CN117817343B - Bottle opener production system, device and process - Google Patents

Abstract

The application provides a bottle opener production system, device and process, and belongs to the field of bottle opening manufacturing equipment books. The application has the beneficial effects that the problems in the production process of the prior art are mostly observed manually, then the problems are examined, and the self-inspection of the production system and the control system cannot be realized.

Description

Bottle opener production system, device and process

Technical Field

The invention relates to the technical field of bottle opener production, in particular to a bottle opener production system, device and process.

Background

The bottle opener production system refers to an information system which supports daily business operation of units under normal conditions. The system comprises a production control module, production data, a production data processing module and a production network, wherein the production control module is used for controlling a production process.

The production system carries out the work of control equipment through control module, and the in-process that production control module control equipment produced among the prior art does not detect the material of production in the production process, and most all is through the problem that the artificial observation was gone on and monitoring appears when the production material appears in the production process, later troubleshooting problem, can not carry out the self-checking of production system and control system after the problem appears.

Therefore, the bottle opener production system, the bottle opener production equipment and the bottle opener production process are improved.

Disclosure of Invention

The invention aims at: the method aims at solving the problems that in the prior art, materials produced in the production process are not detected in the process of controlling equipment production by a production control module, when the production materials are in a problem in the production process, most of the problems are observed manually, then the problems are examined, and the self-inspection of a production system and a control system cannot be carried out after the problems occur.

In order to achieve the above object, the present invention provides the following bottle opener production system, apparatus and process, so as to improve the above problems.

The application is specifically as follows:

The bottle opener production system comprises a control system, wherein the control system is used for controlling a detection module and a control module to detect, regulate and control all equipment in the production process, so that the working sequence among production equipment parts is operated in steps;

a control module for controlling the opening, operation and residence time of the various components in the apparatus;

the detection module is used for recording and monitoring the operation and the work of the production equipment parts at any time through the camera;

production detection, namely monitoring materials in each production process to record whether the produced materials have production problems and defects;

the characteristic reading is carried out, the material after the production process is shot, and simultaneously, the shot image and the graph at each position are read and recorded;

Feature comparison, namely comparing the images input in advance in the system by inputting the read images;

and (3) identifying the characteristics, and identifying and analyzing whether the patterns have problems and production defects after comparing.

As the preferable technical scheme of the application, the application also comprises system operation detection, which is used for detecting the operation system of each control equipment component;

The system self-checking is carried out, after the system is started, each module of the self-checking control equipment component is carried out before the system is not used for early detection;

Module inspection, wherein the inspection is carried out on the modules of each control device in the process of controlling the production device by using the system, and the modules are monitored at any time so as to reduce the occurrence of problems;

and the module analysis is used for analyzing the data inspected by the module, so that problems possibly occurring in advance are analyzed, and the later processing and the classification of the reasons for generating the problems are facilitated.

As the preferable technical scheme of the application, the application also comprises an error reporting module, and when the production detection and the system operation detection have problems, the production is stopped by alarming at any time;

Analyzing the data, and analyzing and classifying the reasons of the problems;

and error reports are generated after the reasons for generating problems are analyzed out, and the reports are generated for display reminding, so that the later-stage inspection and maintenance are facilitated.

The utility model provides a bottle-opener production facility, includes installation component, rotating assembly, installation component includes that two mutual symmetries set up the mounting panel, go up solid frame, the solid frame of side, go up the mid-mounting of solid frame up end and have the punching press subassembly, the solid frame internal face in side is connected with energy storage subassembly, go up solid frame and the solid frame of side, mounting panel fixed mounting, the surface fixed mounting of mounting panel one end has the transportation subassembly.

As the preferable technical scheme of the application, the stamping assembly comprises a first hydraulic cylinder, a hydraulic cylinder is arranged on the bottom wall of the top side of the upper fixed frame, the output end of the first hydraulic cylinder extends to the inside of the hydraulic cylinder, a stamping plate is arranged on the bottom side of the hydraulic cylinder through a plug rod, a lower pressing plate is arranged on the surface of the plug rod, and first slip rings are arranged at the two ends of the lower pressing plate.

According to the technical scheme, a first liquid outlet pipe is arranged on the top side of the surface of the hydraulic cylinder, a liquid inlet pipe is arranged on the bottom side of the outer surface of the hydraulic cylinder, a hydraulic motor is arranged in the upper fixing frame, the first liquid outlet pipe and the liquid inlet pipe are respectively connected with a liquid inlet and a liquid outlet of the hydraulic motor, a threaded rod is arranged at the output end of the hydraulic motor, an external screw cylinder is connected with the surface threads of the threaded rod, one end of the external screw cylinder is connected with a connecting rod through a sliding block, and an adsorption disc is arranged at the bottom end of the connecting rod.

According to the technical scheme, an inclined cross groove is formed in the top side of the upper fixing frame, the angle of the cross groove away from the connecting rod is larger than that of the connecting rod, the connecting rod is arranged in the cross groove in a sliding mode, a movable gear is arranged on the top side of the connecting rod, a toothed plate is arranged on the side face of the cross groove, a first piston rod is connected with one end of the inner side of the cross groove in a sliding mode, a first piston cylinder is arranged in one end of the upper fixing frame, one end of the first piston rod extends to the inner side of the first piston cylinder through a spring, a first pressure relief valve is arranged on the surface of one end of the first piston cylinder, a switch valve is arranged on the surface of the other end of the first pressure relief valve, and a pushing rod is arranged in the inner side of the other end of the first piston cylinder through the spring.

As the preferable technical scheme of the application, the energy storage component comprises a sliding cylinder, the sliding cylinder is fixedly arranged at the bottom sides of two ends of the upper fixed frame, a sliding rod is connected in the sliding cylinder in a sliding way, the outer surface of the sliding rod is fixedly arranged with a first sliding ring, a supporting leg is fixedly arranged at the outer surface of the rear end of the mounting plate, a first air cylinder is arranged at the top end of the supporting leg, the sliding rod is arranged in the first air cylinder in a sliding way, a first spring is arranged at the outer surface of the first air cylinder, the first spring is fixedly arranged with the supporting leg, a third one-way valve is arranged at one side of the supporting leg, an air pipe is arranged at the other side of the supporting leg, a first one-way valve is arranged on the surface of the air pipe, the inner part of the supporting leg is communicated with the first air cylinder, the air pipe and the third one-way valve, and one end of the air pipe is connected with the energy storage tank.

