CN111921891A - Detection machine capable of detecting performance of spark plugs and sorting spark plugs - Google Patents

Abstract

The invention discloses a detecting machine capable of detecting the performance of spark plugs and sorting the spark plugs, which comprises a detecting machine body, wherein an input cavity with a leftward opening is arranged in the detecting machine body, a conveying cavity is communicated with the lower side in the input cavity, an input mechanism is arranged in the conveying cavity, a temperature detector capable of detecting high temperature is arranged on the right end face of the rear wall of the input cavity, a supporting plate is fixedly arranged in the front wall, and a high-voltage electric plate is fixedly connected with the rear end face of the supporting plate. The collection and treatment efficiency of the spark plug is higher for workers.

Description

Detection machine capable of detecting performance of spark plugs and sorting spark plugs

Technical Field

The invention relates to the technical field of spark plugs, in particular to a detection machine capable of detecting the performance of spark plugs and sorting the spark plugs.

Background

In our daily life, a spark plug is used as an ignition device of a gasoline engine, which can introduce high voltage into a combustion chamber and make the high voltage jump over an electrode gap to generate spark, the temperature of the generated spark is very high, wherein the gap between electrodes of the spark plug needs to be very precise and kept between 0.7 and 0.8 mm, a common machine can generate dangerous situations through manual detection of improper operation in the ordinary production and detection processes of the spark plug, and the precise measurement of the electrode gap is very inconvenient. The present invention sets forth a device that solves the above problems.

Disclosure of Invention

The technical problem is as follows: spark plug need the check performance after production, and the manual work detects danger coefficient height, and the clearance between the electrode detects the degree of difficulty big, and spark plug letter sorting after ordinary detection machine detects the completion is very inconvenient with the output.

In order to solve the problems, the detecting machine capable of detecting the performance and sorting the spark plugs is designed in the embodiment, the detecting machine capable of detecting the performance and sorting the spark plugs comprises a detecting machine body, an input cavity with a leftward opening is arranged in the detecting machine body, a conveying cavity is communicated with the lower side in the input cavity, an input mechanism is arranged in the conveying cavity, a temperature detector capable of detecting high temperature is arranged on the right end face of the rear wall of the input cavity, a supporting plate is fixedly arranged in the front wall, a high-voltage electric plate is fixedly connected to the rear end face of the supporting plate, a lower sliding block is fixedly arranged on the right side in the input cavity and communicated with the right side of the conveying cavity, a lower sliding groove with an upward opening and the same size as a rotating shell of the spark plugs is arranged in the lower wall of the input cavity, a recovery cavity is arranged in the lower wall of the input cavity, the upper side of the recovery cavity is communicated, the device comprises a collecting cavity, an input cavity, a collecting cavity, a gap detector, a moving cavity, a contact plate, a gap spring, a gap detector, a moving cavity, a contact plate, a gap detector and a contact spring, wherein the collecting cavity is arranged at the joint of the input cavity and the collecting cavity and used for sorting and detecting rear sparking plugs, the sorting structure comprises a rotating shaft rotatably arranged between the front wall and the rear wall of the collecting cavity, the excircle end surface of the rotating shaft is fixedly connected with the inverted hook-shaped switching plate, the rear side of the switching plate is arranged in the rear wall of the input cavity and is internally provided with the pushing cavity, the pushing cavity is internally provided with the pushing mechanism, the front wall end surface of the input cavity is fixedly connected with the gap detector which is arranged at the front side of the switching plate, the gap detector is used for detecting the electrode gap distance of the sparking plugs, the rear wall of the input cavity is communicated with, the spark plug collecting device is characterized in that a downward sliding inclined plane obliquely below the right side is fixedly arranged at the lower end of the left wall in the collecting cavity, a loading plate with a forward opening and capable of being replaced is arranged on the lower wall in the collecting cavity, a loading cavity is formed by the left wall and the right wall of the loading plate and the rear wall of the collecting cavity, a reciprocating cavity is communicated with the front side of the loading cavity, a reciprocating mechanism is arranged in the reciprocating cavity, and qualified spark plugs are pushed and arranged neatly.

