CN113511361A - Tank product lamination film production line - Google Patents

Abstract

The invention discloses a laminated film coating production line for can products, which comprises a bottle pushing arm device, and a layering device, a conveying device, a laminating device and a film coating device which are sequentially arranged along the conveying direction of the can products; the conveying device is provided with at least two layers of conveying parts; the layering device is suitable for respectively conveying single-layer tank products on a front production line to each layer of conveying part of the conveying device; the laminating device is suitable for automatically laminating the single-layer can products on each conveying part, and the bottle pushing arm device is suitable for pushing the multi-layer can products on the laminating device to the film laminating device; the film covering device is suitable for automatically piling multi-layer tank products into multiple rows and covering films. The automatic stacking machine can automatically complete the procedures of stacking, bottle pushing, film covering and the like of can products, can realize that the can products in a row are stacked into a multi-layer and multi-row mode, has high automation degree, replaces the current manual placing operation mode, and improves the production efficiency.

Description

Tank product lamination film production line

Technical Field

The invention relates to the technical field of packaging machinery, in particular to a tank product laminating and laminating production line.

Background

At present, can products can only be subjected to full-automatic film laminating production in a single-layer arrangement mode, and film laminating production of can products in a laminated arrangement mode is basically completed in a semi-automatic mode, namely, the can products are manually placed on a film laminating machine for lamination, and then the placed products are pushed into the film laminating machine for film laminating by a bottle pushing cylinder of the film laminating machine. Because the speed is slower to artifical the putting, consuming time is hard to can't realize the linkage with front and back automatic production line, influence the degree of automation of whole line, make production efficiency low.

Disclosure of Invention

The invention aims to provide a tank product laminating and film-coating production line aiming at the defects of the prior art, which can automatically complete the procedures of laminating, bottle pushing, film coating and the like of tank products, realize the stacking of one layer and one line of tank products into a multi-layer and multi-line form, has high automation degree, replaces the current manual placement operation form, and improves the production efficiency.

The technical scheme for realizing the aim of the invention is as follows:

a can product lamination and film covering production line comprises a bottle pushing arm device, and a layering device, a conveying device, a laminating device and a film covering device which are sequentially arranged along the conveying direction of a can product; the conveying device is provided with at least two layers of conveying parts; the layering device is suitable for respectively conveying single-layer tank products on a front production line to each layer of conveying part of the conveying device; the laminating device is suitable for automatically laminating the single-layer can products on each conveying part, and the bottle pushing arm device is suitable for pushing the multi-layer can products on the laminating device to the film laminating device; the film covering device is suitable for automatically piling multi-layer tank products into multiple rows and covering films.

Further, the layering device comprises a first frame and a conveying device movably mounted on the first frame, a first driving device connected with the conveying device is fixedly mounted on the first frame, and the first driving device is suitable for driving the conveying device to be communicated with each conveying part of the conveying device respectively.

Furthermore, transition packing augers with the same number as the conveying parts are obliquely and fixedly installed between the layering device and the conveying device, and the high end and the low end of each transition packing auger are respectively communicated with the conveying device and the conveying part.

Further, conveyor includes the support, and a plurality of conveying portion top-down fixed mounting be in on the support, the exit fixed mounting of conveying portion embraces the bottle subassembly.

Further, the bottle pushing arm device comprises a second rack and a bottle pushing arm assembly which is slidably mounted on the second rack, a bottle pushing driving device is fixedly mounted on the second rack, and the bottle pushing driving device is suitable for driving the bottle pushing arm assembly to move in the horizontal direction.

Further, the push arm assembly comprises a push arm and a translation plate which is slidably mounted at the top of the second rack, a lifting cylinder and an upright post are fixedly mounted on the translation plate, one end of the push arm is slidably mounted on the upright post and is fixedly connected with a piston rod of the lifting cylinder, and the other end of the push arm is opposite to the laminating device.

Further, stromatolite device includes the portion of stacking and the stromatolite conveying portion of fixed mounting in the conveyor exit, stromatolite conveying portion includes a plurality of stromatolite passageway subassemblies of locating in proper order under the portion of stacking and respectively communicating each conveying portion, the bottom fixed mounting of stromatolite conveying portion has the jacking subassembly that is suitable for jar class product on each stromatolite passageway subassembly upwards jack-up to the portion of stacking, conveyor's one end fixed mounting is kept away from at the top of jacking subassembly has the limiting plate that extends to in the stromatolite passageway subassembly.