As the preferable technical scheme of the application, the energy storage tank is fixedly arranged on the inner surface of the side fixing frame, the air pipe extends to the inner part of the energy storage tank and is connected with an air passage, the inner part of the energy storage tank is sequentially provided with a first air cavity, a second air cavity, a third air cavity and a fourth air cavity, the air passage extends to the inner part of the first air cavity, the second air cavity, the third air cavity and the fourth air cavity and is provided with a second one-way valve, a connecting pipe is arranged between the first air cavity, the second air cavity, the third air cavity and the fourth air cavity, the outer surface of the connecting pipe is provided with a valve, one end of the connecting pipe penetrates through the valve and the upper fixing frame to be connected with a second air cylinder, the outer surface of the top side of the second air cylinder is provided with a second pressure relief valve, the inner part of the bottom side of the second air cylinder is provided with a telescopic rod, the telescopic rod and the upper fixing frame support is provided with a second spring, and the bifurcation of the telescopic rod is externally connected with a vacuum generator through a pipeline.

S1, feeding, namely conveying raw materials for manufacturing the bottle opener to a supporting plate through a conveying component, wherein a template groove formed in the supporting plate enables a stamping component to be manufactured into the bottle opener when the stamping component is pressed down, meanwhile, the conveying component is linked with a driving push roller, the driving push roller is driven to rotate, a guide plate on the driving push roller is buckled in a notch for stamping raw materials, and the guide plate is led into a recovery box, so that waste materials are conveniently collected and placed;

S2, stamping forming a bottle opener, starting a stamping assembly, stamping raw materials conveyed to a supporting plate to form the bottle opener, and providing power for a hydraulic motor through an extrusion hydraulic cylinder when the bottle opener descends to stamp or the bottle opener ascends, starting the bottle opener adsorbed by an adsorption disc and transferring after adsorption by the hydraulic motor, simultaneously driving a moving gear to slide in a cross groove, transferring the bottle opener adsorbed and stamped to a pickling assembly when the moving gear is in contact engagement with a toothed plate, and extruding a first piston rod when the moving gear moves to the other end in the cross groove, so that the first piston rod slides in the first piston cylinder to be pressed, and pushing the bottle opener out of the adsorption disc to an injection molding assembly after pickling is completed;

S3, transferring the bottle opener, starting a second motor on an internal fixing frame of the rotating assembly to drive a placing plate to rotate in an annular groove through a second slip ring, so that an acid washing box, a cleaning box and a blowing groove plate on the placing plate are driven to sequentially rotate clockwise to the bottom side of a telescopic rod for processing, then the acid washing box, the cleaning box and the blowing groove plate rotate anticlockwise to return to the original positions, and rotating the fixed injection molding plate to the bottom side of the telescopic rod in anticlockwise rotation to place the bottle opener inside;

S4, energy storage is carried out, the energy storage tank is pressurized in the process that the stamping assembly is lifted up and down, a fourth air cavity in the energy storage tank is released through a valve to enable the telescopic rod to descend and contact with the bottle opener transferred to the bottom side, meanwhile, a vacuum generator at the bifurcation position of the telescopic rod is started to generate suction force to adsorb the bottle opener, and then the third air cavity, the second air cavity and the first air cavity are electrically connected with an external system through valves arranged at the respective air outlet positions to be gradually released so that the bottle opener adsorbed by the third air cavity, the second air cavity and the first air cavity can be sequentially pickled, cleaned and dried;

s5, pushing materials, namely sequentially extending bottle openers on the telescopic rods into the pickling tank, the cleaning tank and the blowing groove plate at the top side of the pickling tank by the third air cavity, the second air cavity and the first air cavity, pushing the pushing rods to descend by opening the switching valves, and separating the adsorbed bottle openers from the telescopic rods to enable the bottle openers to fall onto the injection molding assembly;

S6, injection molding is carried out, the injection molding falls into a fixed injection mold plate on an injection molding assembly, a charging barrel is used for charging, a second hydraulic cylinder is started to push internal materials to enter a sealed space of a movable injection mold plate and the fixed injection mold plate, the movable injection mold plate enters a handle position of the bottle opener, which is just clamped in the fixed injection mold plate, the length of a conveying pipe is equal to the sealed length of the movable injection mold plate and the fixed injection mold plate, and a heating assembly for raw materials is arranged in the conveying pipe;

s7, cooling, namely supporting an air cylinder by a fixed leg on a cooling assembly after the injection molding assembly is subjected to injection molding, and starting the air cylinder to drive a liquid inlet pipe and a second liquid outlet pipe on a connecting plate to enter an interface for cooling the injection molding;

S8, collecting, wherein when the rotating assembly drives the placing plate to rotate to the inner opening after injection molding is completed, the pulley enters the inner opening, the supporting rod moves towards the direction close to the pulley, the panel of the bottom wall of the fixed injection mold plate rotates to enable the bottle opener of the inner injection mold to fall into the collecting box, at the moment, the third spring is in an unfolding state, the pulley is in a shrinkage state when the ring groove rotates, and then the rotating assembly drives the placing plate to rotate to repeat the operation.

Compared with the prior art, the invention has the beneficial effects that:

In the scheme of the application:

1. In order to solve the problems in the production process of the prior art, most of the problems are observed manually, and then the problems are examined, so that the self-inspection of the production system and the control system cannot be realized.

2. In order to solve the problems that in the prior art, bottle openers need to be processed in an up-down circulation mode in a pickling assembly and injection molding and stacking cannot be completed in the same position through automatic equipment and occupy a large space, the application realizes the up-down circulation processing, injection molding and stacking in the pickling assembly in the same position through the mutual matching of the energy storage assembly, the rotating assembly and the blanking assembly, realizes automation and does not occupy a large space.

3. The stamping assembly is arranged to enable the stamping assembly to extrude gas in the hydraulic cylinder in the up-and-down moving process, generated air pressure is conveyed into the hydraulic motor through the inflow pipe, so that the hydraulic motor drives the threaded rod and the outer screw cylinder to rotate, stretch and push the connecting rod to move in the cross groove to pass through the toothed plate, the reverse rotation of an adsorption disc arranged at the bottom side of the movable gear and a bottle opener adsorbed on the adsorption disc is realized, meanwhile, the first piston rod can be extruded to accumulate air pressure in the first piston cylinder, and the problems that resources generated by the existing equipment cannot be utilized when the bottle opener cannot be transported in a linkage mode and needs to be separated in the stamping process in the prior art are solved;

4. The stamping device can move up and down, so that the first slip ring drives the sliding rod to slide in the sliding cylinder, the first air cylinder and the supporting legs and also provides air pressure for the energy storage tank, the later bottle opener can move up and down when entering the acid cleaning assembly, the effects of acid cleaning, cleaning and blow drying are realized, and the problem that the bottle opener needs to be repeatedly moved up and down in the prior art is solved.