Preferably, the input mechanism comprises bilateral symmetry and is rotatably arranged on the conveying shaft between the front wall and the rear wall of the conveying cavity, the outer circle end face of the conveying shaft is fixedly connected with a conveying cylinder and the left side and the right side of the conveying cylinder are provided with conveying belts in a winding mode, loading grooves matched with the sizes of spark plug shells are formed in the conveying belts, and conveying motors are fixedly arranged on the right sides in the front walls of the conveying cavities and are in power connection with the conveying motors.

Preferably, the propulsion mechanism is located including rotating the carousel of propelling the intracavity upper wall, the front side hinged joint of carousel lower extreme face has the propulsion connecting rod that can the back-and-forth movement, it has the propulsion liver to impel connecting rod lower extreme face front side hinged joint, it is equipped with the energy supply motor to impel the intracavity upper wall internal fixation, carousel power connect in the energy supply motor.

Preferably, a sliding groove is formed between the rear wall of the propelling cavity and the front wall of the input cavity in a communicated manner, a propelling block capable of moving back and forth is arranged in the sliding groove, a propelling groove with a backward opening and the same size as a spark plug wiring nut is formed in the propelling block, and the front end face of the propelling block is fixedly connected with the rear end face of the propelling block.

But preferred, energy supply motor upside is equipped with the meshing chamber, meshing intracavity lower wall rotates and is equipped with drive bevel gear, drive bevel gear power connect in the energy supply motor, meshing intracavity antetheca rotate be equipped with drive bevel gear engaged with rotates bevel gear mutually, the preceding terminal surface axle center fixedly connected with transmission pivot of rotation bevel gear, meshing chamber front side is equipped with the transmission chamber of downside to the right side to one side, the terminal surface extends to before the transmission pivot transmission intracavity and fixedly connected with driving pulley, driving pulley power connect in the conveyor motor, transmission intracavity lower wall right side rotates and is equipped with from the driving wheel, from the driving wheel with around being equipped with the belt between the driving pulley, from driving wheel rear end face axle center fixedly connected with transmission shaft.

Preferably, the reciprocating mechanism comprises a pushing plate which is positioned in the reciprocating cavity and can move back and forth, the right end face of the pushing plate is hinged with a reciprocating connecting rod, the upper wall of the reciprocating cavity is rotatably provided with a rotating disc, the lower end face of the rotating disc is hinged with the right side of the upper end face of the reciprocating connecting rod, and the axis of the upper end face of the rotating disc is fixedly connected with a reciprocating shaft.

Preferably, a gear cavity is formed in the upper wall of the reciprocating cavity and located in the rear wall of the transmission cavity, the upper end face of the reciprocating shaft extends into the gear cavity and is fixedly connected with a meshing bevel gear, the transmission bevel gear meshed with the meshing bevel gear is rotatably arranged in the front wall of the gear cavity, and the transmission shaft extends forwards into the gear cavity and is fixedly connected to the axis of the front end face of the transmission bevel gear.

Preferably, the loading cavity side is communicated with the rear wall of the collecting cavity to form a switch cavity, a switch magnetic block capable of moving back and forth is arranged in the switch cavity, a switch block is fixedly arranged on the rear wall in the switch cavity, a switch spring is wound between the rear end face of the switch magnetic block and the front end face of the switch block, and when the rear end face of the switch magnetic block is abutted against the front end face of the switch block, the conveying motor can be controlled to stop.

Preferably, switch board upper right end left side terminal surface intercommunication and be equipped with the control chamber, the control intracavity is equipped with the electromagnetism piece that removes about can, the fixed control electromagnetism that is equipped with of control intracavity right wall, control electromagnetism left end face with fixedly connected with spring between the electromagnetism piece right-hand member face works as electromagnetism piece right-hand member face with can control when control electromagnetism left end face is contradicted energy supply motor starts once.

Preferably, a sorting motor is fixedly arranged in the front wall of the input cavity, and the front end of the rotating shaft is in power connection with the sorting motor.

The invention has the beneficial effects that: according to the invention, ignition test is carried out by classified output of the spark plugs and automatic conveying, the detection process is safer without manual detection, then the spark plugs which reach the standard and do not reach the standard are sorted and conveyed by the sorting device, and then one section of the spark plug is abutted to the wall to facilitate detection of the electrode distance, so that the detection efficiency is higher, and then the spark plugs which reach the standard are orderly arranged and collected, so that the efficiency of collecting and processing the spark plugs by workers is higher.