Further, the laminated channel assembly comprises first baffle plates symmetrically arranged along the conveying direction of the tank products, a swing arm assembly is arranged on the outer side of each first baffle plate, a detection photoelectric sensor is arranged on the inner side of each first baffle plate, a movable supporting plate located at the top of each first baffle plate is arranged at the upper end of each swing arm assembly, and a fixed supporting plate is arranged on the inner side of each first baffle plate of the laminated channel assembly located at the bottom layer.

Furthermore, the stacking part comprises second baffle plates symmetrically arranged at the upper part of the stacking conveying part, and a pressing plate capable of moving up and down is slidably mounted on the inner sides of the second baffle plates.

Furthermore, the film laminating device comprises a film laminating machine, a bottle feeding longitudinal baffle, a bottle feeding transverse baffle and a bottle pushing mechanism, wherein the bottle feeding longitudinal baffle, the bottle feeding transverse baffle and the bottle pushing mechanism are fixedly arranged on an operation table of the film laminating machine; the bottle feeding longitudinal baffle is communicated with the laminating device, and the bottle pushing mechanism is suitable for pushing the tank type products conveyed to the operation table of the film laminating machine to the film laminating station of the film laminating machine.

And the bottle pushing arm device, the layering device, the conveying device, the laminating device and the film laminating device are all electrically connected with the touch operation panel, so that the operation is convenient.

By adopting the technical scheme, the invention has the following beneficial effects:

(1) according to the automatic laminating machine, the layering device is arranged to divide one-layer and one-line can products conveyed from the front end assembly line into a plurality of groups of arrangement structures one-layer and one-line, the arrangement structures one-layer and one-line are conveyed to the laminating device through the conveying device, the arrangement structures one-layer and one-line are realized under the action of the laminating device, the stacked can products are pushed to the film laminating device through the bottle pushing arm device, the arrangement structures one-layer and multi-line are realized under the action of the film laminating device, and automatic film laminating is completed. Compared with the existing assembly line, the automatic stacking device can automatically complete the procedures of stacking, bottle pushing, film covering and the like of the can products, can automatically stack the can products one by one into a multi-layer and multi-row form, has high automation degree, replaces the current manual placement operation form, and improves the production efficiency.

(2) The layering device conveys the pot products through the conveying device, and the conveying device is driven by the first driving device to swing up and down so as to be respectively communicated with all conveying parts of the conveying device, so that the pot products are divided into a plurality of groups of arrangement structures one by one from the arrangement structures one by one.

(3) The bottle holding assembly is arranged at the outlet of each conveying part of the conveying device, and when the number of the can products entering the laminating device reaches a set value, the bottle holding assembly automatically holds the subsequent bottles to prevent the bottles from entering the laminating device, so that the accurate number of the can products to be laminated is ensured.

(4) According to the bottle pushing arm device, the bottle pushing driving device is arranged to drive the pushing arm assembly which is slidably mounted on the second rack to move horizontally, and the pushing arm assembly drives the pushing arm which is slidably mounted on the stand column to move up and down through the lifting cylinder, so that the pushing arm pushes the stacked can products in a multilayer structure to enter the film laminating device.

(5) The stacking device jacks up the tank products conveyed into the stacking channel assemblies to the stacking part through the jacking assembly, so that a multi-layer single-row arrangement structure is realized, an automatic stacking function is completed, the limiting plate is arranged at the upper end of the jacking assembly, the tank products conveyed by the conveying device are prevented from falling off due to inertia, and the arrangement is ensured to be orderly.

(6) The laminated channel assembly drives the movable supporting plate to realize opening and closing movement through the swing arm assembly outside the first baffle plate, the movable supporting plate and the fixed supporting plate are used for supporting conveyed tank products, when the lower layer of tank products rises to be in contact with the movable supporting plate, the movable supporting plate is pushed open towards two sides, and when the tank products continue to rise and are separated from the movable supporting plate, the movable supporting plate resets under the action of the swing arm assembly and is used for supporting the stacked tank products, so that the one-way rising movement of the tank products is realized, the structural design is ingenious, and the stability is high; by arranging the detection photoelectric sensors, the accurate quantity of the tank products on each layer is ensured.

(7) The stacking part is provided with the pressing plate which is slidably arranged on the inner side of the second baffle, and the pressing plate is ensured to be always pressed on the top layer pot under the influence of self weight, so that the stability of the pot is kept, and the phenomena of displacement, jumping and the like of the pot in the pushing process of the bottle pushing arm device are prevented.

