阅读说明：本技术 一种高效油门位置传感器封胶装置 (High-efficient throttle position sensor molding equipment ) 是由 叶佳静 于 2021-01-27 设计创作，主要内容包括：本发明公开了一种高效油门位置传感器封胶装置,包括底座,所述底座上端左右对称固定设有两个驱动支架,所述驱动支架前端旋转设有驱动转轴,所述两根驱动转轴间传动连接设有传送带,所述传送带上前后对称分布固定设有限位柱,转移传送带间断启动,设备自动对油门位置传感器进行上料工作,同时自动对油门位置传感器完成盖板安放工作,接着通过刮板将胶水顺着盖板边缘轮廓挤压刮涂在传感器外壳以及盖板间,通过往复两次刮涂工作确保胶水均匀完整的分布在传感器外壳以及盖板间,最终手动取下传感器完成传感器封胶工作,提高了传感器封胶的工作质量,节约了人力劳动成本。(The invention discloses a high-efficiency sealing device for an accelerator position sensor, which comprises a base, wherein two driving brackets are symmetrically and fixedly arranged at the upper end of the base in the left-right direction, the front end of the driving bracket is rotationally provided with a driving rotating shaft, a conveying belt is arranged between the two driving rotating shafts in a transmission connection way, the front and back of the conveyor belt are symmetrically and fixedly provided with limiting columns, the transfer conveyor belt is started discontinuously, the device automatically carries out feeding work on the accelerator position sensor and simultaneously automatically carries out cover plate placement work on the accelerator position sensor, then, the glue is extruded and scraped between the sensor shell and the cover plate along the edge outline of the cover plate by a scraping plate, the glue is uniformly and completely distributed between the sensor shell and the cover plate through the reciprocating blade coating work twice, and finally the sensor is manually taken down to finish the glue sealing work of the sensor, so that the glue sealing work quality of the sensor is improved, and the labor cost of manpower is saved.)

1. The utility model provides a high-efficient throttle position sensor adhesive sealing device, includes the base, the fixed two drive supports that are equipped with of base upper end bilateral symmetry, the rotation of drive support front end is equipped with the drive pivot, the transmission is connected between two drive pivots and is equipped with the conveyer belt, the fixed spacing post that is equipped with of front and back symmetric distribution on the conveyer belt, its characterized in that: an accelerator position sensor is placed on the conveying belt, a driving frame is fixedly arranged at the upper end of the base, an installation plate is fixedly arranged at the upper end of the driving frame, a feeding box is fixedly arranged at the lower end of the installation plate, a feeding cavity with a downward opening is arranged in the feeding box, and two fixing columns are symmetrically and fixedly arranged on the top wall of the feeding box from front to back;

the throttle position sensor comprises a sensor shell, an installation cavity with an upward opening is formed in the sensor shell, a connector is fixedly connected to the right end of the sensor shell, a sensor is fixedly arranged on the bottom wall of the installation cavity, three connectors are arranged and installed at the right end of the sensor, four limiting baffles are fixedly distributed on the inner wall of the installation cavity, mounting frames are symmetrically and fixedly arranged at the front end and the rear end of the sensor shell, limiting through grooves which penetrate up and down are formed in the mounting frames, and a cover plate is arranged at the upper ends of the limiting baffles;

the lower end of the mounting plate is fixedly provided with a telescopic rod motor, the lower end of the telescopic rod motor is fixedly provided with an electric telescopic rod, the lower end of the electric telescopic rod is fixedly provided with a spring plate, the lower side of the spring plate is provided with a gluing box, a connecting telescopic rod is connected and arranged between the spring plate and the gluing box, a connecting spring is connected and arranged between the spring plate and the gluing box, a glue cavity is arranged in the gluing box, the bottom wall of the glue cavity is provided with a glue sealing groove adapted to the outline of the cover plate, the bottom wall of the glue cavity is fixedly connected and arranged on a connecting block on the gluing box between the left side and the right side in the glue sealing groove, a scraper chute penetrating through the left side and the right side is arranged in the gluing box, a gluing scraper is arranged in the scraper chute in a sliding manner, a strip-shaped through groove penetrating through the gluing scraper from top to bottom, the rotary glue coating machine is characterized in that a fifth rotating shaft is arranged on the rear wall of the gear cavity in a rotating mode, a first gear meshed with the linkage rack is fixedly arranged on the fifth rotating shaft, an upward-opening driven rack is arranged in the glue coating box, a driven rack arranged in the rack sliding groove in a sliding mode is fixedly arranged at the lower end of the spring plate, a driven cavity arranged in the glue coating box is communicated with the left end of the rack sliding groove, a sixth rotating shaft is arranged on the rear wall of the driven cavity in a rotating mode, a second gear meshed with the driven rack is fixedly arranged on the sixth rotating shaft, a second belt pulley is arranged between the sixth rotating shaft and the fifth rotating shaft in a transmission connection mode, a glue pushing plate is arranged in the glue cavity in a sliding mode, and an extrusion spring is arranged between the upper end of the glue.

