CN210133860U - Automatic bottom conveying and can sealing assembly line - Google Patents

Abstract

The utility model discloses an automatic can sealing assembly line is carried to bottom for carry the bottom to can seamer, which comprises a frame, advance the lid device, bottom conveyor, bottom distributor and send the lid device, advance the lid device and be used for disinfecting on line with becoming buttress bottom and carry to follow-up station, bottom conveyor is in order can following horizontal direction motion mode ann to change in the frame, be used for bearing the bottom and transmit the bottom according to setting for speed, bottom distributor distributes the bottom of coming to bottom main road conveyor and distributes the bottom and flows in to bottom branch road conveyor, distribute the bottom input simultaneously for corresponding can seamer, send the lid device to send the bottom into in the can seamer. In this way, the utility model discloses automatic bottom is carried and is sealed a jar assembly line can realize the bottom automatic conveying to flow in the can seamer behind the bottom automatic allocation, can satisfy many can seamers demands simultaneously, whole transportation process need not artificial intervention, realizes the deepening in automatic many fields.

Description

Automatic bottom conveying and can sealing assembly line

Technical Field

The utility model relates to a food package technical field especially relates to an automatic bottom is carried and is sealed a jar assembly line.

Background

In the dairy product packaging, a tank body is directly contacted with the dairy product, the tank is turned over, sterilized, filled, vacuumized and filled with nitrogen, and finally the upper cover is sealed.

In the prior art, the tank body for packaging dairy products generally adopts an artificial upper cover, and has the defects that the sterilized bottom cover needs to be manually placed into a bottom cover frame of a tank sealing machine after being manually collected, so that secondary pollution caused by manual operation cannot be avoided, manual real-time monitoring is needed, and the true purpose of automation cannot be achieved.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the main technical problem who solves provides an automatic bottom is carried and is sealed a jar assembly line, can realize the automatic transport of bottom to flow into the can seamer behind the bottom automatic allocation in, can satisfy the demand of many can seamers simultaneously, whole transportation process need not artificial intervention, reduces secondary pollution, reduces the recruitment cost, has realized the deepening of automatic many fields, has compensatied the not enough of current lid method of sending.

In order to solve the technical problem, the utility model discloses a technical scheme be: an automatic bottom conveying and can sealing assembly line is provided for conveying a bottom to a can sealing machine, comprising:

a frame;

the cover feeding device is used for sterilizing the stacked bottom covers on line and then conveying the bottom covers to subsequent stations;

the bottom cover conveying device is arranged on the rack in a mode of moving along the horizontal direction and used for bearing the bottom cover conveyed by the cover feeding device and conveying the bottom cover according to a set speed, and the bottom cover conveying device comprises: the bottom cover main path conveying mechanism and the at least two bottom cover branch conveying mechanisms are connected to the bottom cover main path conveying mechanism in parallel;

and the bottom cover distribution device is connected to the bottom cover conveying device, can receive the bottom cover conveyed by the bottom cover main path conveying mechanism, distributes the bottom cover and then flows into the bottom cover branch conveying mechanism, and simultaneously distributes bottom cover input for a plurality of corresponding can seamers.

In a preferred embodiment of the present invention, the cover feeding device is located at the upstream of the bottom cover conveying device, including the bottom cover storage rack, the cover separating mechanism, the bottom cover magnetic lifting conveyor and the bottom cover sterilizer, the chopped bottom cover is horizontally placed on the conveying line through the cover separating mechanism for on-line conveying, and then is upwards conveyed through the bottom cover magnetic lifting conveyor to enter the bottom cover sterilizer, and is conveyed to the bottom cover conveying device after the bottom cover sterilizer performs sterilization and disinfection.

In a preferred embodiment of the present invention, the bottom cover conveying device includes a frame, a driving mechanism and a PU belt, a beam is disposed above the frame, the driving mechanism is mounted on the beam, and the PU belt is mounted on the frame and driven by the driving mechanism to convey the bottom cover.

