CN117309848B

CN117309848B - Online detection method and system for halon gas-sprayed glass bottle

Info

Publication number: CN117309848B
Application number: CN202311099046.9A
Authority: CN
Inventors: 唐永; 付震; 张超; 厉彦夫
Original assignee: Shandong Jingyao Glass Group
Current assignee: Shandong Jingyao Glass Group
Priority date: 2023-11-08
Filing date: 2023-11-08
Publication date: 2024-04-12
Anticipated expiration: 2043-11-08
Also published as: CN117309848A

Abstract

The invention relates to the technical field of glass detection, and particularly provides a method and a system for online detection of a halon gas-sprayed glass bottle. The online detection system for the Ha Long Qipen coated glass bottle comprises a detection rack, a distributing assembly, a control assembly, a plurality of filling assemblies, a transmission assembly and a plurality of wiping assemblies. According to the online detection method for the glass bottle coated with the Ha Long Qipen, the online detection system for the glass bottle coated with the Ha Long Qipen is used for realizing the automatic positioning, selection and detection of the produced glass bottle, the production efficiency and the product quality are improved, the requirement of manual operation is reduced, the smooth production flow is ensured, meanwhile, in the process of detecting the glass bottle, the glass bottle can be continuously and reciprocally shaken up and down to form a larger contact surface area between DEF detection liquid and the inside of the glass bottle, so that components in the DEF detection liquid are more uniformly distributed in the inner wall of the glass bottle, the detection effect is improved, the sensitivity and the accuracy of detection are improved, and meanwhile, the stability and the repeatability of an experiment are also maintained.

Description

Online detection method and system for halon gas-sprayed glass bottle

Technical Field

The invention relates to the technical field of glass detection, in particular to a method and a system for online detection of a halon gas spraying glass bottle.

Background

The glass bottle halon gas spraying is a coating technology commonly used for manufacturing glass containers such as wine bottles or food bottles, and is used for enhancing the wear resistance and the anti-fouling performance of the coating so that the glass surface is more durable. Meanwhile, the halon gas can improve the light transmittance of the coating, so that the glass surface is more transparent.

When the glass bottle is in a high-temperature wet season, water vapor is accumulated in the inner wall of the glass bottle and forms acidic substances together with carbon dioxide in the air, sodium ions (Na+) and calcium ions (Ca2+) on the inner surface of the glass bottle and the like, and the acidic substances seriously erode the inner wall of the glass, so that frosting (mildewing), flaking and the like are generated on the inner wall of the glass. The halon gas treatment can remove sodium ions (Na+) and calcium ions (Ca & lt2+ & gt) and the like on the inner surface of the glass bottle in advance, so that the chemical stability and the water resistance of the glass are improved, and the phenomena of frosting or moldy and flaking are prevented.

Therefore, the detection of the Ha Long Qipen coating on the glass bottle is an important link, the detection of the Ha Long Qipen coating at present is mostly carried out manually, the detection efficiency is low, the detection accuracy degree is low, and the detection accuracy degree is not matched with modern high-efficiency production equipment.

Disclosure of Invention

Based on the above, it is necessary to provide an online detection method for halon gas spraying glass bottles, so as to solve at least one of the above technical problems.

An online detection method for a halon gas spray glass bottle comprises the following steps:

step S1: placing a plurality of glass bottles subjected to DEF treatment in a conveyor belt for conveying, wherein a Ha Long Qipen coated glass bottle online detection system is arranged on the conveyor belt, and sampling three continuous glass bottles in a random row in the conveyor belt by using the Ha Long Qipen coated glass bottle online detection system;

step S2: cleaning and drying three sampled glass bottles by utilizing a Ha Long Qipen coated glass bottle online detection system, so that the inner wall and the outer wall of the glass bottles have no obvious floating ash;

step S3: injecting DEF detection liquid into the three sampled glass bottles by using a Ha Long Qipen coated glass bottle online detection system, wherein the amount of the injected DEF detection liquid is 1/25 of the total capacity of the three glass bottles;

step S4: and (3) shaking the three glass bottles by using a Ha Long Qipen coated glass bottle online detection system, so that the DEF detection liquid reacts with the residual free alkaline substances on the inner wall surface of the glass bottle, the shaking time is three minutes, the DEF detection liquid in the glass bottle is extracted after shaking, and the color of the extracted DEF detection liquid is judged.

The detection method applies an online detection system of a halon gas spraying glass bottle, and comprises a detection frame, a distributing component, a control component, a plurality of filling components, a transmission component and a plurality of wiping components, wherein a containing cavity is formed in the detection frame, a mounting plate is convexly arranged in the middle of the side wall of the containing cavity, so that the containing cavity is divided up and down to form a first hollow cavity and a second hollow cavity, the bottoms of the side walls of the two sides of the first hollow cavity are respectively penetrated and provided with an inlet groove and an outlet groove, the middle of the top surface of the first hollow cavity is penetrated and provided with a second rotating hole, a conveyor belt is penetrated and provided with a conveyor belt fixedly arranged at one end of the bottom surface of the first hollow cavity through the inlet groove and the outlet groove, the length direction of the conveyor belt is parallel to the length direction of the first hollow cavity, a mounting table is convexly arranged at one end of the side wall of the outer side of the conveyor belt adjacent to the inlet groove, the top surface of the mounting table is concavely provided with a first strip-shaped sliding groove, the length direction of the first strip-shaped sliding groove is vertical to the length direction of the conveyor belt, a first rotating hole is penetrated and arranged in the middle of one end of the top surface of the mounting plate far away from the conveyor belt, a plurality of third rotating holes are penetrated and arranged in the middle of the mounting plate at equal intervals along the circumferential direction of the first rotating hole, two sixth rotating holes are arranged in the middle of the mounting plate in a concave manner, the two sixth rotating holes are arranged along the length direction of the conveyor belt, a second strip-shaped sliding groove is penetrated and arranged near one end of the conveyor belt on the top surface of the mounting plate, the second strip-shaped sliding groove is parallel to the first strip-shaped sliding groove, the distributing component is slidingly arranged in the first strip-shaped sliding groove and the second strip-shaped sliding groove, the top of the control component is rotationally arranged in the second rotating hole, the control component is positioned in the first hollow cavity, a plurality of filling components are equidistantly arranged in the control component along the circumferential direction, the transmission assembly is rotatably mounted on the first rotating hole, and the plurality of wiping assemblies are mounted in the plurality of third rotating holes.

As a further improvement of the invention, the distributing assembly comprises a distributing installation transverse plate, two distributing installation vertical plates, a guide roller, a reverser, a transmission vertical shaft and a first transmission gear, wherein a sliding block is convexly arranged on the bottom surface of the distributing installation transverse plate, a miniature motor is arranged in the sliding block, the distributing installation transverse plate is slidably arranged in a first strip-shaped sliding groove through the sliding block, the bottom surfaces of the two distributing installation vertical plates are fixedly arranged at two ends of the top surface of the distributing installation transverse plate respectively, the two ends of the guide roller are rotatably arranged on the inner side walls of the two distributing installation vertical plates respectively, the diameter of the guide roller is gradually increased from one end adjacent to the other end of the entering groove, a plurality of guide cambered surfaces are concavely arranged on the peripheral wall of the guide roller at equal intervals, one end, far away from the entering groove, of the guide roller is further provided with a second transmission gear, the reverser is arranged in the distributing installation vertical plate far away from the entering groove, the reverser is in meshed connection with the second transmission vertical shaft, the bottom of the reverser is fixedly connected with the transmission vertical shaft, the bottom of the transmission vertical shaft is arranged in a second hollow cavity through the second strip-shaped sliding groove, and the bottom of the first transmission vertical shaft is fixedly arranged at the bottom end of the transmission vertical shaft.

