CN219426105U - Bottle lid compression fittings - Google Patents

Abstract

The application relates to a bottle lid compression fittings relates to the technical field of automatic pressfitting lid equipment, and it includes the frame, installs feed assembly, drive assembly, the workstation that pushes down, closes station, unloading subassembly and detection component in the frame through the bolt. This application feed subassembly carries down the bottle lid and goes up the bottle lid to drive assembly, and make the top of going up the initial lock of bottle lid under the bottle lid, drive assembly carries out intermittent type to lower bottle lid and last bottle lid, press down station and spin station divide and press down bottle lid and last bottle lid and screw, improve the stability of lock down between bottle lid and the last bottle lid, reduce the risk that takes place to break away from between last bottle lid and the lower bottle lid, the unloading is carried out to the lower bottle lid and last bottle lid that the lock was accomplished to the unloading in-process, the lower bottle lid and last bottle lid that detect the subassembly and accomplish the lock, and reject down bottle lid and last bottle lid that will detect unqualified.

Description

Bottle lid compression fittings

Technical Field

The application relates to the technical field of automatic pressing cover equipment, in particular to a bottle cap pressing device.

Background

At present, the plastic packaging bottle is widely applied to the fields of food, medicine and chemical industry due to the advantages of portability, strong corrosion resistance and the like, is used as an outer package of liquid food, liquid medicine and chemical agents, and generally comprises a bottle body and a bottle cap, and the bottle cap is screwed on the bottle mouth of the bottle body to seal the bottle mouth.

The bottle cap in the related art comprises a lower bottle cap and an upper bottle cap, wherein the lower bottle cap and the upper bottle cap are matched through threads, and a through hole is formed in the lower bottle cap. In the liquid packaging flow processing process, liquid needs to be filled in a packaging bottle in advance, meanwhile, the lower bottle cap and the upper bottle cap need to be buckled, the buckled lower bottle cap and upper bottle cap are arranged at the bottle mouth of the plastic packaging bottle, a heat sealing machine is used for heat-sealing the bottle caps, and a labeling machine is used for labeling the bottle bodies to finish the packaging of the liquid. When the packaging bottle is used, the upper bottle cap is screwed off from the lower bottle cap, and liquid in the packaging bottle flows out through the through hole of the lower bottle cap, so that the packaging bottle can be conveniently filled with the liquid to be poured.

The assembly mode between the lower bottle cap and the upper bottle cap is pressing, the pressing device in the related art comprises an air cylinder and a pressing plate at the end part of the air cylinder, and the air cylinder drives the pressing plate to move towards the direction close to the upper bottle cap, so that the upper bottle cap is pressed on the lower bottle cap, and the lower bottle cap and the upper bottle cap are mutually buckled.

For the related art, the inventor finds that, because the matching mode between the lower bottle cap and the upper bottle cap is screw thread matching, the mode of pressing the lower bottle cap and the upper bottle cap by the pressing device can make part of the lower bottle cap and the upper bottle cap not fastened, and the upper bottle cap is easy to separate from the lower bottle cap.

Disclosure of Invention

In order to solve the problem that the buckling between the lower bottle cap and the upper bottle cap is not tight, the application provides a bottle cap pressing device.

The application provides a bottle lid compression fittings adopts following technical scheme:

the bottle cap pressing device comprises a frame, a driving assembly for intermittently driving a lower bottle cap and an upper bottle cap, and a pressing station and a screwing station which are arranged on the frame, wherein the pressing station and the screwing station are sequentially arranged along the movement direction of the driving assembly; the screwing station comprises a lifting driving piece fixedly installed on the frame, a lifting installation seat fixedly installed on an output shaft of the lifting driving piece, a screwing driving piece fixedly installed on the lifting installation seat and a screwing clamping jaw used for clamping and rotating an upper bottle cap, and the screwing clamping jaw is fixedly installed at the end part of the output shaft of the screwing driving piece.