Drawings

For ease of illustration, the invention is described in detail by the following specific examples and figures.

FIG. 1 is a schematic view of the overall structure of a testing machine for testing the performance of spark plugs and sorting the spark plugs according to the present invention;

FIG. 2 is a schematic view of the structure in the direction "A-A" of FIG. 1;

FIG. 3 is a schematic view of the structure in the direction "B-B" of FIG. 1;

FIG. 4 is a schematic view of the structure in the direction "C-C" of FIG. 1;

FIG. 5 is a schematic view of the structure in the direction "D-D" of FIG. 1;

FIG. 6 is a schematic view of the structure in the direction "E-E" of FIG. 1;

FIG. 7 is an enlarged view of the structure of "F" of FIG. 1;

FIG. 8 is a schematic view of the structure in the direction "G-G" of FIG. 4.

Detailed Description

The invention will now be described in detail with reference to fig. 1-8, for ease of description, the orientations described below will now be defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The invention relates to a detector capable of detecting the performance of spark plugs and sorting the spark plugs, which comprises a detector body 11, wherein an input cavity 15 with a leftward opening is arranged in the detector body 11, a conveying cavity 14 is communicated with the inner lower side of the input cavity 15, an input mechanism 101 is arranged in the conveying cavity 14, a temperature detector 19 capable of detecting high temperature is arranged on the right end face of the rear wall of the input cavity 15, a support plate 31 is fixedly arranged in the front wall of the input cavity 15, a high-voltage electric plate 30 is fixedly connected to the rear end face of the support plate 31, a lower slide block 29 is fixedly arranged at the right side in the input cavity 15 and communicated with the right side of the conveying cavity 14, a lower slide groove 28 with an upward opening and the same size as a rotating shell of the spark plugs is arranged in the lower slide block 29, a recovery cavity 18 is arranged in the lower wall of the input cavity 15, the upper right side of the recovery cavity 18 is communicated with the, a sorting structure 102 is arranged at the joint of the input cavity 15 and the collection cavity 25 and used for sorting and detecting the rear spark plugs, the sorting structure 102 comprises a rotating shaft 20 rotatably arranged between the front wall and the rear wall of the collection cavity 25, the excircle end surface of the rotating shaft 20 is fixedly connected with a barb-shaped switching plate 21, a propelling cavity 41 is arranged in the rear side of the switching plate 21 and is positioned in the rear wall of the input cavity 15, a propelling mechanism 103 is arranged in the propelling cavity 41, a gap detector 27 is fixedly connected to the front side of the switching plate 21 and is positioned on the front end surface of the front wall of the input cavity 15, the gap detector 27 is used for detecting the electrode gap distance of the spark plugs, a moving cavity 35 is communicated with the rear side of the switching plate 21 and is arranged on the rear wall of the input cavity 15, a contact plate 26 capable of moving back and forth is arranged in the moving cavity 35, an electromagnetic switch 36 is fixedly arranged on the rear wall in the moving cavity 35, when the contact plate 26 contacts with the end face of the electromagnetic switch 36, the gap detector 27 can be controlled to be started, the lower end of the left wall in the collection cavity 25 is fixedly provided with a downward sliding inclined surface 22 inclined to the right and below, the lower wall in the collection cavity 25 is provided with a loading plate 23 with a forward opening and capable of being replaced, the left wall and the right wall of the loading plate 23 and the rear wall of the collection cavity 25 form a loading cavity 24, the front side of the loading cavity 24 is communicated with a reciprocating cavity 58, a reciprocating mechanism 104 is arranged in the reciprocating cavity 58, and the spark plugs which are qualified after detection are pushed and arranged in order by the reciprocating mechanism 104.

Beneficially, the input mechanism 101 includes a conveying shaft 17 which is bilaterally symmetrical and rotatably disposed between the front wall and the rear wall of the conveying cavity 14, a conveying cylinder 16 is fixedly connected to the end face of the outer circle of the conveying shaft 17, a conveying belt 13 is wound between the conveying cylinders 16 on the left side and the right side, a loading slot 12 which is matched with the size of the spark plug shell is arranged in the conveying belt 13, a conveying motor 32 is fixedly disposed on the inner right side of the front wall of the conveying cavity 14, and the conveying shaft 17 on the right side is in power connection with the conveying motor 32.

