CN113059358A

CN113059358A - Water filtering disc feeding mechanism

Info

Publication number: CN113059358A
Application number: CN202011574975.7A
Authority: CN
Inventors: 卢应志; 丁阳; 唐鸣; 张航宇
Original assignee: Wuxi Dingjia Hongsi Drinks Technology Co ltd
Current assignee: Wuxi Dingjia Hongsi Drinks Technology Co ltd
Priority date: 2020-01-02
Filing date: 2020-12-28
Publication date: 2021-07-02
Also published as: CN113059360A; CN215393721U; CN113059359B; CN110919387A; CN113059359A; CN214212903U; CN214212904U; CN214489602U

Abstract

The invention discloses a water filtering disc feeding mechanism which comprises a storage bin for storing a water filtering disc, a vibrating disc for realizing ordered conveying of the water filtering disc, a feeding track and a dividing and placing device, wherein a discharge hole of the storage bin is connected with a feed hole of the vibrating disc, an inlet of the feeding track is connected with a discharge hole of the vibrating disc, a feed hole of the dividing and placing device is connected with an outlet of the feeding track, the dividing and placing device comprises a dividing frame, a positioning assembly and a transferring assembly, the positioning assembly and the transferring assembly are arranged on the dividing frame, and the transferring assembly is driven by an air cylinder to move up and down. The water filtering disc feeding mechanism provided by the invention realizes the continuous feeding of the water filtering disc by arranging the indexing placement device and sequentially and repeatedly circulating, thereby realizing the automatic upgrading of the feeding of the water filtering disc and having the characteristics of high efficiency and strong safety.

Description

Water filtering disc feeding mechanism

Technical Field

The invention relates to the technical field of capsule coffee production equipment, in particular to a feeding mechanism of a water filtering disc.

Background

With the continuous pursuit of people on the taste of the beverage and the emphasis on the convenience of carrying, storing, extracting and the like of the beverage, the beverage is processed into the beverage capsule which is convenient to store and carry. The capsule coffee is a capsule beverage, and is prepared by grinding coffee beans into coffee powder and then filling the coffee powder into an aluminum capsule, so that the problems of acid change, oxidation and the like of common coffee beans or coffee powder after contacting air are solved.

The automatic capsule coffee production device can be produced at the same time. Chinese patent application No. 201720640358X discloses an automatic coffee cup assembly hot melting machine, which further discloses a water filtering disc feeding mechanism, which comprises a water filtering disc feeding device, a water filtering disc dislocation material moving device and a water filtering disc clamping device, wherein the water filtering disc dislocation material moving device is vertically arranged at a discharge port of the water filtering disc feeding device, and the water filtering disc clamping device is arranged at a discharge side of the water filtering disc dislocation material moving device. Above-mentioned coffee cup automatic assembly hot melt machine adopts traditional mechanical type to press from both sides and gets, the mode of single material loading carries out the drainage dish material loading, and stability is not high and process efficiency is low.

Disclosure of Invention

The invention aims to solve the problems that the existing water filtering disc feeding mechanism is low in stability and low in process efficiency.

The purpose of the invention is realized by the following technical scheme:

a filter tray feed mechanism comprising: a vibration dish, feeding track and graduation placer for depositing the feed bin of water filter dish, be used for realizing that water filter dish carries in order, the drain hole of feed bin with the feed inlet of vibration dish links to each other, orbital import of feeding with the discharge gate of vibration dish links to each other, graduation placer's pan feeding mouth with the orbital export of feeding links to each other, graduation placer include the graduation frame, set up in locating component on the graduation frame and transfer the subassembly, transfer the subassembly and reciprocate in order to realize by the cylinder drive.

As a preferable scheme of the present invention, a linear vibrator is disposed at a lower portion of the feeding rail, and an air blowing pipe is disposed at an outlet of the feeding rail.

As a preferable scheme of the present invention, the positioning assembly includes a chassis, a rotary table and a partition plate, the chassis is fixed on the index frame, a blind groove is formed on an upper end surface of the chassis, the rotary table is rotatably disposed in the blind groove, and the partition plate is slidably connected to a lower portion of the chassis.

As a preferable scheme of the invention, one end of the chassis is provided with a feeding port communicated with the blind groove, and the feeding port is connected with an outlet of the feeding track.