As a further improvement of the invention, the control assembly comprises a first driving motor, a mounting total rod, a third transmission gear, a first mounting circular plate, a distilled water control plate, a first mounting circular ring, a guide plate and a fourth transmission gear, wherein the first driving motor is fixedly arranged on the top surface of the first hollow cavity, a preset hole is concavely arranged on the bottom surface of the mounting total rod, the preset hole is communicated with an external DEF detection device, the top end of the mounting total rod is rotatably arranged in a second rotation hole, the bottom end of the mounting total rod is rotatably arranged in the first rotation hole, the top end of the mounting total rod is connected with the output shaft of the first driving motor, the third transmission gear, the first mounting circular plate, the distilled water control plate, the guide plate and the fourth transmission gear are sequentially arranged in the mounting total rod from top to bottom, and the third transmission gear, the first mounting circular plate, the distilled water control plate and the guide plate are positioned in the first hollow cavity, the fourth transmission gear is arranged in the second hollow cavity, the distilled water control plate and the guide plate are rotatably arranged in the installation total rod, a plurality of flow holes are formed in the top of the peripheral wall of the installation total rod at equal intervals along the circumferential direction, the flow holes are communicated with the preset holes, the flow holes are arranged between the third transmission gear and the first installation circular plate, the top surface of the first installation circular plate is provided with a first sliding hole and a second sliding hole in a penetrating mode at equal intervals along the circumferential direction, the second sliding hole is arranged at one end, adjacent to the circumferential center, of the first sliding hole, a plurality of connecting columns are convexly arranged on the bottom surface of the first installation circular plate, the top surface of the first installation circular ring is fixedly arranged in the connecting columns, a plurality of third sliding holes are formed in the penetrating mode at equal intervals along the circumferential direction, and the third sliding holes are respectively arranged opposite to the first sliding holes.

As a further improvement of the invention, the distilled water control plate is positioned between the first installation circular ring and the first installation circular plate, the outer side wall of the distilled water control plate is arc-shaped, the width of the distilled water control plate is larger than the radius of the inner side wall of the first installation circular ring and smaller than the radius of the outer side wall of the first installation circular ring, an arc-shaped vertical plate is convexly arranged on the outer side of the top surface of the distilled water control plate, inclined planes are concavely arranged at the corners of the two ends of the top of the arc-shaped vertical plate, reinforcing ribs are convexly arranged on the inner side of the bottom surface of the distilled water control plate, the bottom surface of the reinforcing ribs is fixedly connected with the inner side of the top surface of the guide plate, guide cambered surfaces are concavely arranged at the two ends of the outer side of the top surface of the guide plate respectively, a guide rotating plate is arranged in each guide cambered surface, a plurality of positioning cambered surfaces are concavely arranged in the circumferential direction at equal intervals, a rotating column is convexly arranged on the bottom surface of each guide rotating plate, a rotating column penetrates through the third rotating hole to enter the second hollow cavity, a fifth driving gear is further arranged on the bottom surface of the rotating column, the fifth driving gear is in meshed connection with the fourth driving gear, and one end of the fifth driving gear far away from the entering groove is further provided with a third driving motor, and the output shaft of the third driving motor is meshed with the fifth driving gear.

As a further improvement of the invention, each filling assembly comprises a filling tube, a sixth transmission gear, a control guiding element, a liquid outlet guiding rod, a plurality of distillation water valves and a plurality of test liquid tubes, wherein the top and the middle parts of the filling tube are respectively and slidably arranged in a third sliding hole and a first sliding hole, the bottom surface of the sixth transmission gear is fixedly arranged on the top surface of the filling tube, the sixth transmission gear is meshed with the third transmission gear, the control guiding element is fixedly arranged in the middle part of the filling tube, the control guiding element is positioned between a first mounting circular ring and a first mounting circular plate, the liquid outlet guiding rod is fixedly arranged in the filling tube, the top surface of the liquid outlet guiding rod is fixedly arranged at the center of the bottom surface of the sixth transmission gear, the bottom of the inner wall of the filling tube is provided with a one-way valve, both sides of the bottom of the inner wall of the filling tube are respectively and penetratingly provided with a liquid inlet groove and a liquid outlet groove, the plurality of distillation water valves are fixedly installed on the inner side wall of the first installation ring at intervals along the circumferential direction, the top surface of each distillation water valve is provided with a push type valve controller, the side wall on one side of the distillation water valve is provided with a liquid inlet end, the side wall on the other side of the distillation water valve is provided with a liquid outlet end and a water pumping end, the water pumping end is connected with an external water pumping pump through a pipeline, the liquid inlet end of the distillation water valve is connected with an external distilled water pipe through a pipeline, the liquid outlet end of the distillation water valve is connected with a liquid inlet tank of a filling pipe, the liquid outlet tank of the filling pipe is connected with the water pumping end of the distillation water valve, one ends of a plurality of test liquid pipes are fixedly installed in a plurality of flow holes, the other ends of the test liquid pipes are provided with liquid distribution heads, and liquid inlet pipelines and liquid outlet pipelines are arranged at two ends of the liquid distribution heads and are respectively connected with the liquid inlet tank and the liquid outlet tank of the filling pipe through pipelines.

As a further improvement of the invention, the control guide element comprises a mounting block, a guide column and two connecting springs, wherein a rolling shaft is convexly arranged on the side wall of the inner side of the mounting block, the inner end of the rolling shaft is propped against the top surface of the arc-shaped vertical plate, a first mounting hole and a second mounting hole are respectively formed in two sides of the top surface of the mounting block in a penetrating manner, the mounting block is fixedly mounted in the middle of the filling tube through the first mounting hole, the middle of the guide column is fixedly mounted in the second mounting hole, the top of the guide column is slidingly mounted in the second sliding hole, the two ends of the mounting block are respectively convexly provided with the mounting columns, one ends of the two connecting springs are respectively fixedly mounted in the two mounting columns, and the other ends of the two connecting springs are fixedly mounted on the top surface of the first mounting ring.

As a further improvement of the invention, the transmission assembly comprises a second installation circular plate, a plurality of vibration elements, a plurality of first transmission wheels and a plurality of first transmission columns, wherein the middle part of the second installation circular plate is fixedly arranged at the bottom of the installation main rod and is positioned between the guide plate and the fourth transmission gear, a plurality of fourth rotation holes are formed in the top surface of the second installation circular plate at equal intervals along the circumferential direction in a penetrating manner, the plurality of fourth rotation holes are respectively arranged opposite to the plurality of filling tubes, the plurality of vibration elements are arranged in the plurality of fourth rotation holes, the plurality of first transmission wheels are respectively fixedly arranged at the bottoms of the plurality of vibration elements, the bottoms of the plurality of first transmission columns are fixedly arranged at the top surface of the installation plate at equal intervals along the circumferential direction, steel rings are arranged on the inner walls of the top surfaces of the plurality of first transmission columns, and the inner walls of the steel rings are sleeved on the outer walls of the plurality of first transmission wheels so as to realize transmission connection.

As a further improvement of the invention, each vibration element comprises a sliding cylinder, a rotating brush, a placing table, a reciprocating shaft and a buffer cushion, wherein the bottom and the middle of the sliding cylinder are fixedly arranged in a fourth rotating hole, the center of the bottom surface of the sliding cylinder is provided with a fifth rotating hole in a penetrating way, the middle of the rotating brush is rotationally arranged in the fifth rotating hole, the bottom of the rotating brush is fixedly arranged in a first driving wheel, sliding blocks are convexly arranged on two sides of the top of the peripheral wall of the rotating brush, a sliding cavity is concavely arranged in the middle of the bottom surface of the placing table, a mounting groove is concavely arranged in the middle of the top surface of the placing table, the placing table is slidably sleeved on the top of the sliding cylinder through the sliding cavity, a seventh rotating hole is further arranged in the middle of the top surface of the sliding cavity in a penetrating way, the seventh rotating hole enables the sliding cavity to be communicated with the mounting groove, the top of the reciprocating shaft is fixedly connected with the middle of the bottom surface of the buffer cushion, two arc grooves are concavely arranged in the bottom surface of the reciprocating shaft, the two arc grooves are arranged in an array along the circumferential direction, transition grooves are concavely arranged at the bottom end of each transition groove, each transition groove is communicated with the top end of the other arc groove, one end of the transition groove is concavely arranged near the other arc groove, and the corner of one end of the other arc groove is concavely arranged at the transition groove, and the top surface of the end of the other arc groove is blocked at the top of the top surface of the two arc grooves.