5. The pickling assembly, the injection molding assembly and the blanking assembly are driven to rotate through the arranged rotating assembly, so that pickling, injection molding and blanking are carried out at the same position, manual operation is not needed in the process, and the problem that production among different assemblies in the prior art is manually participated is solved through automatic completion;

6. through the setting of the unloading subassembly of setting, realized the automatic unloading after the injection molding of production bottle-opener in-process, the bottle-opener pile that will produce is piled up and is collected the problem.

7. By arranging the injection molding assembly after pickling, the automatic injection molding process for the handle part of the bottle opener is realized, and the problem that the injection molding process needs to be transferred to other positions and occupies space in the prior art is solved.

Drawings

FIG. 1 is a schematic diagram of a bottle opener production system provided by the application;

FIG. 2 is a schematic structural view of the bottle opener production process provided by the application;

FIG. 3 is a schematic side view of a bottle opener production facility according to the present application;

FIG. 4 is a schematic perspective view of a bottle opener production device according to the present application;

FIG. 5 is a schematic view of a part of the bottle opener production equipment provided by the application;

FIG. 6 is a schematic side sectional view of a mounting plate of the bottle opener production facility provided by the application;

FIG. 7 is a schematic view of the structure of the upper fixing frame of the bottle opener production equipment provided by the application;

FIG. 8 is a schematic diagram of a side fixing frame of bottle opener production equipment provided by the application;

FIG. 9 is a schematic view of a part of the structure of the upper fixing frame of the bottle opener production equipment provided by the application;

FIG. 10 is a schematic side sectional view of a hydraulic motor of the bottle opener production facility provided by the application;

FIG. 11 is a schematic diagram of the internal structure of an energy storage tank of the bottle opener production equipment provided by the application;

FIG. 12 is a schematic side view of a placement plate of the bottle opener production facility provided by the present application;

FIG. 13 is a schematic top view of a placement plate of the bottle opener production facility provided by the present application;

FIG. 14 is a schematic view of the structure of the ring groove of the bottle opener production equipment provided by the application;

FIG. 15 is a schematic view of a cooling assembly of a bottle opener manufacturing facility provided by the present application;

FIG. 16 is a schematic view of the structure of the slip ring of the bottle opener production device provided by the application;

FIG. 17 is a schematic bottom plan view of a mounting cylinder of the bottle opener production facility provided by the application;

fig. 18 is a schematic view of the internal structure of the first piston cylinder of the bottle opener production apparatus provided by the application.

The figures indicate:

1. a mounting assembly; 11. a recovery box; 12. a fixing frame is arranged; 121. a cross groove; 122. a toothed plate; 13. a support plate; 14. a support plate; 15. a side fixing frame; 16. a mounting plate;

2. A punching assembly; 21. a first hydraulic cylinder; 22. a hydraulic cylinder; 23. a first liquid outlet pipe; 24. a flow inlet pipe; 25. a moving gear; 251. a connecting rod; 252. an adsorption plate; 253. a template groove; 26. a hydraulic motor; 261. a threaded rod; 262. an outer screw barrel; 27. a first piston cylinder; 271. a first pressure relief valve; 272. a switch valve; 273. a pushing rod; 274. a first piston rod; 28. a stamping plate; 29. a lower pressing plate; 291. a first slip ring;

3. a transport assembly; 31. a first motor; 32. a drive roll; 33. a chain; 34. driving the push roller; 35. a guide plate; 36. a passive roller; 37. a main sprocket; 38. a secondary sprocket;

4. an energy storage assembly; 41. a slide cylinder; 42. a slide bar; 43. a first spring; 44. a first air cylinder; 45. a first one-way valve; 46. an air pipe; 47. an energy storage tank; 471. a first air chamber; 472. a second air chamber; 473. a third air chamber; 474. a fourth air chamber; 475. a second one-way valve; 476. an airway; 477. a valve; 478. a connecting pipe; 48. a second air cylinder; 481. a second pressure relief valve; 49. a telescopic rod; 491. a second spring; 410. a third one-way valve; 411. support legs;

5. a cooling assembly; 51. a fixed leg; 52. a cylinder; 53. a connecting plate; 54. a liquid inlet pipe; 55. a second liquid outlet pipe;

6. A rotating assembly; 61. a mounting cylinder; 62. a ring groove; 63. an inner opening; 64. a fixing frame; 65. a second motor;

7. a blanking assembly; 71. a collection box; 72. a support rod; 73. a third spring; 74. a pulley; 75. a second slip ring;

8. A pickling assembly; 81. a pickling tank; 82. a blanking valve; 83. a cleaning box; 84. an outer connecting pipe; 85. a blowing groove plate; 86. an electric heating fan; 87. a delivery tube; 89. placing a plate;

9. An injection molding assembly; 91. a positioning plate; 92. a second hydraulic cylinder; 93. a movable injection template; 94. a limit column; 95. setting a template; 951. an interface; 96. a material conveying pipe; 97. a charging barrel; 98. and restricting the holes.

Detailed Description

In order that those skilled in the art will better understand the present invention, a technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in which it is apparent that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the present invention without making any inventive effort, shall fall within the scope of the present invention.

As described in the background art, the production control module in the prior art does not detect the material produced in the production process in the process of controlling the equipment production, and most of the problems are observed manually when the production material is in the production process, and then the problems are examined, so that the self-checking of the production system and the control system cannot be performed after the problems occur.

In order to solve the technical problem, the invention provides a bottle opener production system, equipment and a process, which are applied to the field of beer bottle openers.

It should be noted that, under the condition of no conflict, the embodiments of the present invention and the features and technical solutions in the embodiments may be combined with each other.

It should be noted that: like reference numerals and letters denote like items in the following figures, and thus once an item is defined in one figure, no further definition or explanation thereof is necessary in the following figures.

Example 1

Referring to fig. 1, a bottle opener production system, a control system thereof is used for controlling a detection module and a control module to detect, regulate and control each device in the production process, so that the working sequence among the production device parts is operated step by step, and the detection module specifically comprises production detection and system operation detection;

The control module is used for controlling the opening, running and residence time of each component in the equipment, controlling the production steps, working time and transferring time among working procedures of the components of the production equipment, wherein the working time comprises the production processing, treatment and control time among the steps of the upper and lower production working procedures;

And (3) production detection: recording and monitoring the operation and the work of the production equipment parts at any time through a camera, and simultaneously recording whether the produced materials have production problems and defects through monitoring the materials of each production process;

the characteristic reading is carried out, the material after the production process is shot, and simultaneously, the shot image and the graph at each position are read and recorded;

Feature comparison, namely comparing the images input in advance in the system by inputting the read images;

Feature recognition, namely recognizing and analyzing whether the graph has problems and production defects after comparison;

detecting the system operation, namely detecting the operation system of each control equipment component;

The system self-checking is carried out, after the system is started, each module of the self-checking control equipment component is carried out before the system is not used for early detection;

the module inspection assembly is used for inspecting the modules of each control device in the process of controlling the production device by using the system, and monitoring the modules at any time, so as to reduce the occurrence of problems;

the module analysis is used for analyzing the data inspected by the module, so that problems possibly occurring in advance are analyzed, and later processing and problem generation reasons are conveniently classified;

The error reporting module alarms at any time to stop production when production detection and system operation detection are in trouble;

Analyzing the data, and analyzing and classifying the reasons of the problems;

and error reports are generated after the reasons for generating problems are analyzed out, and the reports are generated for display reminding, so that the later-stage inspection and maintenance are facilitated.