(8) According to the laminating device, the telescopic bottle feeding guide plate is arranged on the operating platform of the laminating machine, so that the tank products are prevented from being skewed, and meanwhile, the pushing of the tank products is not influenced; push away the jar that a bottle mechanism multilayer was listed as through the setting and push away the tectorial membrane station, through repeated propelling movement, realize the range structure of multilayer multiseriate, wrap up in the package on jar class product through the laminating machine with the membrane, finally accomplish the tectorial membrane process.

Drawings

In order that the present disclosure may be more readily and clearly understood, reference is now made to the following detailed description of the present disclosure taken in conjunction with the accompanying drawings, in which:

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a view showing the construction of the bottle pushing arm device, the conveying device and the stacking device according to the present invention;

FIG. 3 is a schematic structural view of a bottle holding assembly according to the present invention;

FIG. 4 is a schematic structural view of a layered assembly according to the present invention;

FIG. 5 is a schematic structural view of the bottle pushing arm device of the present invention;

FIG. 6 is a schematic view of the film covering device according to the present invention;

fig. 7 is a schematic structural diagram of a stacked device according to the present invention.

The reference numbers in the drawings are:

the bottle pushing device comprises a bottle pushing arm device 1, a second rack 1-1, a bottle pushing driving device 1-2, a third driving motor 1-2-1, a first belt pulley 1-2-2, a support 1-2-3, a connecting shaft 1-2-4, a second belt pulley 1-2-5, a synchronous belt 1-2-6, a pushing arm 1-3, a translation plate 1-4, a lifting cylinder 1-5, a synchronous belt pressing plate 1-6 and an upright post 1-7;

the bottle stopper comprises a layering device 2, a first rack 2-1, a first belt component 2-2, a first driving motor 2-3, a first air cylinder 2-4, a lower hinge component 2-5, an upper hinge component 2-6 and a bottle stopping component 2-7;

the conveying device 3, the conveying part 3-1, the second belt component 3-1-1, the second driving motor 3-1-2, the support 3-2, the bottle holding component 3-3, the connecting plate 3-3-1, the mini cylinder 3-3-2, the pin shaft 3-3-3 and the holding hand 3-3-4;

the device comprises a laminating device 4, a support frame 4-1, a stacking part 4-2, a second baffle plate 4-2-1, a press plate 4-2-2, a press plate guide shaft 4-2-3, a laminating channel assembly 4-3, a first baffle plate 4-3-1, a swing arm 4-3-2, a lower fixed seat 4-3-3, an upper fixed seat 4-3-4, a movable supporting plate 4-3-5, a fixed supporting plate 4-3-6, a jacking assembly 4-4, a jacking cylinder 4-4-1, a jacking plate 4-4-2, a limiting plate 4-4-3 and a jacking guide shaft 4-4-4;

the bottle pushing device comprises a film laminating device 5, a film laminating machine 5-1, a bottle feeding longitudinal baffle 5-2, a bottle feeding transverse baffle 5-3, a bottle pushing mechanism 5-4, a fixing plate 5-4-1, a bottle pushing cylinder 5-4-2, a bottle pushing guide rod 5-4-3, a bottle pushing plate 5-4-4 and a bottle feeding guide plate 5-5;

a transition auger 6 and a channel connecting plate 6-1;

a touch panel 7.

Detailed Description

In order to better understand the technical solution, the technical solution will be described in detail with reference to the drawings and the specific embodiments.

(example 1)

The laminated film coating production line for the can products as shown in fig. 1 to 7 comprises a bottle pushing arm device 1, and a layering device 2, a conveying device 3, a laminating device 4 and a film coating device 5 which are sequentially arranged along the conveying direction of the can products, wherein the conveying device 3 is provided with at least two layers of conveying parts 3-1. The single-layer can products on the front production line are respectively conveyed to each layer of conveying part 3-1 of the conveying device 3 through the layering device 2, the single-layer can products on each conveying part 3-1 are automatically layered through the layering device 4, the multi-layer can products on the layering device 4 are pushed to the film covering device 5 through the bottle pushing arm device 1, and the multi-layer can products are automatically stacked into a plurality of rows and covered with films through the film covering device. Compared with the existing assembly line, the automatic stacking and bottle pushing device can automatically complete the processes of stacking, bottle pushing, film covering and the like of the can products, realize that the can products in a row are automatically stacked into a multi-layer and multi-row form, has high automation degree, replaces the current manual placement operation form, and improves the production efficiency.