As a further improvement of the invention, each wiping component comprises a plurality of second rotating columns, a plurality of second rotating wheels, a second driving motor and a plurality of cleaning brushes, wherein the bottoms of the second rotating columns are rotatably arranged in a plurality of third rotating holes, the second rotating wheels are fixedly arranged on the bottom surfaces of the second rotating columns, the second driving motor is fixedly arranged on one end, far away from the conveying belt, of the bottom surface of the mounting plate, a transmission belt is sleeved between the second rotating wheels and the output shaft of the second driving motor to realize transmission connection, the cleaning brushes are fixedly arranged on the tops of the second rotating columns, and the bottom surfaces of the cleaning brushes and the top surface of the mounting table are positioned on the same horizontal plane.

The beneficial effects of the invention are as follows:

1. the online detection system for the glass bottle coated with the Kaa Long Qipen is used for realizing the automatic positioning, selection and detection of the glass bottle coated with the Kaa Long Qipen on the produced glass bottle, improving the production efficiency and the product quality, reducing the requirement of manual operation and ensuring the smooth proceeding of the production flow.

2. In the process of detecting the glass bottle, the glass bottle can be continuously and reciprocally swayed up and down to enable the DEF detection liquid to form larger contact surface area with the inside of the glass bottle, the contact opportunity of the DEF detection liquid and the inner wall of the glass bottle is increased, meanwhile, components in the DEF detection liquid are more uniformly distributed in the inner wall of the glass bottle, the detection effect is improved, and the glass bottle can be kept clamped between the filling tube and the buffer cushion due to the gravity of the filling tube and the elastic force of the two connecting springs in the process of swaying up and down, so that the glass bottle cannot be displaced due to swaying and mixing, the distribution uniformity of the DEF detection liquid on the inner wall of the glass bottle can be improved in the detection process, the detection effect is enhanced, and the stability and the repeatability of experiments are also maintained while the detection sensitivity and accuracy are improved.

Drawings

Fig. 1 is a schematic perspective view of an embodiment of the present invention.

Fig. 2 is a schematic perspective view of another embodiment of the present invention.

Fig. 3 is a schematic perspective view of a dispensing assembly control assembly, a filling assembly, a transmission assembly, and a wiping assembly according to an embodiment of the present invention.

Fig. 4 is a schematic perspective view of a control assembly and a filling assembly according to an embodiment of the invention.

FIG. 5 is an internal schematic view of the control assembly and the filling assembly according to an embodiment of the present invention.

Fig. 6 is a schematic perspective view of a control assembly according to an embodiment of the invention.

FIG. 7 is a cross-sectional view of a control assembly in an embodiment of the invention.

FIG. 8 is a schematic diagram of the control assembly and the conveyor belt according to an embodiment of the invention.

Fig. 9 is a schematic perspective view of a dispensing assembly according to an embodiment of the invention.

FIG. 10 is an internal schematic view of a transmission assembly and a wiper assembly according to one embodiment of the present invention.

Fig. 11 is a partial enlarged view at a in fig. 10.

In the figure: 10. a detection rack; 11. a housing cavity; 12. a mounting plate; 121. a second bar-shaped sliding groove; 122. a third rotation hole; 13. a first hollow cavity; 131. entering a groove; 132. an outlet slot; 133. a second rotation hole; 14. a second hollow cavity; 20. an allocation assembly; 21. a distributing and installing transverse plate; 22. distributing and installing a vertical plate; 23. a guide roller; 24. a commutator; 25. a transmission vertical shaft; 26. a first transmission gear; 27. a guide cambered surface; 28. a second transmission gear; 30. a control assembly; 31. a first driving motor; 32. installing a main rod; 321. presetting a hole; 322. a flow hole; 33. distilled water control panel; 331. arc risers; 332. an inclined surface; 333. reinforcing ribs; 34. a guide plate; 341. a guide cambered surface; 342. a guide rotating plate; 343. positioning the cambered surface; 344. rotating the column; 345. a fifth transmission gear; 346. a third driving motor; 35. a fourth transmission gear; 36. a first mounting circular plate; 361. a first sliding hole; 362. a second sliding hole; 363. a connecting column; 37. a first mounting ring; 371. a third sliding hole; 38. a third transmission gear; 40. a filling assembly; 41. filling tubes; 411. a one-way valve; 412. a liquid inlet tank; 413. a liquid outlet groove; 42. a sixth transmission gear; 43. controlling the guiding element; 431. a mounting block; 432. a guide post; 433. a connecting spring; 434. a first mounting hole; 435. a second mounting hole; 436. a mounting column; 437. a roller; 44. a liquid outlet guide rod; 45. a distillation water valve; 451. a valve controller; 46. a test liquid tube; 461. a liquid separating head; 462. a liquid inlet pipe; 463. a liquid outlet pipe; 50. a transmission assembly; 51. a second mounting circular plate; 511. a fourth rotation hole; 52. a vibrating element; 521. a sliding cylinder; 522. a rotating brush; 523. a reciprocating shaft; 524. a placement table; 525. a cushion pad; 526. a fifth rotation hole; 527. a sliding chamber; 528. a seventh rotation hole; 529. a mounting groove; 551. an arc-shaped groove; 552. a transition groove; 553. a transitional cambered surface; 53. a first driving wheel; 55. a steel ring; 60. a wiping assembly; 61. a second rotating column; 62. a second rotating wheel; 63. a second driving motor; 64. a cleaning brush; 70. a conveyor belt; 71. a mounting table; 72. a first bar-shaped sliding groove.

Detailed Description

In order that the invention may be readily understood, a more complete description of the invention will be rendered by reference to the appended drawings. The drawings illustrate preferred embodiments of the invention. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

In the description of the present invention, it should be noted that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate orientations or positional relationships based on the orientation or positional relationships shown in the drawings, merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

The invention provides an online detection method for a halon gas spraying glass bottle, which comprises the following steps:

step S1: placing a plurality of glass bottles subjected to DEF treatment in a conveyor belt 70 for conveying, wherein a Ha Long Qipen coated glass bottle online detection system is arranged on the conveyor belt 70, and sampling three continuous glass bottles in a random row in the conveyor belt 70 by using the Ha Long Qipen coated glass bottle online detection system;

Referring to fig. 1 to 11, the present invention further provides an online detecting system for halon gas spraying glass bottles, comprising a detecting rack 10, a distributing component 20, a control component 30, a plurality of filling components 40, a transmission component 50 and a plurality of wiping components 60, wherein a receiving cavity 11 is formed in the detecting rack 10, a mounting plate 12 is protruded in the middle of the side wall of the receiving cavity 11, so that the receiving cavity 11 is divided up and down to form a first hollow cavity 13 and a second hollow cavity 14, the bottoms of the side walls on both sides of the first hollow cavity 13 are respectively provided with an inlet slot 131 and an outlet slot 132 in a penetrating manner, the middle of the top surface of the first hollow cavity 13 is provided with a second rotating hole 133 in a penetrating manner, a conveyor 70 is fixedly mounted at one end of the bottom surface of the first hollow cavity 13 through the inlet slot 131 and the outlet slot 132 in a penetrating manner, the length direction of the conveyor 70 is parallel to the length direction of the first hollow cavity 13, the outer side wall of the conveyor belt 70 is provided with a mounting table 71 in a protruding way near one end of the entering groove 131, the top surface of the mounting table 71 is provided with a first strip-shaped sliding groove 72 in a recessed way, the length direction of the first strip-shaped sliding groove 72 is vertical to the length direction of the conveyor belt 70, the middle part of one end of the top surface of the mounting plate 12 far away from the conveyor belt 70 is provided with a first rotating hole in a penetrating way, the top part of the mounting plate 12 is provided with a plurality of third rotating holes 122 in a penetrating way at equal intervals along the circumference direction of the first rotating hole, the middle part of the mounting plate 12 is provided with two sixth rotating holes in a recessed way, the two sixth rotating holes are arranged along the length direction of the conveyor belt 70, one end of the top surface of the mounting plate 12 near the conveyor belt 70 is provided with a second strip-shaped sliding groove 121 in a penetrating way, the second strip-shaped sliding groove 121 is parallel to the first strip-shaped sliding groove 72, the distributing component 20 is slidingly arranged in the first strip-shaped sliding groove 72 and the second strip-shaped sliding groove 121, the top of the control component 30 is rotationally arranged in the second rotating hole 133, and the control assembly 30 is located in the first hollow cavity 13, the plurality of filling assemblies 40 are installed in the control assembly 30 at equal intervals along the circumferential direction, the transmission assembly 50 is rotatably installed on the first rotating hole, and the plurality of wiping assemblies 60 are installed in the plurality of third rotating holes 122.