As a preferable scheme of the invention, a plurality of positioning grooves for positioning the water filtering disc are uniformly distributed on the outer edge of the rotary disc.

As a preferable scheme of the invention, at least one blanking through hole is formed in the blind groove on the upper end surface of the chassis, the blanking through hole is located at the outer edge of the blind groove, and the blanking through hole corresponds to the positioning groove.

In a preferred embodiment of the present invention, the turntable is driven to rotate by a rotation driving mechanism, and the partition plate is driven by a partition cylinder.

In a preferred embodiment of the present invention, the rotary drive mechanism includes a rotary servomotor and a rotary reduction gear, an output shaft of the rotary servomotor is drivingly connected to an input shaft of the rotary reduction gear, and the turntable is connected to an output shaft of the rotary reduction gear.

As a preferable scheme of the present invention, the transfer assembly includes a lifting plate located above the turntable, the lifting plate is driven by a double-stroke cylinder to move up and down, and a vacuum suction head for sucking the water filtering disc is installed at a lower end of the lifting plate.

As a preferred scheme of the invention, the water filtering disc feeding mechanism is mounted on a frame, a chain plate conveying line is mounted on the frame, eight stations are arranged on the frame along the conveying direction of the chain plate conveying line, and sequentially comprise a cup falling station, a punching station, an aluminum foil punching and welding station, an aluminum foil secondary welding station, a water filtering disc placing station, a water filtering disc welding station, a filter paper punching and welding station and a sorting station, and the water filtering disc feeding mechanism corresponds to the water filtering disc placing station and is used for placing the water filtering disc at the bottom of the cup body.

The water filtering disc feeding mechanism has the advantages that the water filtering disc feeding mechanism provided by the invention realizes continuous feeding of the water filtering disc by arranging the indexing placement device and sequentially circulating in a reciprocating manner, so that the automatic upgrading of the feeding of the water filtering disc is realized, and the water filtering disc feeding mechanism has the characteristics of high efficiency and high safety.

Drawings

FIG. 1 is a schematic view of a capsule coffee cup preconditioner;

FIG. 2 is a schematic structural view of the cup holder assembly;

FIG. 3 is a front view of the cup dropping apparatus;

FIG. 4 is a side view of the cup dropping apparatus;

FIG. 5 is a bottom view of a cup dropping apparatus;

FIG. 6 is a schematic structural view of a first cutter;

FIG. 7 is a schematic structural view of a punching apparatus;

FIG. 8 is an enlarged cross-sectional view of the punch apparatus shown in FIG. 7 at A;

FIG. 9 is a front view of the die cut welding apparatus;

FIG. 10 is a side view of the die cut welding apparatus;

FIG. 11 is a cross-sectional view of the diecut welding apparatus;

FIG. 12 is an enlarged view of the die-cut welding apparatus shown in FIG. 9 at B;

fig. 13 is a schematic structural view of a water filtering disc feeding mechanism;

fig. 14 is a schematic view of the structure of the indexing placement device.

In the figure:

1. a frame; 2. a cup falling device; 3. a punching device; 4. a first die cutting and welding device; 5. an aluminum foil secondary welding device; 6. a water filtering disc feeding mechanism; 7. a water filter disc welding device; 8. a second die cutting and welding device; 9. a sorting device;

101. a cup holder; 102. a cup stand fixing plate; 103. a cup holder; 104. a lifting cylinder;

201. the cup falling frame; 202. a cup storage cylinder; 203. a feed chute; 204. an upper cup cylinder; 205. a baffle plate; 206. a moving cylinder; 207. a movable frame; 208. a first cutting board; 209. a second cutter plate; 210. a first cutter; 211. and a second cutter.

301. Punching a hole frame; 302. a punch fixing plate; 303. a lifting servo motor; 304. a lifting speed reducer; 305. a drive shaft; 306. a crank; 307. a connecting rod; 308. a fixed seat; 309. a punch holder; 310. a punch; 311. a limiting block; 312. a spring; 313. pressing the cup cover;

401. punching and welding the bracket; 402. a base plate; 403. a lifting seat; 404. pressing a plate; 405. a first adjusting cylinder; 406. a heat insulating sleeve; 407. a third adjusting cylinder; 408. a lifting drive motor; 409. a drive shaft; 410. a transmission block; 411. a knuckle bearing; 412. a connecting rod; 413. a first guide roller; 414. a second guide roller; 415. a film guide servo motor; 416. a film cutter; 417. a welding head; 418. a second adjusting cylinder; 419. a film cutting knife seat.