The equipment and the raw materials in the system and the production process are monitored and detected simultaneously through the detection module, the error analysis of the system and the equipment is carried out when the problems occur, the purpose of manually observing the problems in the production process is achieved, and the positions and reasons of the detection problems can be analyzed and reported to the module and the equipment at any time when the problems occur.

Example 2

Referring to fig. 3-7, a bottle opener production device comprises a mounting assembly 1 and a rotating assembly 6, wherein the mounting assembly 1 comprises two mounting plates 16 which are symmetrically arranged, an upper fixing frame 12 and a side fixing frame 15, a stamping assembly 2 is arranged in the middle of the upper end face of the upper fixing frame 12, an energy storage assembly 4 is connected to the inner wall face of the side fixing frame 15, the upper fixing frame 12 is fixedly arranged with the side fixing frame 15 and the mounting plates 16, a transportation assembly 3 is fixedly arranged on the outer surface of one end of each mounting plate 16, a recovery box 11 is arranged on the bottom side between the two mutually symmetrical mounting plates 16, an injection molding assembly 9 is arranged on the inner surface of the left side of each side fixing frame 15, a supporting plate 13 is arranged on one end face of each mounting plate 16 close to the energy storage assembly 4, a supporting plate 14 is arranged on the top side of each supporting plate 13, and a template groove 253 is formed in the surface of each supporting plate 14.

The mounting plate 16 is used for installing the first motor 31, and the recovery box 11 is used for collecting the former material that remains after the punching press is accomplished, and the topside of going up solid frame 12 is used for installing punching press subassembly 2 and makes the transportation subassembly remove the transportation, and the effect of the solid frame 15 of side is used for installing energy storage subassembly 4 and fixed injection molding subassembly 9, and backup pad 13 is used for fixed support board 14 in the punching press.

Further, as shown in fig. 3-6, the transport assembly 3 includes a first motor 31, an output end of the first motor 31 is connected with a main chain wheel 37, a chain 33 is engaged with a surface of the main chain wheel 37, a driving roller 32 is installed at one end of the main chain wheel 37, two driven rollers are connected to the inside of the chain 33 through the main chain wheel 37, the driven rollers are arranged at the rear side of the driving roller 32 and rotationally arranged on the mounting plates 16, three driven rollers 36 are rotationally connected between the two mounting plates 16 at the bottom side of the driving roller 32, a driving push roller 34 is connected to the other end of the inside of the chain 33 through the engaged main chain wheel 37, guide plates 35 are symmetrically installed on the surface of the driving push roller 34 in an up-down manner, and the guide plates 35 are arranged in a non-contact manner with the recovery box 11.

The first motor 31 is started to drive the main chain wheel 37 to rotate, the driving roller 32 and the driven roller fixedly connected with the main chain wheel 37 drive one driving roller 32 and two driven rollers to rotate through the chain 33, raw materials of the bottle opener are conveyed to the supporting plate 14 from the position between the driving roller 32 and the driven roller 36 which are far away from one end of the supporting plate 14, the raw materials are arranged among the driving roller 32, the driven roller and the driven roller 36, stamping is conducted above the supporting plate 14, after stamping is completed, the chain 33 drives the push roller 34 to rotate through driving the main chain wheel 37 on the push roller 34, so that the guide plate 35 on the push roller 34 is driven to rotate into a notch on the stamped raw materials, residual raw materials after stamping are guided into the recovery box 11 to be collected, and the raw materials are conveniently transported to the supporting plate 14 and enter the recovery box 11 to be collected through driving the push roller 34.

As shown in fig. 3-5, the stamping assembly 2 includes a first hydraulic cylinder 21, a hydraulic cylinder 22 is mounted on a bottom wall of a top side of the upper fixing frame 12, an output end of the first hydraulic cylinder 21 extends into the hydraulic cylinder 22, a stamping plate 28 is mounted on a bottom side of the hydraulic cylinder 22 through a plug rod, a lower pressing plate 29 is mounted on a surface of the plug rod, and first sliding rings 291 are mounted on two ends of the lower pressing plate 29.

The first hydraulic cylinder 21 is started to extend and retract the inside of the hydraulic cylinder 22 through a piston rod, so that the lower pressing plate 29 is driven to slide on the surface of the sliding rod 42 through the first sliding ring 291, and the pressing plate 28 is driven to press down on the template groove 253 to press and form the raw material on the supporting plate 14.

Further, as shown in fig. 3-9, the transferring assembly includes a first liquid outlet pipe 23 and a liquid inlet pipe 24, the first liquid outlet pipe 23 is installed at the top side of the outer surface of the hydraulic cylinder 22, the liquid inlet pipe 24 is installed at the bottom side of the outer surface of the hydraulic cylinder 22, the hydraulic motor 26 is installed in the upper fixed frame 12, the first liquid outlet pipe 23 and the liquid inlet pipe 24 are respectively connected with the liquid inlet and the liquid outlet of the hydraulic motor 26, the output end of the hydraulic motor 26 is installed with a threaded rod 261, the surface of the threaded rod 261 is in threaded connection with an outer screw cylinder 262, a cross groove 121 which is obliquely arranged at an angle of thirty degrees is formed in the top side of the upper fixed frame 12, one end of the outer screw cylinder 262 extends to the cross groove 121 and is internally connected with a sliding block, a connecting rod 251 is rotationally connected in the sliding block, an adsorption disc 252 _, connecting rod 251 is slidably arranged in the cross groove 121 through the sliding block, a movable gear 25 is installed at the top side of the connecting rod 251, a toothed plate 122 is installed on the side of the cross groove 121, and the height of the cross groove 121 away from the hydraulic motor 26 is greater than that of the hydraulic motor 26.