The distributing assembly 20 comprises a distributing installation transverse plate 21, two distributing installation vertical plates 22, a guide roller 23, a reverser 24, a transmission vertical shaft 25 and a first transmission gear 26, wherein a sliding block is convexly arranged on the bottom surface of the distributing installation transverse plate 21, a miniature motor is arranged in the sliding block, the distributing installation transverse plate 21 is slidably arranged in a first strip-shaped sliding groove 72 through the sliding block, the bottom surfaces of the two distributing installation vertical plates 22 are fixedly arranged at two ends of the top surface of the distributing installation transverse plate 21 respectively, two ends of the guide roller 23 are rotatably arranged on the inner side walls of the two distributing installation vertical plates 22 respectively, the diameter of the guide roller 23 gradually increases from one end adjacent to the other end of the entering groove 131, a plurality of guide cambered surfaces 27 are concavely arranged on the peripheral wall of the guide roller 23 at equal intervals, a second transmission gear 28 is further arranged on one end, far away from the entering groove 131, of the guide roller 23, the reverser 24 is arranged in the distributing installation vertical plate 22 far away from the entering groove 131, the reverser 24 is in meshed connection with the second transmission gear 28, the bottom of the reverser 24 is fixedly connected with the transmission vertical shaft 25, the bottom of the transmission vertical shaft 25 is arranged in a penetrating manner through the second sliding groove 121, is positioned in the second hollow cavity 14, and the transmission shaft 25 is fixedly arranged on the first transmission shaft 25.

The control assembly 30 comprises a first driving motor 31, a mounting total rod 32, a third transmission gear 38, a first mounting circular plate 36, a distilled water control plate 33, a first mounting circular ring 37, a guide plate 34 and a fourth transmission gear 35, wherein the first driving motor 31 is fixedly arranged on the top surface of the first hollow cavity 13, a preset hole 321 is concavely arranged on the bottom surface of the mounting total rod 32, the preset hole 321 is communicated with an external DEF detection device, the top end of the mounting total rod 32 is rotatably arranged in a second rotation hole 133, the bottom end of the mounting total rod 32 is rotatably arranged in the first rotation hole, the top end of the mounting total rod 32 is connected with the output shaft of the first driving motor 31, the third transmission gear 38, the first mounting circular plate 36, the distilled water control plate 33, the guide plate 34 and the fourth transmission gear 35 are sequentially arranged in the mounting total rod 32 from top to bottom, the third transmission gear 38, the first mounting circular plate 36, the distilled water control plate 33 and the guide plate 34 are positioned in the first hollow cavity 13, the fourth transmission gear 35 is located in the second hollow cavity 14, the distilled water control plate 33 and the guide plate 34 are rotatably installed in the installation total rod 32, a plurality of through holes 322 are formed at the top of the peripheral wall of the installation total rod 32 at equal intervals along the circumferential direction, the plurality of through holes 322 are all communicated with the preset hole 321, the plurality of through holes 322 are located between the third transmission gear 38 and the first installation circular plate 36, the top surface of the first installation circular plate 36 is respectively and equidistantly and alternately penetrated and concavely provided with a first sliding hole 361 and a second sliding hole 362 along the circumferential direction, the second sliding hole 362 is located at one end of the first sliding hole 361 adjacent to the circumferential center, a plurality of connecting columns 363 are convexly arranged at the bottom surface of the first installation circular plate 36, the top surface of the first installation circular ring 37 is fixedly installed in the plurality of connecting columns 363, a plurality of third sliding holes 371 are uniformly and alternately penetrated and concavely provided at equal intervals along the circumferential direction, the plurality of third slide holes 371 are disposed opposite to the plurality of first slide holes 361, respectively.

The distilled water control plate 33 is located between the first installation circular ring 37 and the first installation circular plate 36, the lateral wall of the outer side of the distilled water control plate 33 is arc-shaped, the width of the distilled water control plate 33 is larger than the radius of the lateral wall of the inner side of the first installation circular ring 37 and smaller than the radius of the lateral wall of the outer side of the first installation circular ring 37, the arc-shaped vertical plate 331 is convexly arranged on the outer side of the top surface of the distilled water control plate 33, inclined planes 332 are concavely arranged at the corners of the two ends of the top of the arc-shaped vertical plate 331, reinforcing ribs 333 are convexly arranged on the inner side of the bottom surface of the distilled water control plate 33, the bottom surface of the reinforcing ribs 333 is fixedly connected with the inner side of the top surface of the guide plate 34, guide cambered surfaces 341 are concavely arranged at the two ends of the outer side of the top surface of the guide plate 34 respectively, a guide cambered surface 341 are respectively, a guide rotary rotating plate 342 is arranged in each guide cambered surface 341, a plurality of locating cambered surfaces 343 are concavely arranged at equal intervals in the circumferential direction, a rotary column 344 is convexly arranged on the bottom surface of each guide rotary plate 342, the rotary column 344 is penetratingly arranged in the second hollow cavity 14 through the third rotary hole 122, the bottom surface, the rotary column 344 is further provided with a fifth transmission gear 345, the fifth transmission gear 345 is meshed with the fourth transmission gear 35, and is connected, the fifth transmission gear 345, and a third motor output shaft 345, and a third driving motor 346 are meshed with a third driving shaft.

Each filling assembly 40 comprises a filling tube 41, a sixth transmission gear 42, a control guiding element 43, a liquid outlet guiding rod 44, a plurality of distilled water valves 45 and a plurality of test liquid pipes 46, wherein the top and the middle of the filling tube 41 are respectively and slidably arranged in a third sliding hole 371 and a first sliding hole 361, the bottom surface of the sixth transmission gear 42 is fixedly arranged on the top surface of the filling tube 41, the sixth transmission gear 42 is meshed with the third transmission gear 38, the control guiding element 43 is fixedly arranged in the middle of the filling tube 41, the control guiding element 43 is positioned between the first mounting circular ring 37 and the first mounting circular plate 36, the liquid outlet guiding rod 44 is fixedly arranged in the filling tube 41, the top surface of the liquid outlet guiding rod 44 is fixedly arranged in the center of the bottom surface of the sixth transmission gear 42, a one-way valve 411 is arranged at the bottom of the inner wall of the filling tube 41, two sides of the bottom of the inner wall of the filling tube 41 are respectively and penetratingly provided with a liquid inlet groove 412 and a liquid outlet groove 413, the plurality of the distillation water valves 45 are fixedly arranged on the inner side wall of the first mounting ring 37 at intervals along the circumferential direction, the top surface of the distillation water valve 45 is provided with a push type valve controller 451, the side wall on one side of the distillation water valve 45 is provided with a liquid inlet end, the side wall on the other side of the distillation water valve 45 is provided with a liquid outlet end and a water pumping end, the water pumping end is connected with an external water pumping pump through a pipeline, the liquid inlet end of the distillation water valve 45 is connected with an external distilled water pipe through a pipeline, the liquid outlet end pipeline of the distillation water valve 45 is connected with a liquid inlet groove 412 of the filling pipe 41, the liquid outlet groove 413 of the filling pipe 41 is connected with the water pumping end of the distillation water valve 45, one end of the plurality of test liquid pipes 46 is fixedly arranged in the plurality of flow holes 322, the other end of the test liquid pipes 46 is provided with a liquid distributing head 461, so that the two ends of the liquid distributing head 461 are provided with a liquid inlet pipeline 462 and a liquid outlet pipeline 463, the liquid inlet pipe 462 and the liquid outlet pipe 463 are connected to the liquid inlet tank 412 and the liquid outlet tank 413 of the filling pipe 41, respectively, through pipes.

In one embodiment, the cross-sectional area of the liquid guiding rod 44 is in a shape of a Chinese character 'mi', and one end of each test liquid pipe 46 is provided with a control valve.