501. A storage bin; 502. a vibrating pan; 503. a feed rail; 504. a linear vibrator; 505. indexing placement means; 506. a dividing frame; 507. a chassis; 508. a turntable; 509. a partition plate; 510. rotating the servo motor; 511. a rotary speed reducer; 512. positioning a groove; 513. a separation cylinder; 514. a lifting plate; 515. a double-stroke cylinder; 516. a vacuum chuck.

Detailed Description

To facilitate an understanding of the invention, the invention will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete. It will be understood that when an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

Referring to fig. 1 and 2, fig. 1 is a schematic structural view of a capsule coffee cup body preprocessor; FIG. 2 is a schematic view of the structure of the cup holder assembly.

In this embodiment, the present invention provides a capsule coffee cup preprocessor, comprising:

the cup hanging machine comprises a frame 1, wherein a chain plate conveying line is installed on the frame 1, a cup hanging through hole for hanging a cup body is formed in a chain plate of the chain plate conveying line, eight stations are arranged on the frame 1 along the conveying direction of the chain plate conveying line, and the eight stations sequentially comprise a cup falling station, a punching station, an aluminum foil punching welding station, an aluminum foil secondary welding station, a water filtering disc placing station, a water filtering disc welding station, a filter paper punching welding station and a sorting station;

the cup falling device 2 is arranged on the frame 1, corresponds to the cup falling station and is used for separating the stacked cup bodies and enabling the separated cup bodies to fall into the cup hanging through holes;

the punching device 3 is arranged on the frame 1, corresponds to the punching station and is used for punching a hole in the bottom of the cup body;

the first punching and welding device 4 is arranged on the frame 1, corresponds to the aluminum foil punching and welding station, and is used for punching the aluminum foil and welding the aluminum foil and the cup body;

the secondary aluminum foil welding device 5 is arranged on the rack 1, corresponds to the secondary aluminum foil welding station and is used for performing repair welding on the product welded with the aluminum foil;

the water filtering disc feeding mechanism 6 is arranged on the frame 1, corresponds to the water filtering disc placing station and is used for placing the water filtering disc at the bottom of the cup body;

the water filtering disc welding device 7 is arranged on the frame 1, corresponds to the water filtering disc welding station and is used for welding the water filtering disc and the cup body;

the second punching and welding device 8 is arranged on the frame 1, corresponds to the filter paper punching and welding station, and is used for punching the filter paper and welding the filter paper and the cup body;

the sorting device 9 is arranged on the rack 1, corresponds to the sorting station and is used for sorting the cup bodies;

the cup falling station, the station of punching a hole the die-cut welding station of aluminium foil the aluminium foil secondary welding station the strainer dish welding station the die-cut welding station department of filter paper all is provided with the support cup subassembly, the support cup subassembly includes support cup frame 101, saucer fixed plate 102 and is used for the saucer 103 of the fixed cup in location, install on the support cup frame 101 and be used for driving the lift cylinder 104 that saucer fixed plate 102 reciprocated, saucer 103 is fixed in on the saucer fixed plate 102.

A first photoelectric sensor for detecting whether a cup body falls into a cup hanging through hole or not is arranged between the cup falling station and the punching station on the frame 1, a second photoelectric sensor for detecting whether a hole at the bottom of the cup body is complete or not is arranged between the punching station and the aluminum foil punching welding station on the frame 1, a third photoelectric sensor for detecting whether an aluminum foil is completely welded on the cup body or not is arranged between the aluminum foil punching welding station and the aluminum foil secondary welding station on the frame 1, a first visual detection device for detecting welding concentricity and aluminum foil surface condition is arranged between the aluminum foil secondary welding station and the water filter disc placing station on the frame 1, and a detection assembly for detecting whether a water filter disc exists in the cup body or not is arranged between the water filter disc placing station and the water filter disc welding station on the frame 1, the detection assembly comprises a detection cylinder, a high-position photoelectric sensor and a low-position photoelectric sensor, wherein the high-position photoelectric sensor and the low-position photoelectric sensor are used for sensing the position of the detection cylinder, the rack 1 is positioned on a filter paper punching welding station and a second visual detection device used for detecting the welding concentricity and the surface condition of the filter paper is arranged between sorting stations, and the rack 1 is positioned on the second visual detection device and an ultraviolet lamp used for disinfecting a cup body is arranged between the sorting stations.