The first hydraulic cylinder 21 drives the hydraulic pressure inside the hydraulic cylinder 22 to flow into the hydraulic motor 26 through the flow inlet pipe 24 when the hydraulic cylinder 22 descends through a piston rod, the hydraulic motor 26 is powered to drive the threaded rod 261 on the output end of the hydraulic motor 26 to rotate so that the externally connected outer screw cylinder 262 stretches out, one end of the outer screw cylinder 262 extends into the cross notch 121 to push the sliding block, so that the connecting rod 251 rotationally connected inside the sliding block slides along the cross notch 121 formed in the upper fixing frame 12 at a thirty-degree angle, the adsorption disc 252 of the push connecting rod 251 moves along the cross notch 121 for a certain distance and then passes through the toothed plate 122, the moving gear 25 on the top side of the connecting rod 251 is horizontally arranged with the toothed plate 122, the moving gear 25 is driven to rotate, so that the adsorption disc 252 is reversed to the rear side and then moves for a certain distance, and the adsorption disc 252 flows into the hydraulic cylinder 22 through the first liquid outlet pipe 23 after flowing through the hydraulic motor 26 after being positioned on the upper side of the pickling assembly 8, and the adsorption disc 252 moves along with the bottle opener with the inclined track with different inclined heights at the two ends.

Further, as shown in fig. 5 to 10, one end inside the cross groove 121 is slidably connected with a first piston rod 274, the first piston cylinder 27 is installed inside one end of the upper fixed frame 12, one end of the first piston rod 274 extends to the inside of the first piston cylinder 27 through a spring, a first pressure release valve 271 is installed on the surface of one end of the first piston cylinder 27, a switch valve 272 is installed on the surface of the other end of the first pressure release valve 271, and a pushing rod 273 is installed inside the other end of the first piston cylinder 27 through a spring.

The moving gear 25 slides and extrudes the first piston rod 274 in the cross groove 121, the extruded gas is conveyed to the space between the first pressure release valve 271 and the switch valve 272 for storage, when the bottle opener after pickling needs to be pushed onto the injection molding plate 95, the switch valve 272 is opened to enable the internal air pressure to push the material pushing rod 273, meanwhile, the vacuum generator is closed to push the bottle opener adsorbed by the sucker on the telescopic rod 49 onto the injection molding plate 95, at the moment, the first pressure release valve 271 is opened for pressure release, the bottle opener is extended into the first piston cylinder 27 through the first piston rod 274 and the material pushing rod 273 to enable the bottle opener to automatically return to the inside through spring connection, and meanwhile, the bottle opener is conveniently pushed to be separated from the telescopic rod 49 when the bottle opener needs to be separated from the pickling assembly 8 to the injection molding assembly 9 in the later period.

Further, as shown in fig. 3-5, the energy storage component 4 includes a sliding tube 41, the sliding tube 41 is fixedly mounted with the bottom sides of two ends of the upper fixed frame 12, a sliding rod 42 is slidably connected in the sliding tube 41, the outer surface of the sliding rod 42 is fixedly mounted with a first sliding ring 291, a supporting leg 411 is fixedly mounted on the outer surface of the rear end of the mounting plate 16, a first air tube 44 is mounted on the top end of the supporting leg 411, the sliding rod 42 is slidably disposed in the first air tube 44, a first spring 43 is disposed on the outer surface of the first air tube 44, the first spring 43 is fixedly mounted with the supporting leg 411, a third one-way valve 410 is disposed on one side of the supporting leg 411, an air tube 46 is disposed on the other side of the supporting leg 411, a first one-way valve 45 is mounted on the surface of the air tube 46, the inner portion of the supporting leg 411 is communicated with the first air tube 44, the air tube 46 and the third one-way valve 410, and one end of the air tube 46 is connected with an energy storage tank 47.

The first slip ring 291 drives the sliding rod 42 to move in the sliding cylinder 41 and the first air cylinder 44 and the supporting leg 411, air pressure is supplied to the energy storage tank 47 through the first one-way valve 45 and the air pipe 46 when the supporting leg 411 moves, the third one-way valve 410 extends to the inside of the supporting leg 411 through a pipeline and is communicated with the first air cylinder 44, the third one-way valve 410 supplies air to the inside of the supporting leg 411, the top side of the sliding cylinder 41 and the upper fixing frame 12 are provided with vent holes, the stamping assembly 6 can stretch out and draw back up and down, air can be supplied to the inside of the energy storage tank 47 all the time, and the energy storage tank 47 is convenient to drive the bottle opener for pickling to perform up and down in different pools, and meanwhile, the first air cylinder 44 and the sliding cylinder 41 are kept with air.

Further, as shown in fig. 8 and 11, the energy storage tank 47 is fixedly mounted on the inner surface of the side fixing frame 15, an air pipe 46 extends to the inner portion of the energy storage tank 47 and is connected with an air passage 476, a first air cavity 471, a second air cavity 472, a third air cavity 473 and a fourth air cavity 474 are sequentially arranged in the energy storage tank 47, the air passage 476 extends to the first air cavity 471, the second air cavity 472, the third air cavity 473 and the fourth air cavity 474, a second one-way valve 475 is arranged in the air passage 476, a connecting pipe 478 is arranged between the first air cavity 471, the second air cavity 472, the third air cavity 473 and the fourth air cavity 474, a valve 477 is arranged on the outer surface of the connecting pipe 478, one end of the connecting pipe 478 penetrates through the valve 477 and the upper fixing frame 12 to be connected with a second air cylinder 48, a second pressure release valve 481 is arranged on the outer surface of the top side of the second air cylinder 48, a telescopic rod 49 is arranged in the bottom side of the second air cylinder 48, a sucker is arranged on the bottom side of the telescopic rod 49, a second spring is arranged on the bracket, and the second air cavity 473 is arranged on the bracket of the telescopic rod 49, and a branching position of the telescopic rod 49 is externally connected with a vacuum generator.

The air pipe 46 is respectively pressurized with the first air cavity 471, the second air cavity 472, the third air cavity 473 and the fourth air cavity 474 in the energy storage tank 47 through the air passage 476, so that the air pipe is stored in the air storage tank, the second one-way valve 475 is arranged so that the air pipe cannot flow back, the connecting pipe 478 is respectively communicated with the first air cavity 471, the second air cavity 472, the third air cavity 473 and the fourth air cavity 474, the valve 477 is arranged so that the air pipe adsorbs air and provides air to move up and down when adsorbing bottle opener and pickling, the fourth air cavity 474 releases the air in the air, the telescopic rod 49 is pushed to descend so that the sucking disc at the bottom contacts with the bottle opener, the vacuum generator at the bifurcation of 459 starts to enable the sucking disc on the telescopic rod 49 to adsorb the bottle opener, then the second pressure release valve 481 is enabled to rebound the telescopic rod 49 under the action of the second spring 491, the adsorption disc 252 is rotated to the supporting plate 14, the punched bottle opener moves in the inclined cross groove 121 through the connecting rod 251, the position where the air is extruded to contact with the bottle opener is adsorbed, then the air is adsorbed at the position where the bottle opener is adsorbed, the third air 473, the second air cavity and the second air cavity 471 sequentially releases the air pressure in turn, and the other pressure release the telescopic rod 49 is sequentially released.