Through adopting above-mentioned technical scheme, through setting up the spin station in the frame, the driving piece drive of screwing is screwed the clamping jaw and is kept rotating, and the lifting drive piece drive is screwed the driving piece and is screwed the clamping jaw and move to the direction that is close to the bottle lid, until the clamping jaw centre gripping is last the outer wall of bottle lid, the clamping jaw of screwing utilizes its rotation to screw down bottle lid and last bottle lid relatively, improves the stability of lock down between bottle lid and the last bottle lid, reduces the risk that takes place to break away from down between bottle lid and the lower bottle lid.

Optionally, a guide rod is fixedly installed on the frame, a guide hole is formed in the lifting installation seat, and the guide rod slides and penetrates through the guide hole.

Through adopting above-mentioned technical scheme, the in-process of motion is gone up and down the mount pad, goes up and down the mount pad itself and slides along the direction of guide bar, and the guide bar is to the guide effect of going up and down the mount pad, has improved the stability of lift mount pad in the motion in-process.

Optionally, the drive assembly includes fixed mounting in the frame bear the weight of the dish, rotate and install bear the weight of the epaxial rolling disc of dish and be used for the drive the rotatory carousel driving piece of rolling disc, lower bottle lid is arranged in bear on the dish, a plurality of bottle lid grooves have evenly been seted up to the periphery of rolling disc, lower bottle lid is arranged in the bottle lid inslot.

Through adopting above-mentioned technical scheme, the drive assembly during operation, lower bottle lid is arranged in the bottle lid inslot, and down the bottle lid is arranged in simultaneously on the loading disc, and the one end that the loading disc was kept away from to lower bottle lid is arranged in to last bottle lid, and carousel driving piece drive rolling disc intermittent type rotates, and the rolling disc drives down bottle lid and last bottle lid intermittent type rotation for lower bottle lid and last bottle lid are through pushing down the station and closing the station soon in proper order, and pushing down the station and closing the station soon and pushing down the bottle lid and go up the bottle lid soon.

Optionally, the pressing station includes a pressing driving piece fixedly installed on the frame and a pressing block fixedly installed at an end part of an output shaft of the pressing driving piece, and a driving direction of the pressing driving piece is along a direction approaching to or far from the upper bottle cap.

Through adopting above-mentioned technical scheme, when pushing down the station during operation, pushing down the driving piece and driving down the briquetting and pushing down the bottle lid, the effect of pushing down of briquetting down makes bottle lid and last bottle lid looks lock down, realizes the initial fastening down between bottle lid and the last bottle lid.

Optionally, the bottle cap feeding device further comprises a feeding assembly, the feeding assembly comprises a lower bottle cap feeding barrel and an upper bottle cap feeding barrel, the lower bottle cap feeding barrel and the upper bottle cap feeding barrel are fixedly installed on the frame, the lower bottle cap feeding barrel and the upper bottle cap feeding barrel are sequentially arranged along the driving direction of the driving assembly, and when the upper bottle cap is conveyed to the driving assembly from the upper bottle cap feeding barrel, the upper bottle cap is arranged above the lower bottle cap.

By adopting the technical scheme, the lower bottle cap feeding cylinder conveys the lower bottle cap to the bottle cap groove, the upper bottle cap feeding sleeve conveys the upper bottle cap to the rotating disc, and the upper bottle cap is arranged above the lower bottle cap; the feed assembly effects material delivery to the drive assembly.

Optionally, the discharge end of the upper bottle cap feeding cylinder is fixedly provided with an elastic pressing plate for stably pressing the upper bottle cap down on the lower bottle cap.

By adopting the technical scheme, the elastic pressing plate presses down the upper bottle cap output by the upper bottle cap discharging sleeve, so that the upper bottle cap is initially and stably buckled above the lower bottle cap.

Optionally, the automatic feeding device further comprises a feeding assembly, wherein the feeding assembly comprises at least two conveying rotating rollers fixedly installed on the frame, a conveying conveyer belt sleeved and connected between the two conveying rotating rollers and a conveying driving piece used for driving the conveying rotating rollers to rotate, the conveying driving piece is fixedly installed on the frame, and the conveying conveyer belt is arranged on one side of the bearing disc.

Through adopting above-mentioned technical scheme, when the unloading subassembly during operation, carry the driving piece to drive and carry the roller rotation, carry the roller to drive and carry the conveyer belt rotation, carry the conveyer belt to drive the pressfitting and spin and close the lower bottle lid that accomplishes and go up the bottle lid and leave the drive assembly position.