Referring to fig. 3 to 6, fig. 3 is a front view of the cup dropping device; FIG. 4 is a side view of the cup dropping apparatus; FIG. 5 is a bottom view of a cup dropping apparatus; FIG. 6 is a schematic structural view of a first cutter; in this embodiment, the cup dropping device 2 includes a cup dropping frame 201, a cup storage cylinder 202, an upper cup cylinder 204 and a cup distributing assembly, the cup storage cylinder 202 is vertically disposed on the cup dropping frame 201, a feeding slot 203 for a cup to enter is opened on a side wall of the cup storage cylinder 202, a cup dropping through hole is opened at a lower end of the cup storage cylinder 202, the upper cup cylinder 204 is obliquely disposed on the cup dropping frame 201, an inclination angle of the upper cup cylinder 204 is 50 to 70 °, a baffle 205 is disposed at a lower end of the upper cup cylinder 204, an upper end of the upper cup cylinder 204 is communicated with the feeding slot 203, the cup distributing assembly includes a moving frame 207, a moving cylinder 206 for driving the moving frame 207 to reciprocate linearly, and a first cutter plate 208 and a second cutter plate 209 symmetrically disposed on the moving frame 207, a moving direction of the moving frame 206 is defined as a first direction, and a direction perpendicular to the first direction in the same plane is defined as a second direction, first cutter board 208 is in on the second direction neighbouring one side of second cutter board 209 is provided with 2 first cutter groups, first cutter group is including 2 first cutters 210 of horizontal arrangement, 2 first cutters 210 follow first direction arranges in proper order, just 2 first cutters 210 stagger the distribution on vertical direction, second cutter board 209 is in on the second direction neighbouring one side of first cutter board 208 is provided with 2 second cutter groups, 2 second cutter groups with 2 first cutter groups one-to-one, second cutter group is including 2 second cutters 211 of horizontal arrangement, 2 second cutters 211 with 2 first cutters 210 one-to-one distribution.

In this embodiment, in order to ensure smooth cup separation, the end of the first cutter 210 and the end of the second cutter 211 are both provided with a guiding inclined portion which is convenient to insert into a gap between adjacent cup bodies.

When the cup dropping device 2 works, the cups in the upper cup cylinder 204 are pushed into the cup storage cylinder 202 manually, the stacked cups drop through the cup dropping through holes and are matched with each other by the first cutter 210 positioned on the upper part of the first cutter plate 208 and the second cutter 211 positioned on the upper part of the second cutter plate 209 to realize support, then the moving cylinder 206 drives the moving frame 207 to move rightwards, the first cutter plate 208 and the second cutter plate 209 move rightwards together, the stacked cups continuously drop, and are matched with each other by the first cutter 210 positioned on the lower part of the first cutter plate 208 and the second cutter 211 positioned on the lower part of the second cutter plate 209 to realize support, then the moving cylinder 206 drives the moving frame 207 to move leftwards to reset, at the moment, the first cutter 210 positioned on the upper part of the first cutter plate 208 and the second cutter 211 positioned on the upper part of the second cutter plate 209 are inserted into the gaps of the adjacent cups to support the stacked cups, meanwhile, as the first cutter 210 positioned at the lower part of the first cutter plate 208 and the second cutter 211 positioned at the lower part of the second cutter plate 209 move leftwards, at this time, the lowermost cup body is not supported and falls freely under the action of gravity, and meanwhile, the lifting cylinder 104 of the cup supporting assembly is started to drive the cup support 103 to move upwards to catch the falling cup body, and the cup body falls into the cup support 103 and is tightly adsorbed by the suction head for subsequent use.