In a preferred embodiment of the present invention, the driving mechanism includes a plurality of active components and a plurality of passive components spaced apart from each other on the frame:

the driving part comprises a servo motor, a speed reducer, a driving synchronous wheel, a catch wheel, a driven synchronous wheel, a synchronous belt and a driving shaft,

the power output end of the servo motor is connected with a driving synchronous wheel through a speed reducer, the driving synchronous wheel is connected with a driven synchronous wheel through a synchronous belt, a blocking wheel is arranged between the driving synchronous wheel and the driven synchronous wheel to abut against the synchronous belt, a driving shaft is connected with the power output end of the driven synchronous wheel,

the servo motor drives the driving synchronous wheel, the driving synchronous wheel transmits power to the driven synchronous wheel through the tensioned synchronous belt, and finally the driven synchronous wheel drives the driving shaft to rotate;

the driven part comprises a driven shaft, a driven bearing and a driven roller, and the driven roller is supported on the driven shaft in a rotatable manner through the driven bearing;

the PU transmission belt is installed in the frame through driving shaft and driven roller, and the driving shaft passes through the PU transmission belt with power transmission to driven roller, drives driven roller and rotates.

In a preferred embodiment of the present invention, the bottom main conveying mechanism and the bottom main conveying mechanism are disposed at an angle, and a turning part is disposed between the bottom main conveying mechanism and the bottom main conveying mechanism, and the turning part includes a first roller set and a second roller set capable of realizing reversing.

In a preferred embodiment of the present invention, the bottom cover distributing device is disposed at the cover outlet end of the bottom cover main conveying mechanism, and comprises a frame and a mounting plate mounted on the frame, wherein the mounting plate has at least two distributing channels, namely a first distributing channel and a second distributing channel, which are respectively communicated with the corresponding bottom cover branch conveying mechanisms.

In a preferred embodiment of the present invention, the cover-entering end of the mounting plate has a stop lever and an adjusting lever respectively on both sides, the stop lever is fixed on the mounting plate, the mounting plate has a cylinder connected with the adjusting lever below, the adjusting lever can rotate between a first position and a second position under the control of the cylinder:

when the cylinder is in a retraction state, the adjusting rod is locked at the first position, the inlet of the second distribution channel is blocked, and the bottom cover can only be distributed and conveyed through the first distribution channel; when the cylinder is in an extending state, the adjusting rod rotates to a second position, the inlet of the second distribution channel is opened, and the bottom cover is preferentially distributed and conveyed through the second distribution channel.

In a preferred embodiment of the present invention, a plurality of bottom cover distribution devices can be evenly distributed on the bottom cover conveying device, the number of the bottom cover distribution devices is adapted to the number of the can seamers, and the plurality of can seamers can simultaneously distribute the input of the bottom covers through the plurality of bottom cover distribution devices.

The utility model discloses a preferred embodiment, still including sending the lid device, send the lid device to connect at bottom branch road conveying mechanism's output, send the lid device to send the bottom that bottom distributor conveyed and come into can seamer storage rack, still be provided with conveying mechanism between bottom branch road conveying mechanism and can seamer, the bottom falls into conveying mechanism through sending the lid device, carries to the can seamer in the end.

In a preferred embodiment of the present invention, the cap feeding device comprises: the storage cover frame arranged on the rack is obliquely arranged, the storage cover frame is fixed on an L-shaped side plate of the rack through a mounting substrate, and a sucker conveying mechanism is further arranged below the storage cover frame:

the sucker conveying mechanism comprises a rotary cylinder, a rotary cylinder fixing block, a rotary plate, a sucker cylinder and a sucker,

the rotary cylinder is locked on the frame through a rotary cylinder fixing block, the rotary cylinder is connected with a sucker cylinder through a rotary plate, a sucker for tightly sucking and loosening the bottom cover is connected on the sucker cylinder,

the sucking disc cylinder drives the sucking disc upward movement and tightly inhales the bottom, then pulls out the bottom from storing up the lid frame, and rotatory cylinder drives the sucking disc cylinder through the rotor plate and rotates to the conveying mechanism top, and the bottom is loosened to the sucking disc this moment, and the bottom falls into conveying mechanism and carries to the can seamer.