The control guiding element 43 comprises a mounting block 431, a guiding column 432 and two connecting springs 433, wherein a roller 437 is convexly arranged on the side wall of the inner side of the mounting block 431, the inner end of the roller 437 is propped against the top surface of the arc-shaped vertical plate 331, a first mounting hole 434 and a second mounting hole 435 are respectively formed in two sides of the top surface of the mounting block 431 in a penetrating mode, the mounting block 431 is fixedly mounted at the middle part of the filling tube 41 through the first mounting hole 434, the middle part of the guiding column 432 is fixedly mounted in the second mounting hole 435, the top of the guiding column 432 is slidingly mounted in the second sliding hole 362, mounting columns 436 are respectively convexly arranged at two ends of the mounting block 431, one ends of the two connecting springs 433 are respectively fixedly mounted in the two mounting columns 436, and the other ends of the two connecting springs 433 are fixedly mounted on the top surface of the first mounting ring 37.

The transmission assembly 50 comprises a second installation circular plate 51, a plurality of vibration elements 52, a plurality of first transmission wheels 53 and a plurality of first transmission columns, wherein the middle part of the second installation circular plate 51 is fixedly installed at the bottom of the installation total rod 32 and is positioned between the guide plate 34 and the fourth transmission gear 35, a plurality of fourth rotation holes 511 are formed in the top surface of the second installation circular plate 51 at equal intervals along the circumferential direction in a penetrating manner, the fourth rotation holes 511 are respectively opposite to the filling tubes 41, the plurality of vibration elements 52 are installed in the fourth rotation holes 511, the plurality of first transmission wheels 53 are fixedly installed at the bottoms of the plurality of vibration elements 52 respectively, the bottoms of the plurality of first transmission columns are fixedly installed at the top surface of the installation plate 12 at equal intervals along the circumferential direction, steel rings 55 are arranged on the inner walls of the top surfaces of the plurality of first transmission columns, and the inner walls of the steel rings 55 are sleeved on the outer walls of the plurality of the first transmission wheels 53 so as to realize transmission connection.

Each vibration element 52 comprises a sliding cylinder 521, a rotating brush 522, a placing table 524, a reciprocating shaft 523 and a buffer 525, wherein the bottom and the middle of the sliding cylinder 521 are fixedly arranged in a fourth rotating hole 511, the center of the bottom surface of the sliding cylinder 521 is penetrated and provided with a fifth rotating hole 526, the middle of the rotating brush 522 is rotatably arranged in the fifth rotating hole 526, the bottom of the rotating brush 522 is fixedly arranged in a first driving wheel 53, both sides of the top of the peripheral wall of the rotating brush 522 are convexly provided with sliding blocks, the middle of the bottom surface of the placing table 524 is concavely provided with a sliding cavity 527, the middle of the top surface of the placing table 524 is concavely provided with a mounting groove 529, the placing table 524 is slidingly sleeved on the top of the sliding cylinder 521 through the sliding cavity 527, the middle part of the top surface of the sliding cavity 527 is also provided with a seventh rotating hole 528 in a penetrating way, the seventh rotating hole 528 enables the sliding cavity 527 to be communicated with the mounting groove 529, the top of the reciprocating shaft 523 is fixedly connected with the middle part of the bottom surface of the buffer cushion 525 in a penetrating way, the bottom surface of the reciprocating shaft 523 is provided with two arc grooves 551 in a penetrating way, the two arc grooves 551 are arranged in an array way along the circumferential direction, the bottom end of each arc groove 551 is provided with a transition groove 552 in a penetrating way, each transition groove 552 is communicated with the top end of the other arc groove 551, the corner of each transition groove 552 adjacent to one end of the other arc groove 551 is provided with a transition cambered surface 553 in a penetrating way, and the top surface of a sliding block of the rotating brush 522 is clamped on the top ends of the two arc grooves 551.

Each wiping component 60 comprises a plurality of second rotating columns 61, a plurality of second rotating wheels 62, a second driving motor 63 and a plurality of cleaning brushes 64, wherein the bottoms of the second rotating columns 61 are rotatably arranged in a plurality of third rotating holes 122, the second rotating wheels 62 are fixedly arranged on the bottom surface of the second rotating columns 61, the second driving motor 63 is fixedly arranged on one end, far away from the conveying belt 70, of the bottom surface of the mounting plate 12, a transmission belt is sleeved between the second rotating wheels 62 and the output shaft of the second driving motor 63 so as to realize transmission connection, the cleaning brushes 64 are fixedly arranged on the top of the second rotating columns 61, and the bottom surfaces of the cleaning brushes 64 and the top surface of the placing table 524 are positioned on the same horizontal plane.

For example, in one embodiment: when glass bottle manufacturing equipment adjusts, the concentration of halon gas changes or every other circle, the micro motor in the distributing assembly 20 is started, so that the distributing assembly 20 moves towards the control assembly 30 along the first strip-shaped sliding groove 72 and the second strip-shaped sliding groove 121, meanwhile, the third driving motor 346 is started, the adjacent fifth driving gear 345 rotates, the fourth driving gear 35 is driven to rotate, the other fifth driving gear 345 is driven to synchronously rotate, and simultaneously, the distributing assembly 20 moves towards the control assembly 30 along the first strip-shaped sliding groove 72 and the second strip-shaped sliding groove 121 until the first driving gear 26 is meshed with the fifth driving gear 345 adjacent to the inlet groove 131, the first driving gear 26 rotates, the guiding roller 23 is driven along with the conveying belt 70, the glass bottle is gradually positioned towards the guiding cambered surface 341 adjacent to the inlet groove 131, the guiding cambered surface and the guiding plate 342 are rotated, the fourth driving gear 35 is driven to rotate, the glass bottle manufacturing process is carried out, the quality is improved, the glass bottle manufacturing process is conveniently and the glass bottle is mounted, and the quality is improved, the glass bottle manufacturing process is conveniently and the glass bottle manufacturing quality is improved, the quality is improved, and the glass bottle manufacturing process is conveniently and the glass bottle manufacturing quality is mounted.

For example, in one embodiment: when a glass bottle is placed on the placing table 524, the third driving motor 346 continuously drives the fifth driving gear 345 to rotate, so that the fourth driving gear 35 rotates, the mounting total rod 32 rotates, the second mounting circular plate 51 rotates, the first mounting circular plate 36 rotates in a following manner due to the fact that the inner wall of the steel ring 55 is sleeved on the outer walls of the first driving wheels 53 to enable transmission connection, the second mounting circular plate 51 rotates to enable the first driving wheels 53 to rotate under the guidance of the steel ring 55, the rotating brush 522 rotates, the top surface of the sliding block of the rotating brush 522 moves from the top ends of the two arc-shaped grooves 551 to the transition groove 552 along the arc-shaped grooves 551, the reciprocating shaft 523 moves upwards along the rotation of the seventh rotating hole 528, the buffer pad 525 moves upwards, the glass bottle bottleneck pushes the one-way valve 411 on the filling pipe 41 to move upwards, meanwhile, the first mounting circular plate 36 rotates in a following manner due to the rotation of the mounting total rod 32, at the moment, the inner space of the glass bottle is communicated with the inner cavity of the filling pipe 41 due to the fact that the glass bottle bottleneck pushes the one-way valve 411 moves upwards, the guide rod 45 enables the glass bottle bottleneck to evenly rotate, the distilled liquid to enter the rotating guide rod 44, and the distilled liquid can evenly flow into the rotating groove 44 due to the rotating guide rod 45, and the rotating the distilled liquid can evenly, and the distilled liquid can flow into the rotating groove 44 due to the rotating guide rod, and the rotating the distilled liquid can be evenly, and the distilled liquid can flow into the rotating groove and the rotating guide rod body, and the distilled liquid can be washed by the rotating through the rotating body.

The valve controller 451 of the distilled water valve 45 adjacent to the carafe will disengage from the distilled water control board 33 as the first mounting ring 37 rotates, such that the liquid outlet end of the distilled water valve 45 will be closed, the water pumping end will be opened, distilled water after the carafe is cleaned will be pumped, and then the external DEF detection device will be activated, such that DEF detection liquid will flow into the filling tube 41 along the predetermined hole 321 through the test liquid tube 46 and into the carafe through the filling tube 41 for detection of the carafe.