Referring to fig. 7 and 8, fig. 7 is a schematic structural view of a punching device; FIG. 8 is an enlarged cross-sectional view of the punch apparatus shown in FIG. 7 at A; in this embodiment, the punching device 3 includes a punching frame 301, a punch fixing plate 302 is disposed on an upper portion of the punching frame 301 to be movable up and down, a lifting servo motor 303 is mounted on the punching frame 301, an output end of the lifting servo motor 303 is in transmission connection with an input end of a lifting speed reducer 304, an output end of the lifting speed reducer 304 is in transmission connection with a driving shaft 305, 2 cranks 306 are symmetrically disposed on the driving shaft 305, one end of each crank 306 is fixed on the driving shaft 305, the other end of each crank 306 is hinged to one end of a connecting rod 307, the other end of each connecting rod 307 is hinged to a fixing seat 308, the fixing seat 308 is fixedly connected to the punch fixing plate 302, a punch seat 309 is mounted on a lower end surface of the punch fixing plate 302, a punch 310 is mounted on a lower end surface of the punch seat 309, and a limiting block 311 is fixed, a spring 312 is sleeved on the upper portion of the punch 310, a cup pressing cover 313 is arranged on the punch 310 and can move up and down between the limiting block 311 and the spring 312, the upper end of the spring 312 is pressed against the punch seat 309, and the lower end of the spring 312 is pressed against the cup pressing cover 313.

Specifically, in this embodiment, the cross section of the lower end of the punch 310 is an inverted V-shaped structure, so that the punching pressure can be increased, and burrs are prevented from being generated.

Specifically, in this embodiment, 2 linear guide rails are symmetrically arranged on the punching frame 301, the linear guide rails are arranged along the vertical direction, the punch fixing plate 302 is slidably connected to the upper portion of the linear guide rails, the cup holder fixing plate 102 of the cup holder assembly at the punching station is slidably connected to the lower portion of the linear guide rails, 2 guide rods are also symmetrically arranged on the punching frame 301, the guide rods are arranged along the vertical direction, and guide sleeves matched with the guide rods are fixedly connected to the punch fixing plate 302 and the cup holder fixing plate 102 of the cup holder assembly at the punching station; by adopting the structure, the positioning precision can be effectively ensured, so that the punching precision of the punching device 3 is ensured.

Specifically, in this embodiment, a waste material channel is formed in a position, corresponding to the punch 310, of the cup holder 103 of the cup holder assembly at the punching station, a waste material box for collecting waste materials is fixedly connected to the cup holder fixing plate 102, and the waste material box is communicated with the waste material channel; through adopting above-mentioned structure, can effectively collect the waste material of die-cut getting off.

In order to prevent the scraps after punching from adhering to the punch 310, in this embodiment, the punch 310 has a hollow structure, and an elastic rod for preventing the scraps from adhering to the punch is disposed in the hollow structure.

When the punching device 3 works, the lifting servo motor 303 is started to drive the punch fixing plate 302 to move downwards, meanwhile, the lifting cylinder 104 of the cup supporting assembly drives the cup supporting fixing plate 102 to move upwards so as to drive the cup support 103 to move upwards, the cup support 103 drives the cup body on the chain plate to move upwards together, the cup pressing cover 313 is firstly contacted with the cup body in the downward moving process of the punch fixing plate 302, the cup pressing cover 313 does not move and the punch 310 continues to move downwards in the downward moving process, the cup pressing cover 313 fixes the cup body under the action of the compression of the spring 312, the punch 310 continues to move downwards for punching, after the punching action is completed, the lifting cylinder 104 of the cup supporting assembly moves downwards to reset so as to drive the cup supporting fixing plate 102 to move downwards and enable the cup support 103 on the cup supporting fixing plate to be separated from the cup body, the lifting servo motor 303 drives the punch fixing plate 302 to move upwards, under the spring force of the spring 312, the cup pressing cover 313 separates the cup from the punch 310.