In a preferred embodiment of the present invention, a sterilizing chamber is further disposed on the frame, the sterilizing chamber is located upstream of the bottom cover conveying device, and the bottom cover enters the bottom cover conveying device and is conveyed backwards after being sterilized and disinfected by the sterilizing chamber.

The utility model has the advantages that: the utility model discloses automatic bottom is carried a jar assembly line and is sealed and carry out automatic transport after disinfecting on line with the bottom, flows in the can seamer after carrying out automatic allocation to the bottom in, can satisfy many can seamers' demand simultaneously, whole transportation process need not artificial intervention, reduces secondary pollution, reduces the recruitment cost, has realized the deepening in automatic many fields, has compensatied the not enough of current lid method of sending.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained without inventive work, wherein:

FIG. 1 is a schematic structural view of a preferred embodiment of an automatic bottom cover conveying and can sealing assembly line of the present invention;

FIG. 2 is a schematic structural view of another preferred embodiment of the automatic bottom cover conveying and can sealing assembly line of the present invention;

FIG. 3 is a front view of a preferred embodiment of the operation of the bottom branch conveying mechanism to the lid conveying device in the automatic bottom lid conveying and can sealing assembly line of the present invention;

FIG. 4 is a top view of a preferred embodiment of the operation of the bottom branch conveying mechanism to the lid conveying device in the automatic bottom lid conveying and can sealing assembly line of the present invention;

fig. 5 is a schematic structural view of a preferred embodiment of the driving member of the bottom cover conveying device of the present invention;

fig. 6 is a schematic structural view of another preferred embodiment of the driving member of the bottom cover conveying device according to the present invention;

fig. 7 is a schematic structural view of a preferred embodiment of a driven part of the driving part of the bottom cover conveying device according to the present invention;

fig. 8 is a schematic structural view of a preferred embodiment of the bottom cover dispensing device of the present invention;

fig. 9 is a schematic structural view of another preferred embodiment of the bottom cover dispensing apparatus of the present invention;

FIG. 10 is a schematic structural view of a preferred embodiment of the cap feeding device of the present invention;

FIG. 11 is a schematic structural view of another preferred embodiment of the cap feeding device of the present invention;

the parts in the drawings are numbered as follows: 100. a frame, 200, a bottom cover conveying device, 210, a bottom cover main path conveying mechanism, 220, a bottom cover branch conveying mechanism, 230, a turning part, 231, a first roller group, 232, a second roller group, 240 and a PU transmission belt,

250. a driving component 251, a servo motor 252, a speed reducer 253, a driving synchronous wheel 254, a gear wheel 255, a driven synchronous wheel 256, a synchronous belt 257, a driving shaft 260, a driven component 261, a driven shaft 262, a driven bearing 263 and a driven roller,

300. a bottom cover distribution device 301, a bearing seat 302, a rotating shaft 303, a connecting column 304, a fixed shaft 305, an adjusting rod 306, a positioning block 307, a stop rod 308, a first limit block 309, a second limit block 310, a mounting plate 311, a cylinder 312, a deep groove ball bearing 313, a first position 314, a second position 315, a fisheye bearing 316, a first distribution channel 317, a second distribution channel 318 and a linkage plate,

400. a cap conveying device 410, a cap storage frame 420, a mounting base plate 430, an L-shaped side plate 440, a sucker conveying mechanism 441, a rotary cylinder 442, a rotary cylinder fixing block 443, a rotary plate 444, a sucker cylinder 445 and a sucker,