Advantageously, the propelling mechanism 103 comprises a rotating disc 43 rotatably arranged on the inner upper wall of the propelling cavity 41, a propelling connecting rod 44 capable of moving back and forth is hinged on the front side of the lower end face of the rotating disc 43, a propelling liver 45 is hinged on the front side of the lower end face of the propelling connecting rod 44, an energy supply motor 42 is fixedly arranged on the inner upper wall of the propelling cavity 41, and the rotating disc 43 is in power connection with the energy supply motor 42.

Advantageously, a sliding groove 40 is communicated between the rear wall of the propelling cavity 41 and the front wall of the input cavity 15, a propelling block 39 capable of moving back and forth is arranged in the sliding groove 40, a propelling groove 38 with a backward opening and the same size as a spark plug wiring nut is arranged in the propelling block 39, and the front end face of the propelling block 39 is fixedly connected with the rear end face of the propelling liver 45.

Beneficially, energy supply motor 42 upside is equipped with meshing chamber 66, the lower wall rotation is equipped with drive bevel gear 67 in meshing chamber 66, drive bevel gear 67 power connect in energy supply motor 42, the antetheca rotation is equipped with drive bevel gear 67 engaged with in meshing chamber 66, the terminal surface axle center fixedly connected with transmission pivot 69 before rotating bevel gear 68, meshing chamber 66 front side is equipped with the transmission chamber 34 of oblique downside to the right, transmission pivot 69 front end face extends to in the transmission chamber 34 and fixedly connected with driving pulley 33, driving pulley 33 power connect in conveyor motor 32, the rotation of lower wall right side is equipped with from the driving wheel 47 in the transmission chamber 34, from driving wheel 47 with around being equipped with belt 46 between the driving pulley 33, from driving wheel 47 rear end face axle center fixedly connected with transmission shaft 62.

Advantageously, the reciprocating mechanism 104 comprises a pushing plate 57 which is positioned in the reciprocating cavity 58 and can move back and forth, a reciprocating connecting rod 59 is hinged on the right end face of the pushing plate 57, a rotating disc 60 is rotatably arranged on the upper wall in the reciprocating cavity 58, the lower end face of the rotating disc 60 is hinged on the right side of the upper end face of the reciprocating connecting rod 59, and a reciprocating shaft 61 is fixedly connected on the shaft center of the upper end face of the rotating disc 60.

Advantageously, a gear cavity 64 is formed in the upper wall of the reciprocating cavity 58 and located in the rear wall of the transmission cavity 34, the upper end surface of the reciprocating shaft 61 extends into the gear cavity 64 and is fixedly connected with a meshing bevel gear 65, a transmission bevel gear 63 meshed with the meshing bevel gear 65 is rotatably arranged in the front wall of the gear cavity 64, and the transmission shaft 62 extends forwards into the gear cavity 64 and is fixedly connected to the axis of the front end surface of the transmission bevel gear 63.

Advantageously, a switch cavity 56 is arranged on the side of the loading cavity 24 and in communication with the rear wall of the collecting cavity 25, a switch magnetic block 53 capable of moving back and forth is arranged in the switch cavity 56, a switch block 55 is fixedly arranged on the rear wall in the switch cavity 56, a switch spring 54 is wound between the rear end face of the switch magnetic block 53 and the front end face of the switch block 55, and the conveying motor 32 can be controlled to stop when the rear end face of the switch magnetic block 53 abuts against the front end face of the switch block 55.

Beneficially, switch board 21 upper right end left side terminal surface intercommunication is equipped with control chamber 49, be equipped with the electromagnetism piece 51 that can remove about in the control chamber 49, the fixed control electromagnetism 48 that is equipped with of right wall in the control chamber 49, control electromagnetism 48 left end face with fixedly connected with spring 50 between the right end face of electromagnetism piece 51, work as electromagnetism piece 51 right end face with can control when control electromagnetism 48 left end face contradicts energy supply motor 42 starts once.

Advantageously, a sorting motor 52 is fixedly arranged in the front wall of the input cavity 15, and the front end of the rotating shaft 20 is in power connection with the sorting motor 52.