2. The high-efficiency accelerator position sensor sealant device according to claim 1, wherein: the throttle position sensor without the cover plate is arranged in the feeding cavity, the fixing column penetrates through a limiting through groove in the throttle position sensor, a control cavity and a linkage cavity are arranged in the feeding box, winding rotating shafts are symmetrically and rotatably arranged on the left walls of the control cavity and the linkage cavity, a winding reel is fixedly arranged on the winding rotating shafts, a cross transmission belt pulley is arranged between the two winding rotating shafts in a cross transmission connection mode, a linkage bevel gear is fixedly arranged on the winding rotating shaft in the control cavity on the front side, a first rotating shaft is rotatably arranged on the front wall of the control cavity, a transmission bevel gear meshed with the linkage bevel gear is fixedly arranged on the first rotating shaft, two fixed pulley cavities are symmetrically arranged in the feeding box from front to back, a fixed pulley is rotatably arranged on the left wall in the fixed pulley cavity, and two limiting sliding chutes are symmetrically arranged in the feeding box from front to back, the winding device is characterized in that a limiting sliding block is arranged in the limiting sliding groove in a sliding mode, a U-shaped baffle is fixedly arranged on the limiting sliding block, a reset spring is arranged between the front end of the limiting sliding block and the front wall of the limiting sliding groove in a connected mode, a linkage pull rope is wound on the winding roll, and the linkage pull rope is wound on the fixed pulley and fixedly connected with the limiting sliding block.

3. The high-efficiency accelerator position sensor sealant device according to claim 1, wherein: the lower end of the mounting plate is fixedly provided with a cover plate cavity with a downward opening, a transmission cavity is arranged in the cover plate box, a third rotating shaft is arranged on the right wall of the transmission cavity in a rotating mode, a second bevel gear and a winding disc are fixedly arranged on the third rotating shaft, two winding pull ropes are wound on the winding disc, a second rotating shaft is arranged on the rear wall of the rotating gear in a rotating mode, a first bevel gear meshed with the second bevel gear is fixedly arranged on the second rotating shaft, a rotating gear is fixedly arranged on the second rotating shaft, a fourth rotating shaft is arranged on the rear wall of the transmission cavity in a rotating mode, a rotating sector gear meshed with the rotating gear is fixedly arranged on the fourth rotating shaft, two transmission rotating shafts are arranged on the rear wall of the cover plate cavity in a rotating mode, a conveying belt is arranged in transmission connection between the transmission rotating shafts, and a first belt pulley is arranged in transmission connection between the left, the cover plate which is not installed in the accelerator position sensor is arranged in the cover plate cavity, two limiting plate sliding grooves are symmetrically formed in the front wall and the rear wall of the cover plate cavity, limiting plates are arranged in the limiting plate sliding grooves in a sliding mode, a push plate spring is connected between the front ends of the limiting plates and the front walls of the limiting plate sliding grooves, and the winding pull rope is fixedly connected to the limiting plates.

4. The high-efficiency accelerator position sensor sealant device according to claim 1, wherein: the fixed pivot mounting panel that is equipped with of drive frame right-hand member, the fixed actuating motor that is equipped with in pivot mounting panel front end, the rotatory drive pivot that is equipped with of actuating motor front end, the fixed drive sector gear that is equipped with in the drive pivot, the rotatory driven spindle that is equipped with of pivot mounting panel front end, the fixed meshing that is equipped with in the driven spindle drive sector gear's driven gear, the transmission connection is equipped with driven pulley between driven spindle, left drive spindle, the rotatory transmission pivot, the linkage pivot of being equipped with on the pivot mounting panel, fixed drive gear, the linkage gear of being equipped with respectively in transmission pivot, the linkage pivot, the transmission connection is equipped with drive pulley between transmission pivot, the first pivot, the transmission connection is equipped with the linkage pulley between linkage pivot, the transmission.