Referring to fig. 9 to 12, fig. 9 is a front view of the die-cutting and welding device; FIG. 10 is a side view of the die cut welding apparatus; FIG. 11 is a cross-sectional view of the diecut welding apparatus; FIG. 12 is an enlarged view of the die-cut welding apparatus shown in FIG. 9 at B; in this embodiment, the first die-cut welding device 4 and the second die-cut welding device 8 have the same structure, and specifically include a die-cut welding support 401, a die-cut welding device located in the die-cut welding support 401, and a film guide device for guiding a film, the film guide device includes a film receiving roller, a first guide roller 413, a second guide roller 414, and a film guide servo motor 415, the film receiving roller is rotatably connected to the upper portion of the die-cut welding support 401, the film receiving roller is driven by the film guide servo motor 415 to rotate, the first guide roller 413 is located at the front end of the die-cut welding support 401, the second guide roller 414 is located at the rear end of the die-cut welding support 401, a bottom plate 402 having a limiting effect is arranged below the die-cut welding device in the die-cut welding support 401, the die-cut welding device includes a film pressing assembly, a film cutting assembly, a welding assembly, a lifting seat 403, and a lifting driving mechanism for driving the lifting seat 403 to move up and down, the lifting driving mechanism comprises a lifting driving motor 408, a driving shaft 409, a transmission block 410 and a connecting rod 412, the connecting rod 412 is fixed on the lifting seat 403, the driving shaft 409 is rotatably installed on the punching welding support 401, the driving shaft 409 is driven to rotate by the lifting driving motor 408, the transmission block 410 is fixed on the driving shaft 409, one end of the transmission block 410 is connected with the connecting rod 412 through a joint bearing 411, the film pressing component comprises a pressing plate 404 and a first adjusting cylinder 405, the first adjusting cylinder 405 is fixed on the lifting seat 403, a piston rod of the first adjusting cylinder 405 extends downwards, the pressing plate 404 is connected with the end of the piston rod of the first adjusting cylinder 405, the film cutting component comprises a film cutting knife seat 419, a film cutting knife 416 and a second adjusting cylinder 418, and the second adjusting cylinder 418 is fixed on the lifting seat 403, the piston rod of the second adjusting cylinder 418 extends downwards, the film cutter 416 is connected to the film cutter seat 419, the film cutter seat 419 is fixedly connected with the piston rod of the second adjusting cylinder 418, the welding assembly comprises a welding head 417, a heat insulation sleeve 406 and a third adjusting cylinder 407, the welding head 417 is connected to the lower end of the heat insulation sleeve 406, the upper end of the heat insulation sleeve 406 is fixed with the third adjusting cylinder 407, the piston rod of the third adjusting cylinder 407 extends upwards, the end of the piston rod of the third adjusting cylinder 407 is fixedly connected with the lifting seat 403, and a through hole for the welding head 417 to pass through is formed in the film cutter 416; in the initial state, the pressing plate 404 is located below the film cutting blade 416, and the film cutting blade 416 is located below the welding head 417.

In this embodiment, the pressing plate 404 includes an upper steel plate and a lower food-grade PP plate, and the soft food-grade PP plate is used to make the film have a sufficient tension.

In this embodiment, the film cutter 416 is an annular structure, and the edge of the film cutter 416 is a saw-toothed structure.

During operation, the film guiding device is started, a film enters the punching and welding bracket 401 through the first guide roller 413 and is located between the bottom plate 402 and the punching and welding device, meanwhile, the lifting cylinder 104 of the cup supporting assembly drives the cup support 103 to rise, so as to drive the cup body on the chain plate to move upwards, then, the lifting driving motor 408 is started to drive the lifting seat 403 to move downwards, so as to drive the punching and welding device to move downwards integrally, when the punching and welding device moves downwards integrally, the pressing plate 404 is located at the lowest part, so that the film pressing assembly has a priority effect, the pressing plate 404 moves downwards to the top to touch the bottom plate 402, the pressing plate 404 is matched with the bottom plate 402 to compress the film, at the moment, the pressing plate 404 cannot move downwards continuously, the pressing plate 404 can compress the piston rod of the first adjusting cylinder 405, and at the moment, the lifting seat 403 continues to move downwards to drive the film cutting assembly, The welding assembly moves downwards, then the film cutting assembly starts to act, the film cutting knife 416 cuts the film, the film cutting knife 416 cannot move downwards continuously after the film is cut, the piston rod of the second adjusting cylinder 418 is compressed, at the moment, the lifting seat 403 continues to move downwards, finally, the welding assembly starts to act, the film and the cup body are welded through the welding head 417, after the welding is completed, the lifting seat 403 moves upwards, the lifting cylinder 104 of the cup supporting assembly drives the cup support 103 to move downwards, and the film guiding servo motor 415 drives the film collecting roller to work, so that the film is driven to move, and the next work is continued.

Specifically, in this embodiment, the secondary aluminum foil welding device 5 includes a welding frame, a welding cylinder and a welding head, the welding cylinder is mounted on the welding frame, and the welding head is driven by the welding cylinder to move up and down; during welding, the welding cylinder drives the welding head to move downwards to perform welding operation; the water filtering disc welding device 7 is an ultrasonic welding machine and can complete welding of the water filtering disc and the cup body by ultrasonic energy.