The following describes in detail the steps of using a testing machine capable of testing the performance of a spark plug and sorting the spark plug, with reference to fig. 1 to 8: in the initial state, the switching plate 21 is horizontally placed, the abutting plate 26 is located at the front limit position, the pushing block 39 is located at the front limit position, the electromagnetic block 51 is located at the left limit position, the switch magnetic block 53 is located at the front limit position, and the pushing plate 57 is located at the front limit position.

When the spark plug sorting machine works, a spark plug to be detected is placed in the loading groove 12 on the upper end face of the conveyor belt 13 from the input cavity 15, at the moment, the motor conveying motor 32 is indirectly started to drive the conveying shaft 17 to rotate, the conveying shaft 17 drives the right-side conveying cylinder 16 to rotate, the left-side conveying cylinder 16 and the right-side conveying cylinder 16 drive the conveyor belt 13 to move from left to right, at the moment, the spark plug loaded on the conveyor belt 13 is driven to move from left to right, when the spark plug is indirectly driven to the front side of the temperature detector 19, the electrified part of the electrode on the front side of the spark plug is abutted against the rear end face of the high-voltage electric plate 30, at the moment, the high-voltage electric plate 30 supplies power for an ignition telephone, at the moment, electric sparks are generated between the front electrode and the rear electrode on the rear side of the ignition through electric shock, at the moment, the conveyor belt 13 intermittently transmits the spark plugs to the lower chute 28 on the upper end surface of the lower slide block 29, slides downwards along the track and finally falls to the upper end surface of the switching plate 21, at the moment, the rotating shaft 20 rotates anticlockwise for a certain angle, at the moment, the rotating shaft 20 drives the switching plate 21 to rotate anticlockwise for a certain distance and keep inclining to the left and the lower, at the moment, the spark plugs which do not reach the standard fall to the left and the lower along the upper end surface of the switching plate 21 and fall into the recycling cavity 18 and are finally repaired again, then the sorting motor 52 reversely rotates to control the switching plate 21 to return to the initial working position, when the temperature detection reaches the standard, the temperature detector 19 controls the sorting motor 52 not to start, at the moment, the spark plugs fall to the upper end surface of the switching plate 21, at the moment, the right end surface of the spark plug shell props against the left end surface of the electromagnetic block 51 and drives the electromagnetic block, at this time, the energy supply motor 42 drives the turntable 43 to rotate, the turntable 43 drives the propulsion link 44 to move forward and backward, the propulsion link 44 drives the propulsion block 39 to move leftward by driving the propulsion liver 45 to move forward and backward, the propulsion block 39 moves backward while pushing the groove 38 to clamp the front end of the spark plug and drive the spark plug to move forward, at this time, the rear end electrode of the spark plug pushes against the rear end surface of the input cavity 15 due to the movement of the spark plug and drives the electromagnetic switch 36 to move backward against the elastic force of the moving spring 37, finally, the gap detector 27 is controlled to start when the rear end surface of the contact plate 26 pushes against the front end surface of the electromagnetic switch 36, at this time, the gap detector 27 scans and detects whether the distance between the electrodes at the rear end of the spark plug reaches the standard, when the electrode distance between the spark plug does not reach the standard, the sorting motor 52 drives the rotating shaft 20 to rotate counterclockwise, at this time, the switching plate 21 is continuously driven to return to the initial position by the reverse rotation of the sorting motor 52, at this time, the abutting plate 26 returns to the initial working position by the elastic force of the moving spring 37, the electromagnetic block 51 returns to the initial working position by the elastic force of the spring 50, when the electrode distance detection reaches the standard, the gap detector 27 controls the sorting motor 52 to rotate clockwise by one hundred eighty degrees, in the process, the spark plug falls to the upper end of the lower inclined plane 22 and falls downward along the lower inclined plane 22 into the loading cavity 24 on the loading plate 23, at this time, the spark plug which reaches the standard is detected to gradually fall to the right side of the loading cavity 24 and abut against the right end face because the spark plug falls to a certain potential energy, when four spark plugs fall and are arranged in the loading cavity 24, at this time, the energy supply motor 42 drives the driving bevel gear 67 to rotate, the driving bevel gear 67 drives the rotating, the driving belt wheel 33 drives the driven wheel 47 to rotate through the belt 46, the driven wheel 47 drives the driving bevel gear 63 to rotate through the driving shaft 62, the driving bevel gear 63 drives the meshing bevel gear 65 to rotate through gear meshing, the meshing bevel gear 65 drives the rotating disc 60 to rotate through the reciprocating shaft 61, the rotating disc 60 drives the reciprocating connecting rod 59 to move back and forth to drive the pushing plate 57 to move back and forth after moving a certain distance to return to an initial working position, in the process, the pushing plate 57 moves back to drive the spark plugs arranged in a row to move back, when two rows of spark plugs are arranged in the loading cavity 24 at the same time, the pushing plate 57 pushes the rear end surface of the leftmost spark plug on the rear side to abut against the front end surface of the switch magnetic block 53, at the moment, the switch magnetic block 53 moves back against the elastic force of the switch spring 54, and at the moment, the motor 42 is controlled to stop rotating, and at the same time, the conveying motor 32 is controlled to stop, and at the moment, the worker takes out the arranged spark plugs to carry out the next spark plug detection.