5. The high-efficiency accelerator position sensor sealant device according to claim 1, wherein: the limiting column penetrates through the limiting through groove and is used for fixing the position of the accelerator position sensor.

Technical Field

The invention relates to a high-efficiency sealing device for an accelerator position sensor, and mainly relates to the technical field of sensors.

Background

In the production process of the accelerator position sensor, a sensor chip needs to be manually installed in a sensor installation box, then a cover plate is manually placed in the installation box through a worker, the sensor is sent into a glue sealing device, the edge sealing work is carried out on the edge of the cover plate through a glue sealing path set in advance by the device, the flow is complex, the glue sealing work is completed by the glue coating device according to the path, the unevenness of glue at the head and tail parts of the glue is sealed, the sealing performance cannot be ensured, and if bubbles exist in glue sealing equipment, the glue cannot be continuously coated on a specified part in the glue sealing process, so the device is designed to solve the problems.

Disclosure of Invention

The invention aims to solve the technical problem of providing an efficient sealing device for an accelerator position sensor, and solves the problem.

The invention is realized by the following technical scheme.

The efficient accelerator position sensor glue sealing device comprises a base, wherein two driving supports are symmetrically and fixedly arranged at the upper end of the base in the left-right direction, driving rotating shafts are rotatably arranged at the front ends of the driving supports, a conveying belt is arranged between the two driving rotating shafts in a transmission connection mode, limiting columns are symmetrically and fixedly arranged on the conveying belt in the front-back direction, an accelerator position sensor is placed on the conveying belt, a driving frame is fixedly arranged at the upper end of the base, an installation plate is fixedly arranged at the upper end of the driving frame, a feeding box is fixedly arranged at the lower end of the installation plate, a feeding cavity with a downward opening is arranged in the feeding box, and two fixing columns are symmetrically and fixedly arranged on the top;

the throttle position sensor comprises a sensor shell, an installation cavity with an upward opening is formed in the sensor shell, a connector is fixedly connected to the right end of the sensor shell, a sensor is fixedly arranged on the bottom wall of the installation cavity, three connectors are arranged and installed at the right end of the sensor, four limiting baffles are fixedly distributed on the inner wall of the installation cavity, mounting frames are symmetrically and fixedly arranged at the front end and the rear end of the sensor shell, limiting through grooves which penetrate up and down are formed in the mounting frames, and a cover plate is arranged at the upper ends of the limiting baffles;

the lower end of the mounting plate is fixedly provided with a telescopic rod motor, the lower end of the telescopic rod motor is fixedly provided with an electric telescopic rod, the lower end of the electric telescopic rod is fixedly provided with a spring plate, the lower side of the spring plate is provided with a gluing box, a connecting telescopic rod is connected and arranged between the spring plate and the gluing box, a connecting spring is connected and arranged between the spring plate and the gluing box, a glue cavity is arranged in the gluing box, the bottom wall of the glue cavity is provided with a glue sealing groove adapted to the outline of the cover plate, the bottom wall of the glue cavity is fixedly connected and arranged on a connecting block on the gluing box between the left side and the right side in the glue sealing groove, a scraper chute penetrating through the left side and the right side is arranged in the gluing box, a gluing scraper is arranged in the scraper chute in a sliding manner, a strip-shaped through groove penetrating through the gluing scraper from top to bottom, the rotary glue coating machine is characterized in that a fifth rotating shaft is arranged on the rear wall of the gear cavity in a rotating mode, a first gear meshed with the linkage rack is fixedly arranged on the fifth rotating shaft, an upward-opening driven rack is arranged in the glue coating box, a driven rack arranged in the rack sliding groove in a sliding mode is fixedly arranged at the lower end of the spring plate, a driven cavity arranged in the glue coating box is communicated with the left end of the rack sliding groove, a sixth rotating shaft is arranged on the rear wall of the driven cavity in a rotating mode, a second gear meshed with the driven rack is fixedly arranged on the sixth rotating shaft, a second belt pulley is arranged between the sixth rotating shaft and the fifth rotating shaft in a transmission connection mode, a glue pushing plate is arranged in the glue cavity in a sliding mode, and an extrusion spring is arranged between the upper end of the glue.