500. the device comprises a cover feeding device 501, a bottom cover storage rack 502, a cover separating mechanism 503, a bottom cover magnetic lifting conveyor 504 and a bottom cover sterilizer.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely below, and it should be apparent that the described embodiments are only some embodiments of the present invention, but not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

The embodiment of the utility model provides an include:

an automatic bottom cover conveying and can sealing assembly line is used for conveying bottom covers to a can sealing machine and comprises a rack 100, a cover feeding device 500, a bottom cover conveying device 200 and a bottom cover distributing device 300, wherein the cover feeding device 500 is used for conveying stacked bottom covers to a subsequent station after sterilizing the stacked bottom covers on line, the bottom cover conveying device 200 is arranged on the rack 100 in a mode of moving in the horizontal direction, and the bottom cover distributing device 300 is connected to the bottom cover conveying device 200.

The cover feeding device 500 is located upstream of the bottom cover conveying device 200 and comprises a bottom cover storage rack 501, a cover separating mechanism 502, a bottom cover magnetic lifting conveyor 503 and a bottom cover sterilizing machine 504, chopped bottom covers are fed into the bottom cover storage rack 501, then flatly placed on a conveying line through the cover separating mechanism 502 for on-line conveying, then upwards conveyed into the bottom cover sterilizing machine 504 through the bottom cover magnetic lifting conveyor 503, and finally conveyed to the bottom cover conveying device 200 after being sterilized and disinfected by the bottom cover sterilizing machine 504.

The bottom cover conveying device 200 is used for carrying and conveying bottom covers at a set speed, and the bottom cover conveying device 200 comprises a bottom cover main path conveying mechanism 210 and at least two bottom cover branch conveying mechanisms 220 connected to the bottom cover main path conveying mechanism 210 in parallel.

The bottom cover branch conveying mechanism 220 is disposed at an angle to the bottom cover main path conveying mechanism 210, and preferably, the bottom cover branch conveying mechanism 220 is disposed perpendicularly to the bottom cover main path conveying mechanism 210.

A turning part 230 is arranged between the bottom cover main path conveying mechanism 210 and the bottom cover branch path conveying mechanism 220, the turning part 230 comprises a first roller group 231 and a second roller group 232 which can realize reversing, and the conveying direction of the bottom cover can be changed through the first roller group 231 and the second roller group 232.

The bottom cover conveying device 200 comprises a rack 100, a driving mechanism and a PU (polyurethane) driving belt 240, wherein a cross beam 110 is arranged above the rack 100, the driving mechanism is installed on the cross beam 110, and the PU driving belt 240 is installed on the rack 100 and driven by the driving mechanism to convey the bottom cover.

The driving mechanism comprises a plurality of groups of driving components 250 and a plurality of groups of driven components 260 which are uniformly distributed on the rack 100 at intervals, and the number and the interval distance of the driving components 250 and the driven components 260 are set according to the actual conveying amount.

As shown in fig. 5 and 6, the driving member 250 includes a servo motor 251, a speed reducer 252, a driving synchronizing wheel 253, a catch wheel 254, a driven synchronizing wheel 255, a timing belt 256, and a driving shaft 257, a power output end of the servo motor 251 is connected to the driving synchronizing wheel 253 through the speed reducer 252, the driving synchronizing wheel 253 is connected to the driven synchronizing wheel 255 through the timing belt 256, the catch wheel 254 is further disposed between the driving synchronizing wheel 253 and the driven synchronizing wheel 255 to abut against the timing belt 256, and the driving shaft 257 is connected to a power output end of the driven synchronizing wheel 255.

The catch wheel 254 can play a role in protecting the synchronous belt 256, and abrasion in the power transmission process mainly occurs on the catch wheel 254, so that the service life of the synchronous belt 256 is prolonged.