Optionally, still include detection component, detection component includes defective products detection sensor, fixed mounting be in shower nozzle and defective products containing box in the frame, defective products detection sensor with shower nozzle signal connection.

Through adopting above-mentioned technical scheme, through setting up detection component, detection component is used for detecting whether lower bottle lid and last bottle lid after the lock are qualified, and the shower nozzle is with unqualified lower bottle lid and last bottle lid blow down to the defective products containing box in collect.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the screwing station is arranged on the frame, the screwing driving piece drives the screwing clamping jaw to continuously rotate, the lifting driving piece drives the screwing driving piece and the screwing clamping jaw to move towards the direction close to the upper bottle cap until the screwing clamping jaw clamps the outer wall of the upper bottle cap, the screwing clamping jaw relatively screws the lower bottle cap and the upper bottle cap by utilizing the rotation of the screwing clamping jaw, the buckling stability between the lower bottle cap and the upper bottle cap is improved, and the risk of separation between the upper bottle cap and the lower bottle cap is reduced;

2. through setting up the drive assembly, the drive assembly works, the lower bottle cap is placed in the bottle cap groove, and the lower bottle cap is placed on the bearing disc at the same time, the upper bottle cap is placed at one end of the lower bottle cap far away from the bearing disc, the rotating disc drive part drives the rotating disc to intermittently rotate, the rotating disc drives the lower bottle cap and the upper bottle cap to intermittently rotate, so that the lower bottle cap and the upper bottle cap sequentially pass through the pressing station and the screwing station, and the pressing station and the screwing station press and screw the lower bottle cap and the upper bottle cap;

3. through setting up the elastic pressing plate, the elastic pressing plate pushes down the last bottle lid of last bottle lid ejection of compact sleeve output for go up the top of bottle lid initial stability lock under the bottle lid.

Drawings

Fig. 1 is a schematic overall structure of an embodiment of the present application.

Fig. 2 is a schematic structural view showing a screwing station according to an embodiment of the present application.

Reference numerals illustrate: 1. a frame; 2. a drive assembly; 21. a carrying tray; 22. a rotating disc; 23. a turntable driving member; 3. a pressing station; 31. pressing down the driving piece; 32. pressing the block; 4. a screwing station; 41. a lifting driving member; 42. lifting the mounting seat; 43. screwing the driving piece; 44. screwing the clamping jaw; 5. a guide rod; 6. a guide hole; 7. a bottle cap groove; 8. a feed assembly; 81. a feeding cylinder of the lower bottle cap; 82. feeding cylinder of upper bottle cap; 9. an elastic pressing plate; 10. a blanking assembly; 101. a conveying roller; 102. a conveyor belt; 103. a conveying driving member; 11. a detection assembly; 111. a defective product detection sensor; 112. a spray head; 113. defective product containing box.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-2.

The embodiment of the application discloses a bottle lid compression fittings.

Referring to fig. 1 and 2, a bottle cap pressing device includes a frame 1, a feeding assembly 8, a driving assembly 2, a pressing station 3, a screwing station 4, a discharging assembly 10 and a detecting assembly 11 which are mounted on the frame 1 through bolts.

The feeding component 8 conveys the lower bottle cap and the upper bottle cap to the driving component 2, the upper bottle cap is initially buckled above the lower bottle cap, the driving component 2 intermittently conveys the lower bottle cap and the upper bottle cap, the lower bottle cap and the upper bottle cap sequentially pass through the lower pressing station 3 and the screwing station 4, the lower pressing station 3 and the screwing station 4 respectively press-fit and screw the lower bottle cap and the upper bottle cap, the buckling stability between the lower bottle cap and the upper bottle cap is improved, the risk of detachment between the upper bottle cap and the lower bottle cap is reduced, finally the blanking component 10 outputs the buckled lower bottle cap and the upper bottle cap, the detection component 11 detects the lower bottle cap and the upper bottle cap, and rejects the unqualified lower bottle cap and the unqualified upper bottle cap.