Furthermore, the throttle position sensor without the cover plate is arranged in the feeding cavity, the fixing column penetrates through a limiting through groove in the throttle position sensor, a control cavity and a linkage cavity are arranged in the feeding box, winding rotating shafts are symmetrically and rotatably arranged on the left walls of the control cavity and the linkage cavity, a winding reel is fixedly arranged on the winding rotating shafts, a cross transmission belt pulley is arranged between the two winding rotating shafts in a cross transmission connection mode, a linkage bevel gear is fixedly arranged on the winding rotating shaft in the control cavity on the front side, a first rotating shaft is rotatably arranged on the front wall of the control cavity, a transmission bevel gear meshed with the linkage bevel gear is fixedly arranged on the first rotating shaft, two fixed pulley cavities are symmetrically arranged in the feeding box front and back, a fixed pulley is rotatably arranged on the left wall in the fixed pulley cavity, and two limiting sliding chutes are symmetrically arranged in the feeding box front and back, the winding device is characterized in that a limiting sliding block is arranged in the limiting sliding groove in a sliding mode, a U-shaped baffle is fixedly arranged on the limiting sliding block, a reset spring is arranged between the front end of the limiting sliding block and the front wall of the limiting sliding groove in a connected mode, a linkage pull rope is wound on the winding roll, and the linkage pull rope is wound on the fixed pulley and fixedly connected with the limiting sliding block.

Further, a cover plate cavity with a downward opening is fixedly arranged at the lower end of the mounting plate, a transmission cavity is arranged in the cover plate box, a third rotating shaft is rotatably arranged on the right wall of the transmission cavity, a second bevel gear and a winding disc are fixedly arranged on the third rotating shaft, two winding pull ropes are wound on the winding disc, a second rotating shaft is rotatably arranged on the rear wall of the rotating gear, a first bevel gear meshed with the second bevel gear is fixedly arranged on the second rotating shaft, a rotating gear is fixedly arranged on the second rotating shaft, a fourth rotating shaft is rotatably arranged on the rear wall of the transmission cavity, a rotating sector gear meshed with the rotating gear is fixedly arranged on the fourth rotating shaft, two transmission rotating shafts are rotatably arranged on the rear wall of the cover plate cavity, a conveying belt is arranged between the transmission rotating shafts in a transmission connection mode, and a first belt pulley is arranged between the left transmission rotating shaft and the fourth rotating shaft in a transmission connection mode, the cover plate which is not installed in the accelerator position sensor is arranged in the cover plate cavity, two limiting plate sliding grooves are symmetrically formed in the front wall and the rear wall of the cover plate cavity, limiting plates are arranged in the limiting plate sliding grooves in a sliding mode, a push plate spring is connected between the front ends of the limiting plates and the front walls of the limiting plate sliding grooves, and the winding pull rope is fixedly connected to the limiting plates.

Further, the fixed pivot mounting panel that is equipped with of drive frame right-hand member, the fixed actuating motor that is equipped with in pivot mounting panel front end, the rotatory drive pivot that is equipped with in actuating motor front end, the fixed drive sector gear that is equipped with in the drive pivot, the rotatory driven spindle that is equipped with in pivot mounting panel front end, the fixed meshing that is equipped with in driven spindle the driven gear of drive sector gear, the transmission is connected and is equipped with driven pulley between driven spindle, left drive spindle, the rotatory transmission pivot, the linkage pivot that is equipped with on the pivot mounting panel, fixed drive gear, the linkage gear that is equipped with respectively in transmission pivot, the linkage pivot, the transmission is connected and is equipped with drive pulley between transmission pivot, the first pivot, the transmission is connected and is equipped with the linkage pulley between linkage pivot.

Further, the limiting column penetrates through the limiting through groove and is used for fixing the position of the throttle position sensor.

The invention has the beneficial effects that: the start is interrupted to the transfer conveyer belt, the equipment is automatic carries out material loading work to throttle position sensor, simultaneously automatic accomplish the apron to throttle position sensor and lay work, after that with glue along apron edge profile extrusion knife coating between sensor housing and apron through the scraper blade, guarantee the even complete distribution of glue between sensor housing and apron through reciprocal twice knife coating work, finally the sensor is taken off manually and sensor sealing work is accomplished, the sensor seals the operating mass with glue has been improved, the human labor cost has been practiced thrift.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

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

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic diagram of the structure at a in fig. 1.