When punching press and punching press later, can provide power for other subassemblies, be convenient for later stage drive other subassemblies and use, increase the linkage nature between the equipment.

Example 3

For further optimization of the bottle opener production equipment provided in the embodiment 2, specifically, as shown in fig. 10, 12, 14 and 17, the rotating assembly 6 includes a mounting cylinder 61, a fixing frame 64 is mounted on the inner top side of the mounting cylinder 61, a second motor 65 is fixedly mounted on the upper surface of the fixing frame 64, an output end of the second motor 65 is connected with a placing plate 89, an annular groove 62 is formed on the outer surface of the rotating assembly 6, and an inner opening 63 is formed in the annular groove 62;

Further, as shown in fig. 12, 13 and 16, the blanking assembly 7 is further included, the blanking assembly 7 includes a collecting box 71 and a second slip ring 75, the second slip ring 75 is rotatably disposed in the annular groove 62, a third spring 73 is fixedly mounted on an inner wall of the second slip ring 75, a supporting rod 72 is slidably connected to an inner portion of the second slip ring 75, a pulley 74 is connected to one end of the supporting rod 72 extending to the inner portion of the second slip ring 75, an end surface of the supporting rod 72 extending to the inner portion of the second slip ring 75 is connected to the second slip ring 75 through the third spring 73, and the second slip ring 75 is fixedly mounted on a rear surface of the washing box 83 and a rear surface of the acid washing box 81.

The second motor 65 on the internal fixing frame 64 of the mounting cylinder 61 is started to drive the placing plate 89 to rotate, the pickling component 8 and the injection molding component 9 on the placing plate 89 rotate along with the placing plate, the pickling component 8 and the injection molding component 9 rotate in the annular groove 62 through the second slip ring 75 during rotation, the pulley 74 connected through the support rod 72 in the second slip ring 75 slides in the annular groove 62, when the internal opening 63 is arranged in the sliding mode, the support rod 72 is driven to move downwards, the bottom plate of the bottom wall of the fixed injection molding plate 95 is driven to open a notch to slide the bottle opener out of the collecting box 71, the bottom plate of the bottom side of the fixed injection molding plate 95 is connected with the inside of the fixed injection molding plate 95 through a rotating shaft, and the top end of the support rod 72 is connected with the bottom plate of the bottom side of the fixed injection molding plate 95 in a rotating mode.

Further, as shown in fig. 12-14, the four end surfaces of the placing plate 89 are provided with a pickling assembly 8, the pickling assembly 8 comprises a pickling tank 81, a cleaning tank 83, a blowing tank plate 85 and a fixed injection molding plate 95, the top sides of the pickling tank 81 and the cleaning tank 83 are respectively provided with a pickling tank and a cleaning tank, the bottom walls of the pickling tank and the cleaning tank are provided with a blanking valve 82, the surfaces of the pickling tank 81 and the cleaning tank 83 are provided with an outer connecting pipe 84, the bottom side of the blowing tank plate 85 is provided with an electric heating fan 86, the output end of the electric heating fan 86 is provided with a conveying pipe 87, and the conveying pipe 87 extends to two sides of the inner wall of the blowing tank plate 85.

The energy storage component 4 drives the adsorbed bottle opener to move downwards to the pickling tank on the pickling tank 81 for pickling, then the rotating component 6 drives the placing plate 89 to rotate anticlockwise, the cleaning tank 83 is located at the bottom side of the pickled bottle opener, the energy storage component 9 moves downwards to the cleaning tank 83 for cleaning and rotates anticlockwise again, the energy storage component 9 moves downwards to the blowing groove plate 85 again, the electric heating fan 86 and the conveying pipe 87 output heat to blow the cleaned bottle opener, the fixed injection molding plate 95 is rotated to the bottom side of the blown bottle opener clockwise through the rotating component 6, the air in the bottle opener is released through the action of the first pressure relief valve 271 on the first piston cylinder 27 to push the pushing rod 273 to push the bottle opener to the fixed injection molding plate 95, and then the fixed injection molding plate 95 returns to the bottom side of the injection molding component 9 under the driving of the rotating component 6, the switch valve 272 is opened to release pressure, and the pushing rod 273 returns to the original position.

Further, as shown in fig. 8, 12, 13 and 15, the two sides of one end face of the fixed injection mold plate 95 are provided with the interfaces 951, the inside of the fixed injection mold plate 95 is provided with cooling holes for absorbing heat which are formed along with the shape of the fixed injection mold plate 95, two sides of the edge angle of the injection mold plate 95 are provided with the limiting columns 94, the outer surface of the top side of each limiting column 94 is connected with the movable injection mold plate 93, the surface of each movable injection mold plate 93 is provided with the limiting holes 98, the limiting holes 98 and the limiting columns 94 are arranged in a sliding manner, the injection mold assembly 9 comprises the positioning plate 91, the surface of the bottom end of the positioning plate 91 is provided with the second hydraulic cylinder 92, the output end of the second hydraulic cylinder 92 is fixedly connected with the movable injection mold plate 93 through a material pipe arranged on the top side of the movable injection mold plate 93, the other end of the surface of the side fixed frame 15 is provided with the material cylinder 97, the bottom side of the material cylinder 97 is provided with the material conveying pipe 96 through the control valve, and one end of the material conveying pipe 96 is communicated with the material pipe.

Further, as shown in fig. 4 and 15, a cooling component 5 is disposed on one side of the injection molding plate 95, the cooling component 5 includes a fixing leg 51, a cylinder 52 is mounted on the top side of the fixing leg 51, a connection plate 53 is mounted at an output end of the cylinder 52, a second liquid outlet pipe 55 and a liquid inlet pipe 54 are mounted inside two sides of the connection plate 53, and the second liquid outlet pipe 55 and the liquid inlet pipe 54 are connected with an interface 951.

During injection molding, the second hydraulic cylinder 92 is started to drive the movable injection mold plate 93 to descend, the limiting column 94 mounted on the fixed injection mold plate 95 slides in the limiting hole 98 during descending, then the movable injection mold plate 93 and the fixed injection mold plate 95 are in a closed state, the material in the charging barrel 97 is discharged into the material pipe on the top side of the movable injection mold plate 93 through the control valve and the material conveying pipe 96, and the heating component is mounted on the outer surface of the material pipe and is a heating component conventionally used on the existing injection molding machine, so that explanation and explanation are omitted, and then the material enters between the movable injection mold plate 93 and the fixed injection mold plate 95 for injection molding, and meanwhile, the air cylinder 52 on the fixed leg 51 pushes the connecting plate 53, so that the second liquid outlet pipe 55, the liquid inlet pipe 54 and the interface 951 are connected for cooling injection molding.