The servo motor 251 drives the driving synchronous wheel 253, the driving synchronous wheel 253 transmits power to the driven synchronous wheel 255 through the tensioned synchronous belt 256, and finally the driven synchronous wheel 255 drives the driving shaft 257 to rotate.

Install synchronous pulley on servo motor 251, install hold-in range 256 on the synchronous pulley and carry out power transmission, synchronous belt transmission has the transmission accuracy, the effect that the transmission precision is high, and the conveying is steady, can guarantee the steady orderly transport of bottom.

As shown in fig. 7, the driven member 260 includes a driven shaft 261, a driven bearing 262 and a driven roller 263, and the driven roller 263 is rotatably supported on the driven shaft 261 through the driven bearing 262, so as to ensure rapid and smooth power transmission.

PU drive belt 240 passes through driving shaft 257 and installs in frame 100 with passive roller 263, and driving shaft 257 passes through PU drive belt 240 with power transmission to passive roller 263, drives passive roller 263 section of thick bamboo and rotates, and PU drive belt 240 conveys along with driving shaft 257 and the rotation of passive roller 263, realizes the continuous steady transport of bottom.

As shown in fig. 8 and 9, the bottom cap distributing device 300 can receive the bottom caps transferred from the bottom cap main conveying mechanism 210, distribute the bottom caps and flow the bottom caps to the bottom cap branch conveying mechanism 220, and simultaneously distribute the bottom caps for the corresponding can seamers.

The bottom cover distributing device 300 is disposed at the cover outlet end of the bottom cover main path conveying mechanism 210, and comprises a rack 100 and a mounting plate 310 mounted on the rack 100, wherein the mounting plate 310 has at least two distributing channels, namely a first distributing channel 316 and a second distributing channel 317, and the first distributing channel 316 and the second distributing channel 317 are respectively communicated with the corresponding bottom cover branch conveying mechanisms 220.

Furthermore, the mounting plate 310 is provided with a stop rod 307 and an adjusting rod 305 on both sides of the cover-entering end, the stop rod 307 is fixed on the mounting plate 310, an air cylinder 311 connected with the adjusting rod 305 is arranged below the mounting plate 310, and the adjusting rod 305 can rotate between a first position 313 and a second position 314 under the control of the air cylinder 311.

A first limiting block 308 and a second limiting block 309 are fixedly mounted on two sides of the cover outlet end of the mounting plate 310, a positioning block 306 is fixedly arranged between the first limiting block 308 and the second limiting block 309, the first limiting block 308 is locked at the tail end of the blocking rod 307, the positioning block 306 is locked at the tail end of the adjusting rod 305 at a first position 313, the second limiting block 309 is locked at the tail end of the adjusting rod 305 at a second position 314, the first position 313 is located at the bottom end of the mounting plate 310, and the second position 314 is located at the middle position of the mounting plate 310.

When the adjusting lever 305 is locked at the first position 313, a first distribution channel 316 for passing the bottom cover is formed among the adjusting lever 305, the stop lever 307, the second limiting block 309 and the positioning block 306;

when the adjustment lever 305 is rotated to the second position 314, a second dispensing channel 317 is formed between the adjustment lever 305, the first stop block 308, and the positioning block 306.

The adjustment lever 305 is rotationally switched between a first position 313 and a second position 314 by driving of an air cylinder 311, and the air cylinder 311 is provided below the mounting plate 310 and connected to the adjustment lever 305.

One end of the air cylinder 311 is locked below the mounting plate 310 through a fixed shaft 304, the other end of the air cylinder 311 is movably connected with one end of the linkage plate 318 through a fisheye bearing 315 and a connecting column 303, the other end of the linkage plate 318 is provided with a through hole for the rotating shaft 302 to pass through, the power input end of the rotating shaft 302 passes through the through hole and is mounted on the linkage plate 318 and is mounted on the bearing seat 301 through a deep groove ball bearing 312, and the power output end of the rotating shaft 302 is vertically fixed with the adjusting rod 305.