Fig. 3 is a schematic diagram of the structure at B-B in fig. 2.

Fig. 4 is a schematic view of the structure at C-C in fig. 2.

Fig. 5 is a schematic diagram of the structure at D in fig. 1.

FIG. 6 is a schematic view of the structure at E-E in FIG. 5.

Fig. 7 is a schematic view of the structure at F in fig. 1.

Detailed Description

The invention will now be described in detail with reference to fig. 1-7, wherein for ease of description the orientations described below are now 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 efficient glue sealing device for the accelerator position sensor, which is described in conjunction with the attached drawings 1-7, comprises a base 10, wherein two driving supports 13 are fixedly arranged at the upper end of the base 10 in a bilateral symmetry manner, a driving rotating shaft 14 is rotatably arranged at the front end of each driving support 13, a conveyor belt 15 is arranged between the two driving rotating shafts 14 in a transmission connection manner, limiting posts 16 are fixedly arranged on the conveyor belt 15 in a front-back symmetrical distribution manner, an accelerator position sensor 29 is arranged on the conveyor belt 15, a driving frame 11 is fixedly arranged at the upper end of the base 10, an installation plate 12 is fixedly arranged at the upper end of the driving frame 11, a feeding box 27 is fixedly arranged at the lower end of the installation plate 12, a feeding cavity 28 with a downward opening is arranged in the feeding box 27, and two fixing posts 40;

the throttle position sensor 29 comprises a sensor shell 30, wherein an installation cavity 31 with an upward opening is formed in the sensor shell 30, a connecting port 32 is fixedly connected to the right end of the sensor shell 30, a sensor 34 is fixedly arranged on the bottom wall of the installation cavity 31, three connectors 35 are arranged and installed at the right end of the sensor 34, four limiting baffles 36 are fixedly distributed on the inner wall of the installation cavity 31, installation frames 37 are symmetrically and fixedly arranged at the front end and the rear end of the sensor shell 30, limiting through grooves 38 which penetrate through the installation frames 37 up and down are formed in the installation frames 37, and a cover plate 33 is arranged at the upper ends of the limiting baffles 36;

the lower end of the mounting plate 12 is fixedly provided with a telescopic rod motor 73, the lower end of the telescopic rod motor 73 is fixedly provided with an electric telescopic rod 74, the lower end of the electric telescopic rod 74 is fixedly provided with a spring plate 75, the lower side of the spring plate 75 is provided with a gluing box 76, a connecting telescopic rod 77 is connected between the spring plate 75 and the gluing box 76, a connecting spring 78 is connected between the spring plate 75 and the gluing box 76, a glue cavity 79 is arranged in the gluing box 76, the bottom wall of the glue cavity 79 is provided with a glue sealing groove 85 adapted to the contour of the cover plate 33, the bottom wall of the glue cavity 79 is fixedly arranged on the left and right in the glue sealing groove 85 and is fixedly connected with a connecting block 86 arranged on the gluing box 76, a scraper chute 82 which penetrates through the left and right is arranged in the gluing box 76, a gluing scraper 83 is slidably arranged in the scraper chute 82, and a strip-, a linkage rack 87 is fixedly arranged at the right end of the gluing scraper 83, a gear cavity 88 arranged in the gluing box 76 is communicated with the end of the scraper chute 82, a fifth rotating shaft 89 is rotatably arranged on the rear wall of the gear cavity 88, a first gear 90 meshed with the linkage rack 87 is fixedly arranged on the fifth rotating shaft 89, a driven rack 96 with an upward opening is arranged in the gluing box 76, a driven rack 96 slidably arranged in the rack chute 95 is fixedly arranged at the lower end of the spring plate 75, a driven cavity 91 arranged in the gluing box 76 is communicated with the left end of the rack chute 95, a sixth rotating shaft 92 is rotatably arranged on the rear wall of the driven cavity 91, a second gear 93 meshed with the driven rack 96 is fixedly arranged on the sixth rotating shaft 92, a second belt pulley 94 is arranged between the sixth rotating shaft 92 and the fifth rotating shaft 89 in a transmission connection manner, a push plate 80 is slidably arranged in the glue cavity 79, an extrusion spring 81 is connected between the upper end of the glue pushing plate 80 and the top wall of the glue cavity 79.