The invention has the beneficial effects that: according to the invention, ignition test is carried out by classified output of the spark plugs and automatic conveying, the detection process is safer without manual detection, then the spark plugs which reach the standard and do not reach the standard are sorted and conveyed by the sorting device, and then one section of the spark plug is abutted to the wall to facilitate detection of the electrode distance, so that the detection efficiency is higher, and then the spark plugs which reach the standard are orderly arranged and collected, so that the efficiency of collecting and processing the spark plugs by workers is higher.

In the above manner, a person skilled in the art can make various changes depending on the operation mode within the scope of the present invention.

Claims (10)

1. The utility model provides a can detect spark plug performance and detection machine of letter sorting, includes the letter sorting organism, its characterized in that: an input cavity with a leftward opening is arranged in the detection machine body, a conveying cavity is communicated with the lower side in the input cavity, an input mechanism is arranged in the conveying cavity, a thermodetector capable of detecting high temperature is arranged on the right end face of the rear wall of the input cavity, a supporting plate is fixedly arranged in the front wall, a high-voltage electric plate is fixedly connected with the rear end face of the supporting plate, a lower sliding block is fixedly arranged on the right side in the input cavity and communicated with the right side of the conveying cavity, a lower sliding groove with an upward opening and the same size as a shell for rotating the spark plug is arranged in the lower sliding block, a recovery cavity is arranged in the lower wall of the input cavity, the upper part of the right side of the recovery cavity is communicated with the lower part of the right side of the input cavity, a collection cavity with a rightward opening is communicated with the right side of the input cavity, a sorting structure is arranged at the, the end face of the excircle of the rotating shaft is fixedly connected with a barb-shaped switching plate, a propelling cavity is arranged in the rear side of the switching plate and is positioned in the rear wall of the input cavity, a propelling mechanism is arranged in the propelling cavity, the end face of the front wall of the input cavity and is positioned in the front side of the switching plate are fixedly connected with a gap detector which is used for detecting the electrode gap distance of a spark plug, the rear wall of the input cavity and is positioned in the rear side of the switching plate are communicated with a moving cavity, a touch plate capable of moving back and forth is arranged in the moving cavity, an electromagnetic switch is fixedly arranged on the rear wall in the moving cavity, a moving spring is fixedly connected between the touch plate and the electromagnetic switch, when the touch plate is in contact with the end face of the electromagnetic switch, the gap detector can be controlled to be started, a downward-inclined downward-sliding inclined plane is fixedly arranged at the lower end of the left wall, the left wall and the right wall of the loading plate and the rear wall of the collecting cavity form a loading cavity, the front side of the loading cavity is communicated with a reciprocating cavity, a reciprocating mechanism is arranged in the reciprocating cavity, and the spark plugs which are qualified after detection are pushed and arranged in order.

2. The machine for testing the performance of spark plugs and sorting as claimed in claim 1, wherein: input mechanism includes bilateral symmetry and rotates and locates conveying axle between the preceding back wall of conveying chamber, conveying axle excircle terminal surface fixedly connected with conveying drum, the left and right sides around being equipped with the conveyer belt between the conveying drum, be equipped with the loading groove that agrees with spark plug shell size in the conveyer belt, the fixed conveying motor that is equipped with in right side in the antetheca of conveying chamber, the right side conveying axle power connect in conveying motor.

