities, and a leakproofness of a container is ensured when in disassembly, thereby a pollution to the outside world from the decarbonizer is avoided; and at the same time, the present invention is able to be -utilized repeatedly.

[0021] Working principle: Operators pour rust remover into the cavity 12, and the rust remover is poured until align with a lower end surface of the limited plate 27, and at this time, the operators put a same batch of sparking plugs into the clamping grooves 19 with heads of the sparking plugs downwards, and at this time, internal hexagons oldie sparking plugs are abutted against the clamping plates 20, thereby the clamping grooves 19 is pushed to move in all directions until the inner hexagons of the sparking plugs tightly stick to the clamping plates 20, and at this time, the second motors 50 is started, thereby the second output shafts is driven to rotate, thereby the pulleys 14 is driven to rotate, thereby the conveyor belt 71 is driven to move downwards, thereby the lifting plates 17 is driven to move downwards until the lower end surface of the lifting plates 17 sticks to the upper end surface of the limiter plate 27, and at this time, the location blocks 23 enters into the locating grooves 47, and the heads of the sparking plugs enter into the cleaning cavities 48 and immersed in decathonizer, and at this time, when the first motor 39 are started to drive the first output shaft 40 to rotate, thereby the gear wheel 69 are driven to rotate, thereby the pinions 44 are driven to rotate, thereby the cleaning shells 45 are driven to rotate, and at this time, the bushes 61 are able to brush off carbon deposits on thread of head of sparking-plug along a circumferential direction, and then a side electrode of the sparking plug abuts against the brushing plates 51 for stopping rotations of the cleaning devices, and at this time, under actions of the spheres 56, the brushing plates 51 are performing a slow rotation until the brushing plates 51 pass through the side electrical set of the sparking plIffi relative to the spheres 56, and then as the resetting springs 66 reset to a natural state suddenly, the spheres 56 rotate with vibrating, thereby the brushing plates Si is driven to vibrate, thereby the software sliding blocks 67 is driven to vibrate, thereby the software blocks 53 is driven to vibrate, thereby carbon deposits between the side electrode of the sparking plug and a central electrode is driven to fall down slowly; and the software blocks 53 move towards a first side when confronted with the carbon deposits, thereby the software sliding blocks 67 is driven to move, thereby the software sliding blocks 67 is able to slide within the sliding grooves 52, thereby the carbon deposits between the side electrode and the central electrode is driven to fall down more thoroughly, thereby the spheres 56 vibrate to drive the L-shaped rods 59 to vibrate, thereby the soft rods 60 is driven to vibrate, thereby the software spherical blocks 62 is driven to vibrate to clean the carbon deposits on. the bushes 61, and after the sparking plug is cleaned up; the lifting plates 17 moves to an original position, and at this time, hot gases in the motor cavity 42 enter into the cylinder cavity 26 via the connection pipe 41, and then the hot gases enter into the cavity 12 via the blowing fans 24 by rotation, thereby the sparking plug is driven to be dried quickly, and by vibrations, the carbon deposits on the sparking plugs fall on upper surfaces of the band carriers 36, and at this time; the power shafts 34 rotate to drive the transmission belt wheels 35 to rotate, thereby the band carriers 36 are driven to rotate clockwise, thereby the carbon deposits on the upper surfaces of the band carriers 36 fall down into the carbon deposits collect cavities 33, and when the carbon deposits in the carbon deposits collect cavities 33 is relative much, the carbon deposits collect cups 32 loss a riveting with the waterproof blocks 28 when the carbon deposits collect cups 32 rotate, and when upper end surfaces of the carbon deposits collect cups 32 are lower than the triangular cylindrical plates 31, two of the triangular cylindrical plates 31 are able to perform opposite movements due to triangle shape, thereby the decarbonizer is not flowing out, and at this time, after the carbon deposits in the carbon deposits collect cavities 33 are removed, the carbon deposits collect cavities 33 are able to rotate and reset.

Claims (3)