Simultaneously, along with the rotation of the first installation circular ring 37, the roller 437 rotates along the first installation circular ring 37 and moves along the top surface of the arc-shaped vertical plate 331 until moving to the inclined surface 332, so that the filling tube 41 can slide downwards along the first sliding hole 361 under the action of gravity and the restoring force of the connecting spring 433, the check valve 411 is opened more greatly, the DEF detection liquid can rapidly enter the glass bottle for detection, meanwhile, the glass bottle is more attached to the filling tube 41, the glass bottle is prevented from falling from the buffer cushion 525 due to external vibration, the quality and performance of products are ensured to meet the requirements, and the automation degree and the operation stability of the production line are improved.

Notably, in the rotatory in-process of first installation ring 37, the second installation plectane 51 will rotate in step, make first drive wheel 53 rotate, make rotatory brush 522 rotate, make reciprocating shaft 523 continuously rotate, after rotatory brush 522's sliding block moves to two transition grooves 552, will follow the continuation rotation of rotatory brush 522 and remove to arc groove 551 top in the transition cambered surface 553, make reciprocating shaft 523 whereabouts, make the glass bottle drop along with it, in the in-process of follow-up continuation rotation will make reciprocating shaft 523 carry out reciprocating rectilinear motion along seventh rotation hole 528, make the glass bottle can continuously go on upwards and downwards rocking in the in-process of waiting for DEF detection liquid to react with the glass bottle, make DEF detection liquid and the inside bigger contact surface area that forms of glass bottle, increase the chance that DEF detection liquid contacted with the glass bottle inner wall, simultaneously make the composition in the DEF detection liquid more evenly distribute in the glass bottle inner wall, the effect of having improved the detection, and make the glass bottle shake down, and shake down in the follow-up continuous rotatory in-up process, will make reciprocating shaft 523 carry out reciprocating rectilinear motion along with seventh rotation hole 528, make the glass bottle can continuously shake along with the time, make the time can not take place the stability of the experiment bottle due to the cushion pad in the detection that the stability of the two card connection spring has been kept in the glass bottle, the stability of detecting the glass bottle can be improved, the stability can be improved, and the stability can be kept in the experiment, and the stability can be used for detecting and the glass bottle 41.

For example, in one embodiment: when the glass bottle is shaken, the second driving motor 63 is started, the second rotating column 61 is enabled to rotate, the plurality of cleaning brushes 64 synchronously rotate, floating ash cleaning is carried out on the outer wall of the glass bottle, meanwhile, the cleaning brushes 64 vibrate the glass bottle to further increase the shaking effect of the DEF detection liquid when the glass bottle is cleaned, after the detection reaction is finished, the valve controller 451 continuously rotates along with the first mounting circular ring 37, the DEF detection liquid is enabled to be propped against the bottom surface of the distilled water control plate 33 again, the DEF detection liquid flows out of the liquid outlet pipeline 463 of the test liquid pipe 46, flows back to the DEF detection device through the preset hole 321, distilled water flows into the glass bottle again, the glass bottle is cleaned, until the glass bottle is returned to the conveyor belt 70 from the other guiding rotating plate 342, then the DEF detection liquid flowing back in the DEF detection device needs to be observed, if the DEF detection liquid flowing back is yellow, the quality of the manufactured glass bottle is proved to be poor, the device for manufacturing the glass bottle needs to be adjusted, if the DEF detection liquid flowing back is orange, the manufactured glass bottle is general, if the DEF detection liquid flowing back is red, the manufactured glass bottle is good, the positioning, selection and detection of the manufactured glass bottle are automatically realized in the whole detection process, the production efficiency and the product quality are improved, the requirement of manual operation is reduced, and the smooth implementation of the production flow is ensured.

The installation process comprises the following steps: the distributing and installing transverse plate 21 is arranged in the first strip-shaped sliding groove 72 in a sliding way through a sliding block, the bottom surfaces of the two distributing and installing vertical plates 22 are respectively and fixedly arranged at the two ends of the top surface of the distributing and installing transverse plate 21, the two ends of the guiding rolling shaft 23 are respectively and rotatably arranged on the inner side wall of the two distributing and installing vertical plates 22, the commutator 24 is arranged in the distributing and installing vertical plates 22 far away from the entering groove 131, the commutator 24 is meshed with the second transmission gear 28, the bottom of the commutator 24 is fixedly connected with the transmission vertical shaft 25, the bottom of the transmission vertical shaft 25 penetrates through the second strip-shaped sliding groove 121 and is positioned in the second hollow cavity 14, the first transmission gear 26 is fixedly arranged at the bottom end of the transmission vertical shaft 25, the first driving motor 31 is fixedly arranged at the top surface of the first hollow cavity 13, the top end of the installation total bar 32 is rotatably arranged in the second rotation hole 133, the bottom end of the installation total bar 32 is rotatably arranged in the first rotation hole, the top end of the mounting total rod 32 is connected with the output shaft of the first driving motor 31, the third transmission gear 38, the first mounting circular plate 36, the distilled water control plate 33, the guide plate 34 and the fourth transmission gear 35 are sequentially arranged in the mounting total rod 32 from top to bottom, the distilled water control plate 33 and the guide plate 34 are rotatably arranged in the mounting total rod 32, the top and the middle of the filling pipe 41 are respectively and slidingly arranged in the third sliding hole 371 and the first sliding hole 361, the bottom surface of the sixth transmission gear 42 is fixedly arranged on the top surface of the filling pipe 41, the sixth transmission gear 42 is meshed with the third transmission gear 38, the control guide element 43 is fixedly arranged in the middle of the filling pipe 41, the control guide element 43 is positioned between the first mounting circular ring 37 and the first mounting circular plate 36, the liquid outlet guide rod 44 is fixedly arranged in the filling pipe 41, the top surface of the liquid outlet guide rod 44 is fixedly arranged in the center of the bottom surface of the sixth transmission gear 42, the distilled water valve 45 is fixedly arranged on the inner side wall of the first mounting ring 37, a liquid outlet end pipeline of the distilled water valve 45 is connected with a liquid inlet groove 412 of the filling pipe 41, a liquid outlet groove 413 of the filling pipe 41 is connected with a water pumping end of the distilled water valve 45, one end of a test liquid pipe 46 is fixedly arranged in a circulating hole 322, a liquid inlet pipeline 462 and a liquid outlet pipeline 463 are respectively connected with the liquid inlet groove 412 and the liquid outlet groove 413 of the filling pipe 41 through pipelines, a mounting block 431 is fixedly arranged in the middle part of the filling pipe 41 through a first mounting hole 434, the middle part of a guide post 432 is fixedly arranged in a second mounting hole 435, the top part of the guide post 432 is slidingly arranged in a second sliding hole 362, one ends of two connecting springs 433 are respectively fixedly arranged in two mounting posts 436, the other ends of the two connecting springs 433 are fixedly arranged on the top surface of the first mounting ring 37, the middle part of the second mounting circular plate 51 is fixedly mounted at the bottom of the mounting total rod 32 and is positioned between the guide plate 34 and the fourth transmission gear 35, the plurality of first transmission wheels 53 are respectively fixedly mounted at the bottoms of the plurality of vibration elements 52, the bottoms of the plurality of first transmission columns are fixedly mounted at the top surface of the mounting plate 12 along the circumferential direction at equal intervals, the inner wall of the top surface of the plurality of first transmission columns is provided with a steel ring 55, the inner wall of the steel ring 55 is sleeved on the outer wall of the plurality of first transmission wheels 53 so as to realize transmission connection, the bottoms and the middle part of the sliding cylinder 521 are fixedly mounted in the fourth rotation hole 511, the middle part of the rotating brush 522 is rotatably mounted in the fifth rotation hole 526, the bottoms of the rotating brush 522 are fixedly mounted in the first transmission wheels 53, the top surfaces of the sliding blocks of the rotating brush 522 are clamped at the top ends of the two arc grooves 551, the bottoms of the plurality of the second rotating columns 61 are rotatably mounted in the plurality of third rotation holes 122, the plurality of second rotating wheels 62 are fixedly mounted at the bottom surfaces of the second rotating columns 61, the second driving motor 63 is fixedly installed on the bottom surface of the mounting plate 12 far away from one end of the conveyor belt 70, a transmission belt is sleeved between the second rotating wheels 62 and the output shaft of the second driving motor 63 to realize transmission connection, the cleaning brushes 64 are fixedly installed on the top of the second rotating column 61, and the bottom surfaces of the cleaning brushes 64 and the top surface of the placing table 524 are located on the same horizontal plane.