The bottle opener production process provided by the invention comprises the following using processes:

S1, feeding, namely conveying raw materials for manufacturing the bottle opener to a supporting plate 14 through a conveying assembly 3, wherein a template groove 253 formed in the supporting plate 14 enables a stamping assembly 2 to be manufactured into the bottle opener when being pressed down, meanwhile, the conveying assembly 3 is linked with a driving push roller 34, the driving push roller 34 is driven to rotate so that a guide plate 35 on the driving push roller 34 is buckled in a notch for stamping off raw materials to enable the guide plate 35 to be guided into a recovery box 11, and the collection and placement of waste materials are facilitated, and the raw materials are stainless steel coiled materials for manufacturing the bottle opener;

S2, stamping and forming a bottle opener, starting a stamping assembly 2, stamping raw materials conveyed to a supporting plate 14 to form the bottle opener, and when the bottle opener is stamped downwards or stamped upwards, supplying air to a first liquid outlet pipe 23 and a flow inlet pipe 24 by extruding air in a hydraulic cylinder 22, providing power for a hydraulic motor 26, starting the hydraulic motor 26 to drive a threaded rod 261 to rotate so as to enable an outer screw cylinder 262 to stretch and retract, driving a connecting rod 251 to move in a cross groove 121 obliquely arranged on an upper fixing frame 12, enabling the bottle opener adsorbed by an adsorption disc 252 to transfer after adsorption, simultaneously driving a movable gear 25 to slide in the cross groove 121, enabling the connecting rod 251 to move to transfer the adsorbed and stamped bottle opener to an acid cleaning assembly 8 after the movable gear 25 is in contact with a toothed plate 122 to enable the connecting rod 251 to reversely rotate, and extruding a first piston rod 274 when the movable gear 25 moves to the other end in the cross groove 121, enabling the first piston rod 274 to slide in the first piston cylinder 27 to supply pressure, limiting the pressure between a switch valve and a first pressure release valve 271, and pushing the bottle opener from the adsorption disc 252 to an injection molding assembly 9 after acid cleaning is completed;

S3, transferring the bottle opener, starting a second motor 65 on a fixing frame 64 in the rotating assembly 6 to drive a placing plate 89 to rotate in a ring groove 62 through a second slip ring 75, so as to drive a pickling tank 81, a cleaning tank 83 and a blowing tank 85 on the placing plate 89 to sequentially rotate clockwise to the bottom side of a telescopic rod 49 for processing, and then enabling the pickling tank 81, the cleaning tank 83 and the blowing tank 85 to rotate anticlockwise to return to the original positions, and enabling a fixed injection molding plate 95 to rotate to the bottom side of the telescopic rod 49 to place the bottle opener inside after anticlockwise rotation;

S4, energy is stored, the sliding rod 42 is driven to slide up and down in the sliding cylinder 41 and the first air cylinder 44 by the first sliding ring 291 in the process of lifting the punching assembly 2 up and down, the sliding rod 42 extrudes the first air cylinder 44 and the air in the supporting leg 411 to supply pressure to the energy storage tank 47 through the air pipe 46 in the sliding process, the air outside the air storage tank 44 is enabled to enter the first air cylinder 44 by the third one-way valve 410 arranged at one end of the supporting leg 411, the air on the air pipe 46 cannot flow back into the first air cylinder 44 and the supporting leg 411 by the first one-way valve 45, the telescopic rod 49 is firstly released by the first one-way valve 477 to be in contact with the bottle opener at the bottom side, meanwhile, the vacuum generator at the position where the telescopic rod 49 is separated is started to generate suction to adsorb the bottle opener, then the second pressure release valve 481 is started to release the air, the moving gear 25 returns to the original position by the second spring 491, then the adsorption disc 252 at the bottom side of the connecting rod 251 returns to the top side of the supporting plate 14, and finally the third air cavity 473, the second air cavity and the first air cavity 471 are electrically connected with the bottle opener 477 through the valve 477 respectively arranged at the position to be sequentially cleaned and dried;

S5, pushing materials, namely sequentially extending bottle openers on the telescopic rods 49 into a pickling tank on the top side of the pickling tank 81, a cleaning tank 83 and a blowing groove plate 85 by a third air cavity 473, a second air cavity 472 and a first air cavity 471, discharging pickling liquid from the bottom side of the pickling tank 81 by a discharging valve 82 through an outer connecting pipe 84, starting an electric heating fan 86 to generate heat to blow into the blowing groove plate 85 through a conveying pipe 87 when the pickling liquid enters the blowing groove plate 85, and pushing the pushing rods 273 to descend by opening a switching valve 272 so as to separate the adsorbed bottle openers from the telescopic rods 49 and drop the bottle openers onto the injection molding assembly 9;

S6, injection molding, namely, falling into a fixed injection molding plate 95 on the injection molding assembly 9, feeding a charging barrel 97, feeding the charging barrel into a material pipe connected with the movable injection molding plate 93 through a material conveying pipe 96, driving the movable injection molding plate 93 to move up and down by a limiting column 94, starting a second hydraulic cylinder 92 to push internal materials into a space sealed by the movable injection molding plate 93 and the fixed injection molding plate 95, enabling the movable injection molding plate 93 to enter a position, right in the fixed injection molding plate 95, of a handle of a bottle opener, wherein the length of the material conveying pipe 96 is the length of the material pipe sealed by the movable injection molding plate 93 and the fixed injection molding plate 95, and heating the raw materials in the material pipe;

S7, cooling, wherein a fixed leg 51 on a cooling assembly 5 supports an air cylinder 52 after the injection molding assembly 9 is subjected to injection molding, and the air cylinder 52 is started to drive a liquid inlet pipe 54 and a second liquid outlet pipe 55 on a connecting plate 53 to enter an interface 951 so as to cool the injection molding;

S8, collecting, when the rotating assembly 6 drives the placing plate 89 to rotate to the position of the inner opening 63 after injection molding is completed, the pulley 74 enters the inner opening 63, the supporting rod 72 moves towards the direction close to the pulley 74, the panel of the bottom wall of the fixed injection molding plate 95 rotates to enable the bottle opener of the inner injection molding to fall into the collecting box 71, at the moment, the third spring 73 is in an unfolding state, the pulley 74 is in a shrinkage state when the inside of the annular groove 62 rotates, and then the rotating assembly 6 drives the placing plate 89 to rotate to repeat the operation.

In the present invention, unless explicitly specified and limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally formed; may be mechanically connected, may be electrically connected or may be in communication with each other; either directly or indirectly, through intermediaries, or both, may be in communication with each other or in interaction with each other, unless expressly defined otherwise. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art according to the specific circumstances.