The linkage plate 318 and the adjusting rod 305 are connected to two ends of the rotating shaft 302, the linkage plate 318, the rotating shaft 302 and the adjusting rod 305 are connected to form an integral moving part, the air cylinder 311 extends and retracts, and power is transmitted to the adjusting rod 305 to achieve rotation of the adjusting rod 305.

When the cylinder 311 is in the retracted state, the adjusting lever 305 is locked in the first position 313, the second dispensing path 317 is blocked from the inlet, and the bottom cap can be dispensed only through the first dispensing path 316;

when the cylinder 311 is in the extended state, the adjusting lever 30 is rotated to the second position 314, the inlet of the second distribution passage 317 is opened, and the bottom cover is preferentially delivered through the second distribution passage 317.

The bottom cover distribution device 300 can realize automatic distribution and input of the bottom cover, and can simultaneously distribute and input the bottom cover for a plurality of can seamers.

The bottom cover conveying device 200 can be uniformly provided with a plurality of groups of bottom cover distribution devices 300, the number of the bottom cover distribution devices 300 is matched with the number of the can seamers, and the plurality of the can seamers can simultaneously distribute and input bottom covers through the plurality of groups of the bottom cover distribution devices 300.

A cover feeding device 400 is also included, and the cover feeding device 400 is connected to the tail end of the bottom cover conveying device 200. Further, a cover feeding device 400 is connected to the output end of the bottom cover branch conveying mechanism 220, and the cover feeding device 400 feeds the bottom cover conveyed by the bottom cover distributing device 300 into the can seamer storage rack.

A conveying mechanism is further arranged between the bottom cover branch conveying mechanism 220 and the can sealing machine, and the bottom cover falls into the conveying mechanism through a cover conveying device 400 and is finally conveyed into the can sealing machine.

As shown in fig. 10 and 11, the cap conveying device 400 includes a cap storage frame 410 disposed on the frame 100, the cap storage frame 410 is disposed in an inclined manner, the cap storage frame 410 is fixed on an L-shaped side plate 430 of the frame 100 through a mounting substrate 420, a suction cup conveying mechanism 440 is further disposed below the cap storage frame 410, and the cap conveying device 400 conveys the cap to the can seamer through the suction cup conveying mechanism 440.

Specifically, the suction cup conveying mechanism 440 includes a rotary cylinder 441, a rotary cylinder fixing block 442, a rotating plate 443, a suction cup cylinder 444, and a suction cup 445, wherein the rotary cylinder 441 is locked to the frame 100 by the rotary cylinder fixing block 442, the rotary cylinder 441 is connected to the suction cup cylinder 444 by the rotating plate 443, and the suction cup 445 for sucking and releasing the bottom cover is connected to the suction cup cylinder 444.

The sucking disc cylinder 444 drives the sucking disc 445 to move upwards and suck the bottom cover tightly, then the bottom cover is pulled out of the cover storage frame 410, the rotating cylinder 441 drives the sucking disc cylinder 444 to rotate to the position above the conveying mechanism through the rotating plate 443, at the moment, the sucking disc 445 loosens the bottom cover, and the bottom cover falls into the conveying mechanism and is conveyed to the can sealing machine.

The rack 100 is further provided with a sterilizing chamber which is located at the upstream of the bottom cover conveying device 200, and the bottom cover enters the bottom cover conveying device 200, is sterilized and disinfected by the sterilizing chamber and then is automatically conveyed backwards.

The sterilization and disinfection of the tank body and the cover body are an important process of a food packaging line, and the bottom cover can effectively ensure the cleanness, sanitation and environmental protection of the cover body after the sterilization and disinfection of the sterilizing chamber.