The driving assembly 2 comprises a bearing disc 21 fixedly mounted on the frame 1 through bolts and a rotary disc driving piece 23 fixedly mounted on the bearing disc 21 through bolts, an output shaft of the rotary disc driving piece 23 penetrates out of the bearing disc 21, and the end part of the rotary disc driving piece 23 penetrating out of the bearing disc 21 is connected with a rotary disc 22 through a key. A plurality of bottle cap grooves 7 are evenly formed in the periphery of the rotating disc 22, and the number of the bottle cap grooves 7 in the embodiment of the application is 11.

The feeding assembly 8 comprises a lower bottle cap feeding cylinder 81 and an upper bottle cap feeding cylinder 82, wherein the lower bottle cap feeding cylinder 81 and the upper bottle cap feeding cylinder 82 are fixedly arranged on the frame 1 through bolts, and the lower bottle cap feeding cylinder 81 and the upper bottle cap feeding cylinder 82 are sequentially arranged along the rotation direction of the rotating disc 22.

The lower bottle cap feed cylinder 81 is horizontally arranged, the lower bottle cap feed cylinder 81 is arranged above the blanking assembly 10, the blanking assembly 10 conveys the lower bottle cap, the lower bottle cap penetrates through the lower bottle cap feed cylinder 81 to slide into the bottle cap groove 7, meanwhile, the lower bottle cap is arranged on the bearing disc 21, the rotary disc driving piece 23 drives the rotary disc 22 to rotate, and the rotary disc 22 drives the lower bottle cap to rotate along the rotation center of the rotary disc 22 until the lower bottle cap rotates to the output end of the upper bottle cap feed cylinder 82.

The upper bottle cap feeding cylinder 82 is obliquely arranged, so that the upper bottle cap slides to the rotating disc 22 under the action of gravity of the upper bottle cap, and the discharge end of the upper bottle cap feeding sleeve is fixedly provided with the elastic pressing plate 9 through a screw. The upper bottle cap feeding cylinder 82 conveys the upper bottle cap to the driving assembly 2, the upper bottle cap is arranged above the lower bottle cap at the discharge end of the upper bottle cap feeding cylinder 82, and meanwhile, the elastic pressing plate 9 presses down the upper bottle cap output by the upper bottle cap discharging sleeve, so that the upper bottle cap is initially and stably buckled above the lower bottle cap. The feed assembly 8 effects material delivery to the drive assembly 2.

The rotary disk 22 continues to rotate the lower and upper caps until the lower and upper caps are positioned at the press station 3. The pressing station 3 includes a pressing driving member 31 fixedly mounted on the frame 1 by bolts and a pressing block 32 connected to an output shaft end of the pressing driving member 31 by keys. In this embodiment, the pushing driving member 31 is a telescopic cylinder, and its own telescopic direction is a direction approaching or departing from the upper bottle cap.

When the lower bottle cap and the upper bottle cap are pressed by the pressing station 3, the pressing driving piece 31 drives the lower pressing block 32 to move towards the direction close to the upper bottle cap, and the lower pressing block 32 presses the upper bottle cap downwards, so that the lower bottle cap and the upper bottle cap are buckled, and initial fastening between the lower bottle cap and the upper bottle cap is realized.

The pressing station 3 and the screwing station 4 are sequentially arranged along the rotation direction of the rotating disc 22, the rotating disc 22 continuously drives the lower bottle cap and the upper bottle cap to rotate, and the lower bottle cap and the upper bottle cap are conveyed to the position of the screwing station 4 by the driving assembly 2. The welding is installed guide bar 5 on frame 1, and the station 4 that closes soon is including the lift drive piece 41 that welded mounting kept away from frame 1 tip at guide bar 5 and install the lift mount pad 42 with the output shaft tip at lift drive through the round pin axle, and in this embodiment of the application, lift drive piece 41 is flexible cylinder, has seted up guiding hole 6 on the lift mount pad 42, and guide bar 5 slides and wears to establish in guiding hole 6.

The lifting mounting seat 42 is fixedly provided with a screwing driving piece 43 through a bolt, and the end part of an output shaft of the screwing driving piece 43 is fixedly provided with a screwing clamping jaw 44 through a pin shaft.