It is apparent that the above-described embodiments are only some embodiments of the present invention, but not all embodiments, and the preferred embodiments of the present invention are shown in the drawings, which do not limit the scope of the patent claims. This invention may be embodied in many different forms, but rather, embodiments are provided in order to provide a thorough and complete understanding of the present disclosure. Although the invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing description, or equivalents may be substituted for elements thereof. All equivalent structures made by the content of the specification and the drawings of the invention are directly or indirectly applied to other related technical fields, and are also within the scope of the invention.

Claims (4)

1. The bottle opener production equipment is characterized by comprising a mounting assembly (1) and a rotating assembly (6), wherein the mounting assembly (1) comprises two mounting plates (16) which are symmetrically arranged, an upper fixing frame (12) and a side fixing frame (15), a stamping assembly (2) is arranged in the middle of the upper end face of the upper fixing frame (12), an energy storage assembly (4) is connected with the inner wall face of the side fixing frame (15), the upper fixing frame (12) is fixedly mounted with the side fixing frame (15) and the mounting plates (16), and a transportation assembly (3) is fixedly mounted on the outer surface of one end of each mounting plate (16);

the stamping assembly (2) comprises a first hydraulic cylinder (21), a hydraulic cylinder (22) is installed on the bottom wall of the top side of the upper fixed frame (12), the output end of the first hydraulic cylinder (21) extends to the inside of the hydraulic cylinder (22), a stamping plate (28) is installed on the bottom side of the hydraulic cylinder (22) through a plug rod, a lower pressing plate (29) is installed on the surface of the plug rod, and first slip rings (291) are installed at two ends of the lower pressing plate (29);

The top side of the surface of the hydraulic cylinder (22) is provided with a first liquid outlet pipe (23), the bottom side of the outer surface of the hydraulic cylinder (22) is provided with a liquid inlet pipe (24), the inside of the upper fixed frame (12) is provided with a hydraulic motor (26), the first liquid outlet pipe (23) and the liquid inlet pipe (24) are respectively connected with a liquid inlet and a liquid outlet of the hydraulic motor (26), the output end of the hydraulic motor (26) is provided with a threaded rod (261), the surface of the threaded rod (261) is in threaded connection with an outer screw cylinder (262), one end of the outer screw cylinder (262) is connected with a connecting rod (251) through a sliding block, and the bottom end of the connecting rod (251) is provided with an adsorption disc (252);

The inside of going up solid frame (12) top side is offered and is cross groove (121) that inclines, the angle that connecting rod (251) was kept away from to cross groove (121) is greater than the angle that is close to connecting rod (251), connecting rod (251) are in the inside slip setting of cross groove (121), movable gear (25) are installed to the top side of connecting rod (251), pinion rack (122) are installed to the side of cross groove (121), the inside one end sliding connection of cross groove (121) has first piston rod (274), the internally mounted of going up solid frame (12) one end has first piston cylinder (27), the inside of first piston cylinder (27) is passed through to one end of first piston rod (274) through the spring extension, the surface mounting of first piston cylinder (27) one end has first relief valve (271), the surface mounting of the other end of first relief valve (271) has ooff valve (272), the inside of the other end of first piston cylinder (27) is equipped with ejector pin (273) through the spring;

The energy storage assembly (4) comprises a sliding cylinder (41), the sliding cylinder (41) is fixedly arranged at the bottom sides of two ends of the upper fixed frame (12), a sliding rod (42) is fixedly connected to the inside of the sliding cylinder (41) in a sliding manner, an air pipe (46) is arranged at the other side of the supporting leg (411), a first air cylinder (44) is arranged at the top end of the supporting leg (411), the sliding rod (42) is arranged in the first air cylinder (44) in a sliding manner, a first spring (43) is arranged at the outer surface of the first air cylinder (44), the first spring (43) is fixedly arranged with the supporting leg (411), a third one-way valve (410) is arranged at one side of the supporting leg (411), an air pipe (46) is arranged at the other side of the supporting leg (411), a first one-way valve (45) is arranged on the surface of the air pipe (46), and the inside of the supporting leg (411) is communicated with the first air cylinder (44), the air pipe (46) and the third one-way valve (410) are arranged at one end of the air pipe (46);

The utility model discloses a vacuum pump, including energy storage jar (47), side fixed frame (15), the inside fixed surface installation of energy storage jar (47), the inside that trachea (46) extend to energy storage jar (47) has air flue (476), the inside of energy storage jar (47) is equipped with first air cavity (471), second air cavity (472), third air cavity (473), fourth air cavity (474) in proper order, air flue (476) extends to first air cavity (471), second air cavity (472), third air cavity (473), the inside of fourth air cavity (474) is equipped with second check valve (475), be equipped with connecting pipe (478) between first air cavity (471), second air cavity (472), third air cavity (473), fourth air cavity (474), the surface of connecting pipe (478) is equipped with valve (477), the one end of connecting pipe (478) is passed valve (477) and is gone up and is fixed frame (12) and is connected with second air cavity (48), the inside of second air cavity (48) bottom side is equipped with second check valve (481), install extension rod (49) take place extension rod (49) and extension rod (491) extension rod (49) take place through extension rod.

2. A bottle opener production system for use with a bottle opener production facility as claimed in claim 1, comprising

The control system is used for controlling the detection module and the control module to detect, regulate and control all the equipment in the production process, so that the working sequence among the production equipment parts is operated step by step;

a control module for controlling the opening, operation and residence time of the various components in the apparatus;

the detection module is used for recording and monitoring the operation and the work of the production equipment parts at any time through the camera;

production detection, namely monitoring materials in each production process to record whether the produced materials have production problems and defects;

the characteristic reading is carried out, the material after the production process is shot, and simultaneously, the shot image and the graph at each position are read and recorded;

Feature comparison, namely comparing the images input in advance in the system by inputting the read images;

and (3) identifying the characteristics, and identifying and analyzing whether the patterns have problems and production defects after comparing.

3. The bottle opener production system of claim 2 further comprising

Detecting the system operation, namely detecting the operation system of each control equipment component;

The system self-checking is carried out, after the system is started, each module of the self-checking control equipment component is carried out before the system is not used for early detection;

Module inspection, wherein the inspection is carried out on the modules of each control device in the process of controlling the production device by using the system, and the modules are monitored at any time so as to reduce the occurrence of problems;

and the module analysis is used for analyzing the data inspected by the module, so that problems possibly occurring in advance are analyzed, and the later processing and the classification of the reasons for generating the problems are facilitated.

4. A bottle opener production system as recited in claim 3, further comprising

The error reporting module alarms at any time to stop production when production detection and system operation detection are in trouble;

Analyzing the data, and analyzing and classifying the reasons of the problems;

and error reports are generated after the reasons for generating problems are analyzed out, and the reports are generated for display reminding, so that the later-stage inspection and maintenance are facilitated.