Referring to fig. 13 and 14, fig. 13 is a schematic structural view of a feeding mechanism of a water filter disc; fig. 14 is a schematic view of the structure of the indexing placement device. In this embodiment, the water filtering tray feeding mechanism 6 includes a bin 501 for storing the water filtering tray, a vibration tray 502 for realizing ordered conveying of the water filtering tray, a feeding track 503 and an indexing placement device 505, a discharge port of the bin 501 is connected with a feed port of the vibration tray 502, an inlet of the feeding track 503 is connected with a discharge port of the vibration tray 502, a linear vibrator 504 is arranged at a lower portion of the feeding track 503, the indexing placement device 505 includes an indexing frame 506, a positioning assembly and a transfer assembly, the positioning assembly includes a base plate 507, a turntable 508 and a partition plate 509, the base plate 507 is fixed on the indexing frame 506, a blind groove is formed in an upper end face of the base plate 507, the turntable 508 can be rotatably arranged in the blind groove, the turntable 508 is driven to rotate by a rotation driving mechanism, the rotation driving mechanism includes a rotation servo motor 510, The rotary speed reducer 511 is characterized in that an output shaft of the rotary servo motor 510 is in transmission connection with an input shaft of the rotary speed reducer 511, the rotary table 508 is connected to the output shaft of the rotary speed reducer 511, a material inlet communicated with the blind groove is formed in one end of the base 507, the material inlet is connected with an outlet of the feeding track 503, a plurality of positioning grooves 512 used for positioning the water filtering disc are uniformly distributed in the outer edge of the rotary table 508, 2 blanking through holes are formed in the blind groove in the upper end face of the base 507, the blanking through holes are formed in the outer edge of the blind groove and correspond to the positioning grooves 512, the partition plate 509 is driven by a partition cylinder 513 and can be connected below the base 507 in a sliding manner, in an initial state, the partition plate 509 blocks the blanking through holes, and the transfer assembly comprises a lifting plate 514 located above the rotary table 508, the lifting plate 514 is driven by a double-stroke cylinder 515 to move up and down, and a vacuum suction head 516 for sucking a water filtering disc is installed at the lower end of the lifting plate 514.

In order to enable the water filtering tray to smoothly enter the positioning groove 512 from the feeding rail 503, in this embodiment, an air blowing pipe is disposed at an outlet of the feeding rail 503.

When the water filtering disc feeding mechanism 6 works, the water filtering disc enters the vibration disc 502 from the discharge hole of the stock bin 501, the water filtering disc is sequentially moved out from the discharge hole of the vibration disc 502 and enters the feeding track 503 under the action of the vibration disc 502, the water filtering disc moves to the outlet of the feeding track 503 under the action of the linear vibrator 504, the air blowing pipe blows air to blow the water filtering disc into the positioning groove 512, then the rotary servo motor 510 drives the rotary disc 508 to rotate, so that the positioning groove 512 provided with the water filtering disc rotates to the upper part of the blanking through hole, at the moment, the double-stroke cylinder 515 drives the lifting plate 514 to move downwards, the vacuum suction head 516 adsorbs the water filtering disc in the positioning groove 512, then the separation cylinder 513 drives the separation plate 509 to move, and the separation plate 509 does not shield the blanking through hole, then, the double-stroke cylinder 515 continuously drives the lifting plate 514 to move downwards, the vacuum suction head 516 sends the water filtering disc into the cup body on the conveying line of the chain plate below, and the water filtering disc is sequentially circulated in a reciprocating mode to realize continuous feeding of the water filtering disc, so that the automatic upgrading of the feeding of the water filtering disc is realized, and the water filtering disc feeding device has the characteristics of high efficiency and strong safety.

Specifically, in this embodiment, the sorting device 9 includes a traverse cylinder, a grabbing cylinder and a sorting sucker, an output end of the traverse cylinder is connected to a traverse plate, the grabbing cylinder is located on the traverse plate, and the sorting sucker is fixed to an output end of the grabbing cylinder; during the letter sorting, according to photoelectric sensor, the signal that visual detection device gave judges whether there is the defective products after the analysis, if the defective products, then the sideslip cylinder drives and snatchs the cylinder and move to cup top on the link joint transfer chain, snatch the cylinder and drive the letter sorting sucking disc and move down and adsorb the cup, adsorb the back of accomplishing, the sideslip cylinder resets, transfer it to on the transport transfer chain, and the defective products is along with the automatic whereabouts of the upset of link joint transfer chain, be provided with the waste product case at the end of link joint transfer chain for collect the defective products of whereabouts.