The beneficial effects are that:

2. In the process of detecting the glass bottle, the glass bottle can be continuously and reciprocally swayed up and down, so that a larger contact surface area is formed between DEF detection liquid and the inside of the glass bottle, the contact opportunity of the DEF detection liquid and the inner wall of the glass bottle is increased, meanwhile, components in the DEF detection liquid are more uniformly distributed in the inner wall of the glass bottle, the detection effect is improved, and the glass bottle can be kept clamped between the filling tube 41 and the buffer cushion 525 under the action of gravity of the filling tube 41 and the elasticity of the two connecting springs 433 in the process of swaying up and down, so that the glass bottle cannot be displaced due to swaying and mixing, the distribution uniformity of the DEF detection liquid on the inner wall of the glass bottle in the detection process is improved, the detection effect is enhanced, and the stability and the repeatability of an experiment are also maintained while the detection sensitivity and accuracy are improved.

The technical features of the above-described embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above-described embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The above embodiments represent only a few embodiments of the present invention, which are described in more detail and are not to be construed as limiting the scope of the present invention. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims

1. The utility model provides a halon gas spraying glass bottle on-line measuring system which characterized in that: comprises a detection frame (10), a distributing component (20), a control component (30), a plurality of filling components (40), a transmission component (50) and a plurality of wiping components (60), wherein a containing cavity (11) is formed in the detection frame (10), a mounting plate (12) is convexly arranged in the middle of the side wall of the containing cavity (11), the containing cavity (11) is vertically separated to form a first hollow cavity (13) and a second hollow cavity (14), an inlet groove (131) and an outlet groove (132) are respectively formed in the bottoms of the side walls of the two sides of the first hollow cavity (13) in a penetrating manner, a second rotating hole (133) is formed in the middle of the top surface of the first hollow cavity (13), a conveyor belt (70) is fixedly arranged at one end of the bottom surface of the first hollow cavity (13) in a penetrating manner through the inlet groove (131) and the outlet groove (132), the length direction of the conveyor belt (70) is parallel to the length direction of the first hollow cavity (13), a mounting table (71) is convexly arranged at one end of the side wall of the outer side wall of the conveyor belt (70) adjacent to the inlet groove (131), a first sliding groove (71) is arranged on the top surface of the mounting table (71), a strip-shaped end (72) is arranged in a sliding direction perpendicular to the length direction of the first rotating hole (72) and is arranged at one end of the top surface of the conveyor belt (72) and is far away from the middle of the strip-shaped rotating hole (72), a plurality of third rotating holes (122) are formed in the top of the mounting plate (12) away from one end of the conveyor belt (70) at equal intervals along the circumferential direction of the first rotating holes, two sixth rotating holes are formed in the middle of the mounting plate (12) at equal intervals, the two sixth rotating holes are formed in the length direction of the conveyor belt (70), a second strip-shaped sliding groove (121) is formed in the top surface of the mounting plate (12) adjacent to one end of the conveyor belt (70), the second strip-shaped sliding groove (121) and the first strip-shaped sliding groove (72) are arranged in parallel, the distributing assembly (20) is slidably mounted in the first strip-shaped sliding groove (72) and the second strip-shaped sliding groove (121), the top of the control assembly (30) is rotatably mounted in the second rotating holes (133), the control assembly (30) is located in the first hollow cavity (13), the plurality of filling assemblies (40) are mounted in the control assembly (30) at equal intervals along the circumferential direction, the transmission assembly (50) is rotatably mounted on the first rotating holes, and the plurality of wiping assemblies (60) are mounted in the third rotating holes (122).

2. The ha Long Qipen coated glass bottle online detection system of claim 1, wherein: the distributing component (20) comprises a distributing installation transverse plate (21), two distributing installation vertical plates (22), a guide roller (23), a commutator (24), a transmission vertical shaft (25) and a first transmission gear (26), wherein a sliding block is convexly arranged on the bottom surface of the distributing installation transverse plate (21), a miniature motor is arranged in the sliding block, the distributing installation transverse plate (21) is slidably arranged in a first strip-shaped sliding groove (72) through the sliding block, the bottom surfaces of the two distributing installation vertical plates (22) are fixedly arranged at the two ends of the top surface of the distributing installation transverse plate (21) respectively, the two ends of the guide roller (23) are rotatably arranged at the inner side walls of the two distributing installation vertical plates (22) respectively, the diameter of the guide roller (23) gradually increases from one end adjacent to the other end of the entering groove (131), a plurality of guide cambered surfaces (27) are concavely arranged on the peripheral wall of the guide roller (23), one end of the guide roller (23) far away from the entering groove (131) is also provided with a second transmission gear (28), the commutator (24) is arranged in the distributing installation vertical plate (22) far away from the entering groove (131), the commutator (24) is meshed with the second transmission shaft (25) through the second transmission shaft (25) in the cavity (121), the first transmission gear (26) is fixedly arranged at the bottom end of the transmission vertical shaft (25).

3. The ha Long Qipen coated glass bottle online detection system of claim 2, wherein: the control assembly (30) comprises a first driving motor (31), a mounting total rod (32), a third transmission gear (38), a first mounting circular plate (36), a distilled water control plate (33), a first mounting circular ring (37), a guide plate (34) and a fourth transmission gear (35), wherein the first driving motor (31) is fixedly arranged on the top surface of a first hollow cavity (13), a preset hole (321) is concavely arranged on the bottom surface of the mounting total rod (32), the preset hole (321) is communicated with an external DEF detection device, the top end of the mounting total rod (32) is rotatably arranged in a second rotation hole (133), the bottom end of the mounting total rod (32) is rotatably arranged in the first rotation hole, the top end of the mounting total rod (32) is connected with an output shaft of the first driving motor (31), the third transmission gear (38), the first mounting circular plate (36), the distilled water control plate (33), the guide plate (34) and the fourth transmission gear (35) are sequentially arranged in the mounting total rod (32) from top to bottom, the third transmission gear (38), the first mounting circular plate (36) and the guide plate (34) and the fourth transmission gear (35) are positioned in the second hollow cavity (14), and distilled water control panel (33) and guide board (34) are installed in installation total pole (32) for rotating, install total pole (32) periphery wall top along circumference direction equidistance interval and be equipped with a plurality of fluxgate (322), a plurality of fluxgate (322) all are linked together with predetermine hole (321), and a plurality of fluxgate (322) all are located between third drive gear (38) and first installation plectane (36), first installation plectane (36) top surface is equipped with first sliding hole (361) and second sliding hole (362) for the equidistant interval penetration recess respectively along circumference direction, second sliding hole (362) are located first sliding hole (361) and are adjacent circumference center one end, first installation plectane (36) bottom surface protruding is equipped with a plurality of spliced pole (363), first installation plectane (37) top surface fixed mounting is in a plurality of spliced poles (363), first installation plectane (37) top surface along circumference direction equidistance interval run through the recess be equipped with a plurality of third sliding hole (371), a plurality of third sliding hole (371) are set up with a plurality of first sliding hole (361) respectively relatively.