When the screwing station 4 performs relative screwing on the lower bottle cap and the upper bottle cap, the lifting driving piece 41 drives the lifting installation seat 42 to move in the direction close to the upper bottle cap, the lifting installation seat 42 slides along the guiding direction of the guide rod 5, the guide rod 5 guides the movement path of the lifting installation seat 42, and the stability of the lifting installation seat 42 in the movement process is improved. The lifting mounting seat 42 moves downwards to drive the screwing driving piece 43 and the screwing clamping jaw 44 fixedly mounted on the screwing driving piece 43 to move together in the direction close to the upper bottle cap until the screwing clamping jaw 44 clamps the outer wall of the upper bottle cap, at the moment, the lower bottle cap is abutted against the bearing disc 21, and the screwing driving drives the screwing clamping jaw 44 to rotate so as to be matched with the bearing disc 21 to screw the lower bottle cap and the upper bottle cap relatively.

In order to improve the screwing efficiency between the lower cap and the upper cap, the screwing driving member 43 always drives the screwing jaw 44 to rotate. In addition, it is worth noting that in the process of moving the screwing clamping jaw 44 towards the direction close to the upper bottle cap, the screwing clamping jaw 44 can shrink and clamp the outer wall of the upper bottle cap, in the process of moving the screwing clamping jaw 44 towards the direction away from the upper bottle cap, the rotating clamping jaw can expand and separate from the upper bottle cap, so that the upper bottle cap is convenient to separate from the screwing clamping jaw 44, and the screwing clamping jaw 44 is in the prior art and is not described in detail.

The lower pressing station 3 is used for pressing the lower bottle cap and the upper bottle cap, the screwing station 4 is used for screwing the lower bottle cap and the upper bottle cap, the lower bottle cap and the upper bottle cap are combined, the stability of buckling between the lower bottle cap and the upper bottle cap is improved, and the risk of detachment between the upper bottle cap and the lower bottle cap is reduced.

The blanking assembly 10 is arranged at the rear side of the screwing station 4 along the rotation direction of the rotating disc 22, the blanking assembly 10 comprises at least two conveying rotating rollers 101 rotatably arranged on the frame 1 through bearings, and a conveying conveyor belt 102 and a conveying driving piece 103 are sleeved and connected between the two conveying rotating rollers 101. In this embodiment, the conveying driving member 103 is a rotary motor, which is fixedly mounted on the frame 1 through a bolt, and an output shaft of the rotary motor is in transmission connection with one conveying roller 101 through a coupling.

The conveying belt 102 is disposed at one side of the carrying tray 21, and one end of the conveying belt 102 is also disposed at the bottom of the lower cap supply cylinder 81, so that the lower caps are inputted into the cap groove 7 through the conveying belt 102. When the blanking assembly 10 works, the conveying driving piece 103 drives the conveying rotary roller 101 to rotate, the conveying rotary roller 101 drives the conveying conveyor belt 102 to rotate, and the conveying conveyor belt 102 drives the pressed and screwed lower bottle caps and upper bottle caps to leave the position of the driving assembly 2.

The detecting assembly 11 is arranged on the periphery of the blanking assembly 10, the detecting assembly 11 comprises a defective product detecting sensor 111, a spray head 112 and a defective product containing box 113 which are installed on the frame 1 through bolts and are connected to the frame 1 in a sliding mode, the defective product detecting sensor 111 is connected with the spray head 112 in a signal mode, the defective product containing box 113 and the spray head 112 are respectively arranged on two sides of the conveying conveyor belt 102, and the defective product containing box 113 is arranged on one side of the conveying conveyor belt 102 in the gravity direction.

The defective product detection sensor 111 detects the fastened lower bottle cap and upper bottle cap, and is used for checking whether the lower bottle cap and the upper bottle cap are damaged in the assembly process, and the lower bottle cap and the upper bottle cap which are qualified in detection are directly output through the blanking assembly 10. When the defective product detection sensor 111 detects a defective product, the defective product detection sensor 111 blows the product on the conveying belt 102 into the defective product storage box 113, and quality detection of the lower bottle cap and the upper bottle cap is achieved.