Specifically, in this embodiment, the chain plate conveying line includes a conveying frame, and a cam divider, a variable frequency motor, a driving sprocket, a driven sprocket, a conveying chain and a chain plate which are mounted on the conveying frame, the conveying chain is wrapped around the driving sprocket and the driven sprocket, an output end of the variable frequency motor is in transmission connection with an input end of the cam divider through a coupling, an output end of the cam divider is in transmission connection with the driving sprocket through a sprocket chain assembly, and the chain plate is fixedly connected with the conveying chain; through adopting above-mentioned structural design, can realize the marching type of link joint transfer chain and carry.

The foregoing embodiments are merely illustrative of the principles and features of this invention, which is not limited to the above-described embodiments, but rather is susceptible to various changes and modifications without departing from the spirit and scope of the invention, which changes and modifications are within the scope of the invention as claimed. The scope of the invention is defined by the appended claims.

Claims

1. The utility model provides a water filtering disc feed mechanism which characterized in that: water strainer dish feed mechanism is including the feed bin that is used for depositing the water strainer dish, the vibration dish that is used for realizing the water strainer dish and carries in order, feeding track and graduation placer, the drain hole of feed bin with the feed inlet of vibration dish links to each other, the orbital import of feeding with the discharge gate of vibration dish links to each other, graduation placer's pan feeding mouth with the orbital export of feeding links to each other, graduation placer include the graduation frame, set up in locating component on the graduation frame and transfer the subassembly, transfer the subassembly and reciprocate in order to realize by the cylinder drive.

2. The strainer tray feeding mechanism of claim 1, wherein a linear vibrator is disposed at a lower portion of the feeding rail, and an air blowing pipe is disposed at an outlet of the feeding rail.

3. A filter disc feeding mechanism according to claim 1, wherein the positioning assembly comprises a base plate, a rotary disc and a partition plate, the base plate is fixed on the dividing frame, a blind groove is formed in the upper end face of the base plate, the rotary disc is rotatably arranged in the blind groove, and the partition plate is slidably connected below the base plate.

4. A filter disc feeding mechanism according to claim 3, wherein a feeding port communicated with the blind groove is formed at one end of the base disc, and the feeding port is connected with an outlet of the feeding track.

5. A filter disc feeding mechanism according to claim 3, wherein a plurality of positioning grooves for positioning the filter disc are uniformly distributed on the outer edge of the rotary disc.

6. The filter disc feeding mechanism according to claim 5, wherein the blind groove on the upper end surface of the bottom disc is provided with at least one blanking through hole, the blanking through hole is positioned on the outer edge of the blind groove, and the blanking through hole corresponds to the positioning groove.

7. A filter disc feed mechanism as claimed in claim 3, wherein the disc is rotated by a rotary drive mechanism and the dividing plate is driven by a dividing cylinder.

8. The strainer tray feed mechanism of claim 7 wherein the rotary drive mechanism includes a rotary servo motor and a rotary reducer, an output shaft of the rotary servo motor being drivingly connected to an input shaft of the rotary reducer, the rotary disc being connected to an output shaft of the rotary reducer.

9. A filter disc feeding mechanism according to claim 1, wherein the transfer assembly comprises a lifting plate located above the turntable, the lifting plate is driven by a double-stroke cylinder to move up and down, and a vacuum suction head for sucking the filter disc is installed at the lower end of the lifting plate.

10. The water filtering disc feeding mechanism according to claim 1, wherein the water filtering disc feeding mechanism is mounted on a frame, a chain plate conveying line is mounted on the frame, eight stations are arranged on the frame along the conveying direction of the chain plate conveying line, and sequentially comprise a cup falling station, a punching station, an aluminum foil punching welding station, an aluminum foil secondary welding station, a water filtering disc placing station, a water filtering disc welding station, a filter paper punching welding station and a sorting station, and the water filtering disc feeding mechanism corresponds to the water filtering disc placing station and is used for placing the water filtering disc at the bottom of the cup body.