4. The ha Long Qipen coated glass bottle online detection system of claim 3, wherein: the distilled water control plate (33) is positioned between the first mounting circular ring (37) and the first mounting circular plate (36), the outer side wall of the distilled water control plate (33) is arc-shaped, the width of the distilled water control plate (33) is larger than the radius of the inner side wall of the first mounting circular ring (37), the radius of the outer side wall of the inner side wall of the first mounting circular ring (37) is smaller than that of the outer side wall of the first mounting circular ring (37), the arc-shaped vertical plate (331) is convexly arranged on the outer side of the top surface of the distilled water control plate (33), the inclined surface (332) is concavely arranged at the corner parts of the two ends of the top of the arc-shaped vertical plate (331), the reinforcing ribs (333) are convexly arranged on the inner side of the bottom surface of the distilled water control plate (33), the bottom surface of the reinforcing ribs (333) is fixedly connected with the inner side of the top surface of the guide plate (34), the guide cambered surfaces (341) are concavely arranged on the two ends of the outer side of the top surface of the guide plate (34), the guide rotary plates (342) are respectively, a plurality of positioning cambered surfaces (343) are concavely arranged in the circumferential direction of the outer circumferential wall of each guide rotary plate (342), a plurality of rotary columns (344) are concavely arranged on the bottom surfaces in the circumferential direction, the rotary columns (344) are convexly arranged on the bottom of the rotary columns (344), pass through the third rotary holes (122) to enter the bottom surfaces of the second hollow cavity bodies (14), and are fixedly arranged in the bottom surfaces, and are fixedly connected with the top surfaces by a fifth gear (35) respectively, and one end, far away from the entering groove (131), of the fifth transmission gear (345) is further provided with a third driving motor (346), and an output shaft of the third driving motor (346) is in meshed connection with the fifth transmission gear (345).

5. The ha Long Qipen coated glass bottle online detection system of claim 4, wherein: each filling assembly (40) comprises a filling tube (41), a sixth transmission gear (42), a control guide element (43), a liquid outlet guide rod (44), a plurality of distilled water valves (45) and a plurality of test liquid pipes (46), wherein the top and the middle parts of the filling tube (41) are respectively and slidably arranged in a third sliding hole (371) and a first sliding hole (361), the bottom surface of the sixth transmission gear (42) is fixedly arranged on the top surface of the filling tube (41), the sixth transmission gear (42) is meshed with the third transmission gear (38), the control guide element (43) is fixedly arranged in the middle part of the filling tube (41), the control guide element (43) is positioned between a first mounting circular ring (37) and a first mounting circular plate (36), the liquid outlet guide rod (44) is fixedly arranged in the bottom surface of the filling tube (41), the top surface of the liquid outlet guide rod (44) is fixedly arranged in the center of the bottom surface of the sixth transmission gear (42), a one-way valve (411) is arranged at the bottom of the inner wall of the filling tube (41), two sides of the bottom of the inner wall penetrate through a concave liquid inlet groove (412) and a groove (413) respectively, the liquid outlet guide element (45) is arranged at the periphery of the first circular ring (45) along the direction of the first mounting circular ring (37) and the distilled water valves (45) are arranged on the side walls of the first circular ring (45) along the circumference direction, be provided with the feed liquor end on the lateral wall of distillation water valve (45) one side, distillation water valve (45) opposite side lateral wall is provided with out the liquid end and draws water the end, draw water the end and be connected with outer pump through the pipeline, the feed liquor end of distillation water valve (45) is connected with external distilled water pipe through the pipeline, the feed liquor end pipeline of distillation water valve (45) is connected with feed liquor groove (412) of filling tube (41), the play liquid groove (413) of filling tube (41) are connected with the end of drawing water of distillation water valve (45), a plurality of test liquid pipe (46) one end all fixed mounting is in a plurality of through holes (322), every test liquid pipe (46) other end is provided with branch liquid head (461), make branch liquid head (461) both ends be provided with feed liquor pipeline (462) and play liquid pipeline (463), feed liquor pipeline (462) and play liquid pipeline (463) are connected with feed liquor groove (412) and play liquid groove (413) of filling tube (41) through the pipeline respectively.

6. The ha Long Qipen coated glass bottle online detection system of claim 5, wherein: the control guide element (43) comprises a mounting block (431), a guide column (432) and two connecting springs (433), wherein a roller (437) is convexly arranged on the inner side wall of the mounting block (431), the inner end of the roller (437) is propped against the top surface of an arc-shaped vertical plate (331), a first mounting hole (434) and a second mounting hole (435) are respectively formed in two sides of the top surface of the mounting block (431) in a penetrating mode, the mounting block (431) is fixedly mounted in the middle of a filling pipe (41) through the first mounting hole (434), the middle of the guide column (432) is fixedly mounted in the second mounting hole (435), the top of the guide column (432) is slidingly mounted in the second sliding hole (362), mounting columns (436) are respectively convexly arranged at two ends of the mounting block (431), one ends of the two connecting springs (433) are respectively fixedly mounted in the two mounting columns (436), and the other ends of the two connecting springs (433) are fixedly mounted on the top surface of a first mounting ring (37).

7. The ha Long Qipen coated glass bottle online detection system of claim 6, wherein: the transmission assembly (50) comprises a second installation circular plate (51), a plurality of vibration elements (52), a plurality of first transmission wheels (53) and a plurality of first transmission columns, wherein the middle part of the second installation circular plate (51) is fixedly installed at the bottom of the installation total rod (32) and is positioned between the guide plate (34) and the fourth transmission gear (35), a plurality of fourth rotation holes (511) are formed in the top surface of the second installation circular plate (51) at equal intervals along the circumferential direction in a penetrating mode, the plurality of fourth rotation holes (511) are respectively oppositely arranged with the plurality of filling pipes (41), the plurality of vibration elements (52) are installed in the plurality of fourth rotation holes (511), the plurality of first transmission wheels (53) are fixedly installed at the bottom of the plurality of vibration elements (52), the bottom of the plurality of first transmission columns are fixedly installed at the top surface of the installation plate (12) along the circumferential direction in an equidistant mode, and the inner wall of the top surface of the plurality of first transmission columns is provided with a steel ring (55), and the inner wall of the steel ring (55) is sleeved on the outer wall of the plurality of first transmission wheels (53) so that transmission connection is achieved.

8. The ha Long Qipen coated glass bottle online detection system of claim 7, wherein: each vibration element (52) comprises a sliding cylinder (521), a rotating brush (522), a placing table (524), a reciprocating shaft (523) and a buffer pad (525), wherein the bottom and the middle of the sliding cylinder (521) are fixedly arranged in a fourth rotating hole (511), a fifth rotating hole (526) is formed in the center of the bottom surface of the sliding cylinder (521), the middle of the rotating brush (522) is rotationally arranged in the fifth rotating hole (526), the bottom of the rotating brush (522) is fixedly arranged in a first driving wheel (53), sliding blocks are convexly arranged on two sides of the top of the peripheral wall of the rotating brush (522), a sliding cavity 527 is concavely arranged in the middle of the bottom surface of the placing table (524), an installation groove (529) is concavely arranged in the middle of the top surface of the placing table (524), the placing table (524) is slidingly sleeved at the top of the sliding cylinder (521) through the sliding cavity (527), a seventh rotating hole (528) is formed in the middle of the penetrating groove, the sliding cavity (527) is communicated with the installation groove (526), the top of the reciprocating shaft (523) is fixedly connected with the middle of the bottom surface of the 525, two arc-shaped grooves 551 are formed in the bottom surface of the reciprocating shaft (523) along the two arc-shaped grooves 551, each arc-shaped groove 551 is arranged in the bottom surface of the arc-shaped array, each transition groove (552) is communicated with the top end of the other arc-shaped groove (551), a transition cambered surface (553) is concavely arranged at the corner of each transition groove (552) adjacent to one end of the other arc-shaped groove (551), and the top surfaces of sliding blocks of the rotating brushes (522) are clamped at the top ends of the two arc-shaped grooves (551).

9. The ha Long Qipen coated glass bottle online detection system of claim 8, wherein: each wiping component (60) comprises a plurality of second rotating columns (61), a plurality of second rotating wheels (62), a second driving motor (63) and a plurality of cleaning brushes (64), the bottoms of the second rotating columns (61) are rotationally arranged in a plurality of third rotating holes (122), the second rotating wheels (62) are fixedly arranged on the bottom surface of the second rotating columns (61), the second driving motor (63) is fixedly arranged on the bottom surface of the mounting plate (12) and far away from one end of the conveying belt (70), a transmission belt is sleeved between the second rotating wheels (62) and the output shaft of the second driving motor (63) to realize transmission connection, the cleaning brushes (64) are fixedly arranged on the tops of the second rotating columns (61), and the bottom surfaces of the cleaning brushes (64) and the top surfaces of the placing tables (524) are positioned on the same horizontal plane.