The implementation principle of the bottle cap pressing device of the embodiment of the application is as follows: the feeding component 8 conveys the lower bottle cap and the upper bottle cap to the driving component 2, and enables the upper bottle cap to be initially buckled above the lower bottle cap, the driving component 2 intermittently conveys the lower bottle cap and the upper bottle cap, the lower pressing station 3 and the screwing station 4 respectively press-fit and screw the lower bottle cap and the upper bottle cap, stability of buckling between the lower bottle cap and the upper bottle cap is improved, risks of detachment between the upper bottle cap and the lower bottle cap are reduced, the blanking component 10 performs blanking on the buckled lower bottle cap and the upper bottle cap, and in the blanking process, the detecting component 11 detects the buckled lower bottle cap and the upper bottle cap, and rejects the lower bottle cap and the upper bottle cap which are unqualified in detection.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (8)

1. The utility model provides a bottle lid compression fittings which characterized in that: the bottle cap screwing machine comprises a frame (1), a driving assembly (2) for intermittently driving a lower bottle cap and an upper bottle cap, and a pressing station (3) and a screwing station (4) which are arranged on the frame (1), wherein the pressing station (3) and the screwing station (4) are sequentially arranged along the movement direction of the driving assembly (2); the screwing station (4) comprises a lifting driving piece (41) fixedly installed on the frame (1), a lifting installation seat (42) fixedly installed on an output shaft of the lifting driving piece (41), a screwing driving piece (43) fixedly installed on the lifting installation seat (42) and a screwing clamping jaw (44) for clamping and rotating an upper bottle cap, and the screwing clamping jaw (44) is fixedly installed at the end part of the output shaft of the screwing driving piece (43).

2. The bottle cap pressing device according to claim 1, wherein: the lifting device is characterized in that a guide rod (5) is fixedly installed on the frame (1), a guide hole (6) is formed in the lifting installation seat (42), and the guide rod (5) is slidably arranged in the guide hole (6).

3. The bottle cap pressing device according to claim 1, wherein: the driving assembly (2) comprises a bearing disc (21) fixedly installed on the frame (1), a rotating disc (22) rotatably installed on the bearing disc (21) and a rotary disc driving piece (23) for driving the rotating disc (22) to rotate, wherein a lower bottle cap is arranged on the bearing disc (21), a plurality of bottle cap grooves (7) are uniformly formed in the periphery of the rotating disc (22), and the lower bottle cap is arranged in the bottle cap grooves (7).

4. The bottle cap pressing device according to claim 1, wherein: the pressing station (3) comprises a pressing driving piece (31) fixedly installed on the frame (1) and a pressing block (32) fixedly installed at the end part of an output shaft of the pressing driving piece (31), and the driving direction of the pressing driving piece (31) is along the direction close to or far away from the upper bottle cap.

5. The bottle cap pressing device according to claim 1, wherein: still include feed assembly (8), feed assembly (8) include lower bottle lid feed cylinder (81) and go up bottle lid feed cylinder (82), lower bottle lid feed cylinder (81) with go up bottle lid feed cylinder (82) all fixed mounting is in on frame (1), lower bottle lid feed cylinder (81) with go up bottle lid feed cylinder (82) are followed the drive direction of drive assembly (2) sets gradually, when last bottle lid is carried to drive assembly (2) from last bottle lid feed cylinder (82), go up the bottle lid and arrange in the top of lower bottle lid.

6. The bottle cap pressing device according to claim 5, wherein: the discharge end of the upper bottle cap feeding cylinder (82) is fixedly provided with an elastic pressing plate (9) for stably pressing the upper bottle cap down on the lower bottle cap.

7. A bottle cap pressing device according to claim 3, wherein: still include unloading subassembly (10), unloading subassembly (10) are including fixed mounting at least two transport roller (101) on frame (1), cover establish and connect transport conveyer belt (102) between two transport roller (101) and be used for the drive transport roller (101) pivoted transport driving piece (103), transport driving piece (103) fixed mounting is in on frame (1), transport conveyer belt (102) are arranged in one side of loading tray (21).

8. The bottle cap pressing device according to claim 1, wherein: the automatic detecting device is characterized by further comprising a detecting assembly (11), wherein the detecting assembly (11) comprises a defective product detecting sensor (111), a spray head (112) fixedly installed on the frame (1) and a defective product containing box (113), and the defective product detecting sensor (111) is in signal connection with the spray head (112).