Specifically, the layering device 2 includes a first frame 2-1, a conveying device, and a first driving device. The conveying device comprises a first belt component 2-2 and a first driving motor 2-3, the right end of the first belt component 2-2 is rotatably installed on a first rack 2-1, the first driving motor 2-3 is fixedly installed at the left end of the first belt component 2-2, and the first driving motor 2-3 drives the first belt component 2-2 to drive through a chain transmission structure, so that the conveying of the tank products is realized. The first driving device comprises a first cylinder 2-4, a lower hinged part 2-5 and an upper hinged part 2-6, the first cylinder 2-4 is rotatably installed on the first rack 2-1 through the lower hinged part 2-5, and a piston rod of the first cylinder 2-4 is rotatably installed at the bottom of the first belt component 2-2 through the upper hinged part 2-6, so that the first cylinder 2-4 drives the belt component to swing up and down. Bottle blocking assemblies 2-7 are fixedly mounted at outlets of the first belt assemblies 2-2, and blocking cylinders of the type RSDQA32-15D are adopted, so that the cans on the first belt assemblies 2-2 can be timely blocked according to actual conditions of film-coated packaging production, such as equipment suspension, and the cans are prevented from falling.

The conveying device 3 comprises a support 3-2, two conveying parts 3-1 are provided, namely an upper conveying part and a lower conveying part, and the upper conveying part and the lower conveying part are longitudinally aligned and fixedly arranged on the support 3-2. Two transition packing augers 6 are obliquely and fixedly installed between the layering device 2 and the conveying device 3, channel connecting plates 6-1 which are vertically distributed are arranged at the outlet of the conveying device and the inlet of the conveying part, and the high end and the low end of each transition packing auger 6 are fixedly connected with the channel connecting plates 6-1 respectively, so that the layering device 2 and the conveying device 3 are communicated through the transition packing augers 6.

The upper conveying part and the lower conveying part are identical in structure and comprise second belt assemblies 3-1-1 fixedly mounted on a support 3-2, second driving motors 3-1-2 are fixedly mounted at the bottoms of the left ends of the second belt assemblies 3-1-1, and the second driving motors 3-1-2 drive the second belt assemblies 3-1-1 to drive through a chain transmission structure, so that can products are conveyed. The outlet of each conveying part is fixedly provided with a bottle holding component 3-3 which comprises connecting plates 3-3-1 symmetrically and fixedly arranged at two sides of the tail end of the second belt component 3-1-1, the connecting plates 3-3-1 are provided with mini cylinders 3-3-2 and pin shafts 3-3-3, the mini cylinders 3-3-2 are fixedly arranged on the connecting plates 3-3-1 and are arranged in an outward inclined mode along the length direction, one end of each pin shaft 3-3-3 is rotatably arranged on the connecting plate 3-3-1, and the other end of each pin shaft 3-3-3 is rotatably provided with a holding hand 3-3-4. The piston rod of the mini cylinder 3-3-2 is rotatably connected with the holding arm 3-3-4, the holding arm 3-3-4 is driven to rotate through the mini cylinder 3-3-2, so that automatic bottle holding action is achieved, when the number of the can products entering the laminating device 4 reaches a set value, the bottle holding assembly 3-3 automatically holds the subsequent bottles to prevent the bottles from entering the laminating device 4, and the number of the can products to be laminated is accurate.

The bottle pushing arm device 1 comprises a second machine frame 1-1, a bottle pushing arm assembly and a bottle pushing driving device 1-2. The bottle pushing driving device 1-2 comprises a third driving motor 1-2-1 fixedly installed at the right end of the top of the second rack 1-1, and a first belt pulley 1-2-2 is coaxially and fixedly installed on an output shaft of the third driving motor 1-2-1. Two support seats 1-2-3 are fixedly installed at the left end of the top of the second rack 1-1, a connecting shaft 1-2-4 is arranged between the two support seats 1-2-3, a second belt pulley 1-2-5 is rotatably installed on the connecting shaft 1-2-4, and a synchronous belt 1-2-6 connected with the push arm assembly is sleeved between the first belt pulley 1-2-2 and the second belt pulley 1-2-5, so that the push bottle driving device 1-2 drives the push arm assembly to move in the horizontal direction. In order to avoid the influence on transmission caused by the looseness of the synchronous belt 1-2-6 after long-term use, the support 1-2-3 of the embodiment is provided with the waist-shaped hole 1-1-7, and the connecting shaft is arranged in the waist-shaped hole 1-1-7, so that the adjustable distance between the first belt pulley 1-2-2 and the second belt pulley 1-2-5 is realized, the synchronous belt 1-2-6 can always keep enough tension force, and the stable transmission is ensured.