Beneficially, the throttle position sensor 29 without the cover plate 33 is disposed in the feeding chamber 28, the fixing posts 40 pass through the limiting through slot 38 in the throttle position sensor 29, the feeding chamber 27 is disposed with a control chamber 41 and a linkage chamber 42, the left walls of the control chamber 41 and the linkage chamber 42 are symmetrically and rotatably disposed with winding shafts 43, the winding shafts 43 are fixedly disposed with winding reels 44, a cross drive pulley 45 is disposed between the two winding shafts 43 in a cross drive connection, the winding shaft 43 in the control chamber 41 at the front side is fixedly disposed with a linkage bevel gear 46, the front wall of the control chamber 41 is rotatably disposed with a first rotating shaft 47, the first rotating shaft 47 is fixedly disposed with a drive bevel gear 97 engaged with the linkage bevel gear 46, the feeding chamber 27 is symmetrically disposed with two fixed pulley chambers 49 at the front and back, the left wall in the fixed pulley chamber 49 is rotatably disposed with a fixed pulley 50, two limiting sliding grooves 52 are symmetrically arranged in the feeding box 27 in a front-back mode, a limiting sliding block 53 is arranged in the limiting sliding groove 52 in a sliding mode, a U-shaped baffle 39 is fixedly arranged on the limiting sliding block 53, a return spring 54 is connected between the front end of the limiting sliding block 53 and the front wall of the limiting sliding groove 52, a linkage pull rope 51 is wound on the winding roll 44, and the linkage pull rope 51 is fixedly connected and arranged on the limiting sliding block 53 by bypassing the fixed pulley 50.

Advantageously, the lower end of the mounting plate 12 is fixedly provided with a cover plate cavity 56 which is opened downwards, the cover plate box 55 is provided with a transmission cavity 60 therein, the right wall of the transmission cavity 60 is rotatably provided with a third rotating shaft 64, the third rotating shaft 64 is fixedly provided with a second bevel gear 65 and a winding disc 66, the winding disc 66 is wound with two winding pull ropes 67, the rear wall of the rotating gear 63 is rotatably provided with a second rotating shaft 61, the second rotating shaft 61 is fixedly provided with a first bevel gear 62 which is meshed with the second bevel gear 65, the second rotating shaft 61 is fixedly provided with a rotating gear 63, the rear wall of the transmission cavity 60 is rotatably provided with a fourth rotating shaft 69, the fourth rotating shaft 69 is fixedly provided with a rotating sector gear 68 which is meshed with the rotating gear 63, the rear wall of the cover plate cavity 56 is rotatably provided with two transmission rotating shafts 57, the transmission rotating shafts 57 are drivingly connected with a conveying belt 58, a first belt pulley 70 is arranged between the left transmission rotating shaft 57 and the fourth rotating shaft 69 in a transmission connection mode, the cover plate 33 which is not installed in the accelerator position sensor 29 is arranged in the cover plate cavity 56, two limiting plate sliding grooves 71 are symmetrically arranged on the front wall and the rear wall of the cover plate cavity 56, limiting plates 72 are arranged in the limiting plate sliding grooves 71 in a sliding mode, a push plate spring 98 is arranged between the front ends of the limiting plates 72 and the front walls of the limiting plate sliding grooves 71 in a connecting mode, and the winding pull rope 67 is fixedly connected to the limiting plates 72.

Beneficially, the fixed pivot mounting panel 99 that is equipped with of drive frame 11 right-hand member, the fixed driving motor 17 that is equipped with in pivot mounting panel 99 front end, the rotatory drive pivot 18 that is equipped with of driving motor 17 front end, the fixed drive sector gear 19 that is equipped with in the drive pivot 18, the rotatory driven spindle 20 that is equipped with of pivot mounting panel 99 front end, the fixed driven gear 21 that meshes in drive sector gear 19 that is equipped with on the driven spindle 20, the transmission connection between left drive spindle 14 is equipped with driven pulley 22, the rotatory transmission spindle 23 that is equipped with, linkage spindle 25 on the pivot mounting panel 99, transmission spindle 23, the fixed drive gear 24 that is equipped with respectively on the linkage spindle 25, linkage spindle 26, transmission spindle 23, the transmission connection between first pivot 47 is equipped with drive pulley 48, linkage spindle 25, The transmission rotating shaft 57 is connected with a linkage belt pulley 59 in a transmission way.