The automatic bottom cover conveying and can sealing assembly line is used for realizing the online automatic conveying of bottom covers and comprises a rack 100, a bottom cover conveying device 200, a bottom cover distribution device 300 and a cover conveying device 400, wherein the bottom cover conveying device 200 is arranged on the rack 100 in a mode of moving along the horizontal direction and is used for bearing the bottom covers and conveying the bottom covers according to a set speed, the bottom cover distribution device 300 distributes the bottom covers conveyed by a bottom cover main path conveying mechanism 210 and then flows into a bottom cover branch conveying mechanism 220, the bottom covers are distributed and input for corresponding can sealing machines, and the cover conveying device 400 conveys the bottom covers into the can sealing machines through the conveying mechanisms.

The utility model discloses automatic bottom is carried and is sealed a jar assembly line's beneficial effect is:

the bottom cover for can sealing is automatically conveyed after being sterilized on line, the bottom cover is automatically distributed and then flows into the can sealing machine, the requirements of a plurality of can sealing machines can be met simultaneously, the whole conveying process does not need human intervention, secondary pollution is reduced, labor cost is reduced, deepening in multiple automatic fields is realized, and the defects of the existing can conveying method are overcome.

The above only is the embodiment of the present invention, not limiting the patent scope of the present invention, all of which utilize the equivalent structure or equivalent flow transformation made by the content of the specification of the present invention, or directly or indirectly applied to other related technical fields, all included in the same way in the patent protection scope of the present invention.

Claims (10)

1. The utility model provides an automatic can sealing assembly line is carried to bottom for carry the bottom to can seamer, its characterized in that includes:

a frame;

the cover feeding device is used for sterilizing the stacked bottom covers on line and then conveying the bottom covers to subsequent stations;

the bottom cover conveying device is arranged on the rack in a mode of moving along the horizontal direction and used for bearing the bottom cover conveyed by the cover feeding device and conveying the bottom cover according to a set speed, and the bottom cover conveying device comprises: the bottom cover main path conveying mechanism and the at least two bottom cover branch conveying mechanisms are connected to the bottom cover main path conveying mechanism in parallel;

and the bottom cover distribution device is connected to the bottom cover conveying device, can receive the bottom cover conveyed by the bottom cover main path conveying mechanism, distributes the bottom cover and then flows into the bottom cover branch conveying mechanism, and simultaneously distributes bottom cover input for a plurality of corresponding can seamers.

2. The automated bottom head transfer and can seamed line of claim 1, wherein the head entering device is located upstream of the bottom head transfer device and comprises a bottom head storage rack, a head separating mechanism, a bottom head magnetic lifting conveyor and a bottom head sterilizer, wherein the chopped bottom head is conveyed on-line by laying on the transfer line through the head separating mechanism, then conveyed upwards by the bottom head magnetic lifting conveyor into the bottom head sterilizer, and conveyed to the bottom head transfer device after being sterilized and disinfected by the bottom head sterilizer.

3. The automatic bottom cap conveying and can sealing production line of claim 1, wherein the bottom cap conveying device comprises a frame, a driving mechanism and a PU (polyurethane) driving belt, a cross beam is arranged above the frame, the driving mechanism is installed on the cross beam, and the PU driving belt is installed on the frame and driven by the driving mechanism to convey the bottom caps.

4. The automatic bottom cap conveying and can seaming assembly line of claim 3, wherein the driving mechanism comprises a plurality of groups of active components and a plurality of groups of passive components which are uniformly distributed on the rack at intervals:

the driving part comprises a servo motor, a speed reducer, a driving synchronous wheel, a catch wheel, a driven synchronous wheel, a synchronous belt and a driving shaft,

the power output end of the servo motor is connected with a driving synchronous wheel through a speed reducer, the driving synchronous wheel is connected with a driven synchronous wheel through a synchronous belt, a blocking wheel is arranged between the driving synchronous wheel and the driven synchronous wheel to abut against the synchronous belt, a driving shaft is connected with the power output end of the driven synchronous wheel,

the servo motor drives the driving synchronous wheel, the driving synchronous wheel transmits power to the driven synchronous wheel through the tensioned synchronous belt, and finally the driven synchronous wheel drives the driving shaft to rotate;

the driven part comprises a driven shaft, a driven bearing and a driven roller, and the driven roller is supported on the driven shaft in a rotatable manner through the driven bearing;

the PU transmission belt is installed in the frame through driving shaft and driven roller, and the driving shaft passes through the PU transmission belt with power transmission to driven roller, drives driven roller and rotates.