The push arm assembly comprises push arms 1-3 and translation plates 1-4, linear guide rails are symmetrically and fixedly installed at the front end and the rear end of the top of the second rack 1-1, and the front end and the rear end of each translation plate 1-4 are fixedly connected with a sliding block of each linear guide rail, so that the translation plates 1-4 are slidably installed at the top of the second rack 1-1. The upper surface of the translation plate 1-4 is fixedly provided with a lifting cylinder 1-5 and a synchronous belt pressing plate 1-6, and the lower surface is fixedly provided with an upright post 1-7. The synchronous belt 1-6 is pressed by the synchronous belt pressing plate 1-6 to realize the connection of the push arm assembly and the bottle pushing driving device 1-2. The upper ends of the push arms 1-3 are slidably mounted on the upright post through a linear guide rail structure and fixedly connected with a piston rod of the lifting cylinder, and the other ends of the push arms are opposite to the laminating device 4.

The laminating device 4 is fixedly arranged on the second rack 1-1 and comprises two support frames 4-1 which are symmetrically arranged along the conveying direction of the tank products, and a laminating part 4-2 and a laminating conveying part which are fixedly arranged at the outlet of the conveying device 3 through the support frames 4-1, wherein the laminating conveying part comprises two laminating channel assemblies 4-3 which are sequentially arranged under the laminating part 4-2 and are respectively communicated with the two conveying parts. The laminated channel assembly 4-3 comprises first baffle plates 4-3-1 which are symmetrically arranged on the inner side of the support frame 4-1 respectively, a swing arm assembly is arranged on the outer side of each first baffle plate 4-3-1, and a detection photoelectric sensor is arranged on the inner side of each first baffle plate, so that the accurate quantity of the tank products on each layer is ensured. The swing arm assembly comprises a swing arm 4-3-2, a lower fixed seat 4-3-3 and an upper fixed seat 4-3-4, the lower fixed seat 4-3-3 and the upper fixed seat 4-3-4 are fixedly arranged on the outer side of the first baffle 4-3-1, the lower end of the swing arm 4-3-2 is rotatably arranged on the lower fixed seat 4-3-3, the outer side of the upper end of the swing arm is fixedly provided with a spring, the other end of the spring is fixedly arranged on the inner side of the upper fixed seat 4-3-4, and the inner side of the upper end of the swing arm is fixedly provided with a movable supporting plate 4-3-5 positioned at the top of the first baffle 4-3-1. The inner side of the first baffle 4-3-1 of the laminated channel assembly 4-3 positioned at the bottom layer is provided with a fixed supporting plate 4-3-6. The stacking part 4-2 comprises second baffle plates 4-2-1 symmetrically arranged on the upper part of the lamination conveying part, pressing plates 4-2-2 are arranged on the inner sides of the second baffle plates 4-2-1, pressing plate guide shafts 4-2-3 are fixedly arranged on the outer sides of the second baffle plates 4-2-1, through grooves are longitudinally formed in the second baffle plates 4-2-1, extension plates are arranged on the outer sides of the pressing plates 4-2-2, and the pressing plates 4-2-2 are slidably arranged on the pressing plate guide shafts 4-2-3 through the extension plates after penetrating through the through grooves. The swing arm assembly on the outer side of the first baffle 4-3-4 drives the movable supporting plate 4-3-5 to realize opening and closing movement, when the tank product on the lower layer rises to be in contact with the movable supporting plate 4-3-5, the movable supporting plate 4-3-5 is pushed to two sides, and when the tank product continues to rise and is separated from the movable supporting plate 4-3-5, the movable supporting plate 4-3-5 resets under the action of the swing arm assembly and is used for supporting the stacked tank product, so that the one-way rising movement of the tank product is realized, the structural design is ingenious, and the stability is high. In order to facilitate the tank product to push the movable supporting plate 4-3-5 open, the cross section of the movable supporting plate 4-3-5 is in a trapezoidal structure with a large upper part and a small lower part. A photoelectric sensor is detected by the arrangement.