Advantageously, the restraint post 16 passes through the restraint channel 38 for fixing the position of the throttle position sensor 29.

The working steps are as follows: the driving motor 17 is started, the driving shaft 18 rotates to drive the driven gear 21 and the driven shaft 20 to rotate through the driving sector gear 19, the driving shaft 14 is driven to rotate intermittently through the transmission of the driven belt pulley 22 so as to drive the conveyor belt 15 to move intermittently, at the moment, a pair of limiting columns 16 move to the lower side of the feeding cavity 28, the driving sector gear 19 drives the transmission gear 24 to rotate so as to drive the transmission shaft 23 to rotate, the first shaft 47 and the transmission bevel gear 97 are driven to rotate through the transmission of the transmission belt pulley 48, the transmission bevel gear 97 drives the linkage bevel gear 46 at the front side to rotate so as to drive the winding shaft 43 at the front side to rotate, the winding shaft 43 is driven through the crossed transmission belt pulley 45, the two winding disks 44 rotate and wind the linkage rope 51 so as to pull the two limiting sliders 53 and the U-shaped baffle 39 to move, and the accelerator, at the moment, the driving sector gear 19 and the transmission gear 24 are just disengaged, the return spring 54 pushes the limiting slide block 53 and the U-shaped baffle 39 to reset, when the lowest throttle position sensor 29 falls downwards, the U-shaped baffle 39 clamps the fixing column 40 again to limit the second throttle position sensor 29 to fall downwards, the two limiting columns 16 on the lower side of the feeding cavity 28 are inserted into the limiting through grooves 38 in the falling throttle position sensor 29, and at the moment, the lower side of the cover plate cavity 56 is provided with the throttle position sensor 29 without the cover plate 33;

the driving sector gear 19 is meshed with the linkage gear 26 to drive the linkage gear 26 to rotate, thereby driving the linkage rotating shaft 25 to rotate, the transmission pulley 59 is used for transmission to drive the transmission rotating shaft 57 to rotate and the conveyor belt 58 to move, the cover plate 33 on the upper side of the conveyor belt 58 is conveyed to the left lower side, the transmission rotating shaft 57 on the left side drives the fourth rotating shaft 69 and the rotation sector gear 68 to rotate through the transmission of the first pulley 70, when the cover plate 33 moves to the left side of the conveyor belt 58, the rotation sector gear 68 is meshed with the rotation gear 63 and drives the rotation gear 63 to rotate, the second rotating shaft 61 rotates to drive the first bevel gear 62 to rotate, the first bevel gear 62 drives the second bevel gear 65 and the third rotating shaft 64 to rotate, finally the winding pull rope 67 is wound through the winding disc 66, the limiting plate 72 is pulled through the two winding pull ropes 67, the cover plate 33 at the lowest end falls downwards, the adding work of the cover plate 33 of the throttle position sensor 29 is completed, the second cover plate 33 is stopped by the conveyer belt 58 to limit falling, the driving sector gear 19 and the linkage gear 26 are disengaged at the moment, and the push plate spring 98 pushes the limiting plate 72 to reset;

the throttle position sensor 29 added with the cover plate 33 moves to the lower side of the gluing box 76, the telescopic rod motor 73 is started to drive the electric telescopic rod 74 to extend, the gluing box 76 is driven to move downwards by the spring plate 75, when the throttle position sensor 29 is extruded by the lower end of the gluing box 76, the electric telescopic rod 74 continues to extend, the driven rack 96 drives the second gear 93 to rotate, the sixth rotating shaft 92 drives the fifth rotating shaft 89 and the first gear 90 to rotate by the transmission of the second belt pulley 94, so as to drive the linkage rack 87 and the gluing scraper 83 to move leftwards, the glue in the glue cavity 79 is extruded to the gap between the sensor shell 30 and the cover plate 33 by the strip through groove 84 and the glue sealing groove 85, the electric telescopic rod 74 shortens after the strip through groove 84 moves to the left side of the glue sealing groove 85, the linkage rack 87 is driven to move rightwards by the transmission, the gluing scraper, the gluing work efficiency is improved, and the gluing work quality is improved;

the driving sector gear 19 is meshed with the driven gear 21 again to drive the conveyor belt 15 to start, and the operator takes off the accelerator position sensor 29 which finishes the gluing work.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.