3. The machine for testing the performance of spark plugs and sorting as claimed in claim 1, wherein: advancing mechanism locates including rotating advance the carousel of intracavity upper wall, terminal surface front side hinged joint has the propulsion connecting rod that can the back-and-forth movement under the carousel, it has the propulsion liver to advance terminal surface front side hinged joint under the connecting rod, it is equipped with energy supply motor to advance the intracavity upper wall internal fixation, carousel power connect in energy supply motor.

4. A tester for testing the performance of spark plugs and sorting them, as claimed in claim 3, wherein: the rear wall of the propelling cavity is communicated with the front wall of the input cavity to form a sliding groove, a propelling block capable of moving back and forth is arranged in the sliding groove, a propelling groove with a backward opening and the size equal to that of a spark plug wiring nut is formed in the propelling block, and the front end face of the propelling block is fixedly connected with the rear end face of the propelling block.

5. A tester for testing the performance of spark plugs and sorting them, as claimed in claim 3, wherein: energy supply motor upside is equipped with the meshing chamber, meshing intracavity lower wall rotates and is equipped with drive bevel gear, drive bevel gear power connect in the energy supply motor, meshing intracavity antetheca rotate be equipped with drive bevel gear engaged with rotation bevel gear, the preceding terminal surface axle center fixedly connected with transmission pivot of rotation bevel gear, meshing chamber front side is equipped with the transmission chamber of downside to the right side to one side, terminal surface extends to before the transmission pivot transmission intracavity and fixedly connected with driving pulley, driving pulley power connect in conveying motor, the rotation of transmission intracavity lower wall right side is equipped with from the driving wheel, from the driving wheel with around being equipped with the belt between the driving pulley, from driving wheel rear end face axle center fixedly connected with transmission shaft.

6. The machine for testing the performance of spark plugs and sorting as claimed in claim 1, wherein: the reciprocating mechanism comprises a pushing plate which is positioned in the reciprocating cavity and can move back and forth, a reciprocating connecting rod is hinged to the right end face of the pushing plate, a rotating disc is arranged on the upper wall of the reciprocating cavity in a rotating mode, the lower end face of the rotating disc is hinged to the right side of the upper end face of the reciprocating connecting rod, and a reciprocating shaft is fixedly connected to the axis of the upper end face of the rotating disc.

7. The machine for testing the performance of spark plugs and sorting as claimed in claim 6, wherein: the reciprocating shaft is characterized in that a gear cavity is formed in the upper wall of the reciprocating cavity and located in the rear wall of the transmission cavity, the upper end face of the reciprocating shaft extends into the gear cavity and is fixedly connected with a meshing bevel gear, the front wall of the gear cavity is rotatably provided with a transmission bevel gear meshed with the meshing bevel gear, and the transmission shaft extends forwards into the gear cavity and is fixedly connected to the axis of the front end face of the transmission bevel gear.

8. The machine for testing the performance of spark plugs and sorting as claimed in claim 1, wherein: the loading cavity side is located on the rear wall of the collecting cavity and communicated with a switch cavity, a switch magnetic block capable of moving back and forth is arranged in the switch cavity, a switch block is fixedly arranged on the rear wall in the switch cavity, a switch spring is wound between the rear end face of the switch magnetic block and the front end face of the switch block, and when the rear end face of the switch magnetic block is abutted against the front end face of the switch block, the conveying motor can be controlled to stop.

9. The machine for testing the performance of spark plugs and sorting as claimed in claim 1, wherein: switch board upper right end left side terminal surface intercommunication and be equipped with the control chamber, the control intracavity is equipped with the electromagnetism piece that removes about can, the fixed control electromagnetism that is equipped with of control intracavity right wall, control electromagnetism left side terminal surface with fixedly connected with spring between the electromagnetism piece right side terminal surface works as electromagnetism piece right side terminal surface with can control when control electromagnetism left side terminal surface is contradicted energy supply motor starts once.

10. The machine for testing the performance of spark plugs and sorting as claimed in claim 1, wherein: the input chamber antetheca internal fixation is equipped with the letter sorting motor, axis of rotation front end power connect in the letter sorting motor.

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