1. CLAIMSA cleaning apparatus for sparking plugs of quadruple cylinder engine comprises a shell, wherein a cavity is arranged in the shell, wherein a gear wheel is arranged on a lower end wall of the cavity, wherein transportation devices are arranged on an upper side of the gear wheel, wherein eight of water cleaning devices are uniformly distributed on a lower side of the gear wheel along a circumferential direction, wherein eight of cleaning devices are uniformly distributed on an outer side of the gear wheel along a circumferential direction, wherein the cleaning devices comprise rotation shafts rotatably arranged on a bottom end surface of the cavity, wherein pinions are fixedly arranged on the rotation shafts, wherein threaded cavities are arranged in the pinions, wherein cleaning shells are in threaded connection within the threaded cavities, wherein cleaning cavities are arranged in the cleaning shells, wherein a plurality of bushes are fixedly arranged on inner walls of the cleaning cavities, wherein placement blocks are fixedly arranged on the inner walls of the cleaning cavities, wherein spherical cavities are arranged in the placement blocks, wherein spheres are rolling in the spherical cavities, wherein brushing plates are fixedly arranged on first end surfaces of the spheres, wherein the bushes are fixedly arranged on the first end surfaces of the brushing plates, wherein sliding grooves are arranged on the brushing plates, wherein software sliding blocks are reciprocally and slidably arranged within the sliding grooves, wherein software blocks are fixedly arranged on rear end surfaces of the software sliding blocks, wherein the software sliding blocks are fixedly connected with first end walls of the sliding grooves via elastic springs, and the spheres are connected with inner walls of the spherical cavities via four of resetting springs on surfaces of the spheres, and the gear wheel is fixedly arranged on first output shaft, wherein the cleaning assemblies commise the soft rods fixedly arranged on the first end surfaces of the L-shaped rods, wherein the software spherical Mocks are fixedly arranged on first end surfaces of the soft rods" wherein two of the horizontal springs are fixedly arranged on two end surfaces of the L-shaped rods, wherein two of the vertical springs are fixedly arranged on upper and lower end surfaces of the L-shaped rods, -herein two of the locating oov-s are fixed anged on the cleaning shells, wherein the motor shell are fixedly arranged on a lower end surface of the shell, wherein the motor cavity is arranged within the motor shell,and th otor is fixedly arranged on a lower end surface of the cavity, wherein the first output shaft is rotatably arranged on an upper end surface of the first motor, wherein the gear eel is fixedly arranged on an upper end surface of the firs input shaft, and the gear wheel engages with the pinions, and the L-shaped rods are fixedly connected with two end walls of the vibration cavities via two of the horizontal springs, and the shaped rods are fixedly connected with upper and lower end walls of the vibration cavities via two of the vertical springs.
2. The cleaning apparatus for sparking plugs of quadruple cylinder engine defined in claim, wherein the transportation devices comprise two of lifting assemblies symmetrically arranged on an inner wall of the cavity, wherein the lifting assemblies comprise the support columns symmetrically arranged on the inner wall of the cavity, wherein second motors are fixedly arranged on front end surfaces of the support columns, wherein second output shafts are otatably arranged on front end surfaces of the second II 01015, wherein two of upper and lower lifting assemblies are fixedly arranged on front end surfaces of the second output shafls, wherein the upper and lower lifting assemblies comprise pulleys fixedly arranged on the front end surfaces of the second output shafts, wherein conveyor belt is wound on two of the pulleys, wherein connection blocks are fixedly arranged on a first end surface of the conveyor belt, wherein lifting plates are fixedly arranged between two of the connection blocks, wherein eight of clamping asset are iii ii 1..orn istrihuted on the lifting plates along a circumferential direction, wherein clamping assemblies comprise the clamping blocks uniformly distributed on the lifting plates along the circumferential direction, wherein two oflocati n blocks are arranged on lower end surthces of h,ping blocks, wherein clamping grooves are arranged within the clamping blocks, wherein six of sliding assemblies are uniformly distributed on inner walls of the clamping grooves along a circumferential direction, wherein sliding assemblies comprise the clamping plates arranged within the clamping grooves, wherein rollers are rotat bly arranged on lower end surfaces of the clamping groove; and a limited plate is fixedly arranged on the inner wall of the cavity, and a connection pipe is fixedly arranged on the motor shell, and a cylinder is fixedly arranged on an upper end surface of the gear wheel, and a cylinder cavity is arranged in the cylinder, wherein eight of blowing fans are uniformly distributed on the cylinder along a circumferential direction, and a cylinder cavity is communicated with the motor cavity via the connection pipe, and rollers are reciprocally and slidably connected with an inner wall of the clamping grooves via the connection springs.
3. 3. The cleaning apparatus for sparking plugs of quadruple cylinder engine defined in claim, wherein the water cleaning devices comprise two of transmission assemblies symmetrically arranged on a rear end wall of the cavity, wherein the transmission assemblies comprise power shafts symmetrically and rotatably arranged on the rear end wall of the cavity, wherein transmission belt wheels are fixedly arranged on the power shafts, wherein band carriers are wound between two of the transmission belt wheels, and triangle plates are fixedly arranged on a bottom end wall of the cavity, and water-proof assemblies comprise water-proof blocks symmetrically arranged on a lower end surface of the shell, wherein water-proof grooves are arranged in the water-proof blocks, wherein triangular cylindrical plates are arranged in the water-proof grooves, wherein carbon deposits collect cups are in threaded connection between the water-proof blocks, wherein carbon deposits collect cavities are arranged in the carbon deposits collect cups, and the carbon deposits collect cavities are communicated with the cavity, and the triangular cylindrical plates are reciprocally and slidably connected with inner walls of the water-proof grooves via small springs.