5. The automatic bottom cap conveying and can sealing assembly line of claim 1, wherein the bottom cap branch conveying mechanism and the bottom cap main path conveying mechanism are arranged at an angle, a turning component is arranged between the bottom cap main path conveying mechanism and the bottom cap branch conveying mechanism, and the turning component comprises a first roller set and a second roller set which can realize reversing.

6. The automated bottom head transfer and can seamed production line of claim 1, wherein the bottom head distribution device is disposed at the outlet end of the main bottom head path transfer mechanism and comprises a frame and a mounting plate mounted on the frame, the mounting plate having at least two distribution channels, a first distribution channel and a second distribution channel, the first distribution channel and the second distribution channel being respectively communicated with the corresponding bottom head branch path transfer mechanism.

7. The automatic bottom cap conveying and can sealing assembly line of claim 6, wherein the two sides of the cap inlet end of the mounting plate are respectively provided with a stop lever and an adjusting lever, the stop lever is fixed on the mounting plate, the lower part of the mounting plate is provided with a cylinder connected with the adjusting lever, and the adjusting lever can rotate between a first position and a second position under the control of the cylinder:

when the cylinder is in a retraction state, the adjusting rod is locked at the first position, the inlet of the second distribution channel is blocked, and the bottom cover can only be distributed and conveyed through the first distribution channel; when the cylinder is in an extending state, the adjusting rod rotates to a second position, the inlet of the second distribution channel is opened, and the bottom cover is preferentially distributed and conveyed through the second distribution channel.

8. The automated bottom head transfer and can seamed production line of claim 7, wherein a plurality of bottom head distribution devices are evenly distributed on the bottom head transfer device, the number of the bottom head distribution devices is matched with the number of the can seamers, and the simultaneous distribution and bottom head input of a plurality of can seamers can be realized through the plurality of bottom head distribution devices.

9. The automatic bottom cap conveying and can sealing assembly line of claim 1, further comprising a cap conveying device connected to an output end of the bottom cap branch conveying mechanism, wherein the cap conveying device conveys the bottom caps conveyed by the bottom cap distributing device into the can sealing machine storage rack, a conveying mechanism is further arranged between the bottom cap branch conveying mechanism and the can sealing machine, and the bottom caps fall into the conveying mechanism through the cap conveying device and are finally conveyed into the can sealing machine.

10. The automated bottom head transfer and can seamed line of claim 9, wherein the cap feeding device comprises:

the storage cover frame arranged on the rack is obliquely arranged, the storage cover frame is fixed on an L-shaped side plate of the rack through a mounting substrate, and a sucker conveying mechanism is further arranged below the storage cover frame:

the sucker conveying mechanism comprises a rotary cylinder, a rotary cylinder fixing block, a rotary plate, a sucker cylinder and a sucker,

the rotary cylinder is locked on the frame through a rotary cylinder fixing block, the rotary cylinder is connected with a sucker cylinder through a rotary plate, a sucker for tightly sucking and loosening the bottom cover is connected on the sucker cylinder,

the sucking disc cylinder drives the sucking disc upward movement and tightly inhales the bottom, then pulls out the bottom from storing up the lid frame, and rotatory cylinder drives the sucking disc cylinder through the rotor plate and rotates to the conveying mechanism top, and the bottom is loosened to the sucking disc this moment, and the bottom falls into conveying mechanism and carries to the can seamer.

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