The bottom of the laminated conveying part is provided with a jacking assembly 4-4, the jacking assembly 4-4 comprises a jacking cylinder 4-4-1 fixedly arranged on the second rack 1-1, an output shaft of the jacking cylinder 4-4-1 is fixedly provided with a jacking plate 4-4-2 extending into the fixed supporting plate 4-3-6, and one end of the jacking plate 4-4-2 far away from the conveying device 3 is fixedly provided with a limiting plate 4-4-3 extending into the laminated channel assembly 4-3. The two sides of the jacking cylinder 4-4-1 are symmetrically provided with jacking guide shafts 4-4-4 fixedly connected with the jacking plate 4-4-2, so that the jacking assembly 4-4 can stably act.

The film covering device 5 comprises a film covering machine 5-1, a bottle feeding longitudinal baffle 5-2, a bottle feeding transverse baffle 5-3 and a bottle pushing mechanism 5-4 which are fixedly arranged on an operation table of the film covering machine 5-1, wherein the bottle feeding longitudinal baffle 5-2 is communicated with the laminating device 4. The bottle feeding longitudinal baffle 5-2 is butted with the stacking part 4-2 to prevent the tank products from being inclined. By arranging the bottle feeding transverse baffle 5-3, the cans pushed to the operating platform are further guaranteed to be tidy and not misplaced. The bottle pushing mechanism 5-4 comprises a fixing plate 5-4-1, a bottle pushing cylinder 5-4-2 and a bottle pushing guide rod 5-4-3, the bottle pushing cylinder 5-4-2 and the bottle pushing guide rod 5-4-3 are fixedly arranged on the operating platform through the fixing plate 5-4-1, and two bottle pushing guide rods 5-4-3 are symmetrically arranged on two sides of the bottle pushing cylinder 5-4-2. The end part of a piston rod of the bottle pushing cylinder 5-4-2 is fixedly provided with a bottle pushing plate 5-4-4, the bottle pushing plate 5-4-4 is fixedly connected with the end part of the bottle pushing guide rod 5-4-3, and the bottle pushing cylinder 5-4-2 is ensured to stably act by guiding through the arrangement of the bottle pushing guide rod 5-4-3. The bottle pushing cylinder 5-4-2 drives the bottle pushing plate 5-4-4 to move back and forth, so that the can products conveyed to the operation table of the film laminating machine are pushed to the film laminating station of the film laminating machine. In order to ensure that the cans pushed to the film coating station are arranged orderly, a bottle feeding guide plate 5-5 which can stretch to the operating platform and is in butt joint with the bottle feeding transverse baffle 5-3 is arranged right in front of the bottle pushing plate 5-4-4, when the cans are pushed to the bottle pushing mechanism 5-4, the bottle feeding guide plate 5-5 extends out of the upper surface of the operating platform, and when the bottle pushing plate 5-4-4 is ready to push the cans to the film coating station, the bottle feeding guide plate 5-5 retracts to the lower surface of the operating platform.

The bottle pushing arm device 1, the layering device 2, the conveying device 3, the laminating device 4 and the film covering device 5 are all electrically connected with the touch operation panel 7, production parameters are set through the touch operation panel 7, and the actions of the devices are controlled, so that the operation is more convenient.

In the working process of this embodiment, parameters are set as a single layer, a single row and five pots, and two rows are a combined unit for film coating:

the tank products enter the layering device 2 from a front end assembly line, the first belt assembly 2-2 is lifted by the first air cylinder 2-4 to swing up and down, so that the tanks are respectively conveyed to the upper conveying part and the lower conveying part by the transition auger 6 to realize layering.

The two conveying sections 3-1 respectively butt-joint the two lamination channel assemblies 4-3 of the lamination device 4. The two-layer tank products respectively reach the fixed supporting plate 4-3-6 and the movable supporting plate 4-3-5 of the lower-layer laminated channel assembly 4-3 through the conveying of the second belt assembly 3-1-1 and the pushing of the tank. The first baffle 4-3-1 is provided with a detection photoelectric sensor, when the first pot and the fifth pot are detected to reach the designated positions, namely the first pot is in contact with the limiting plate 4-4-3, the five pots are arranged on the supporting plate, and the holding arm 3-3-4 holds the subsequent pot on the second belt assembly 3-1-1 under the action of the mini cylinder 3-3-2 to prevent the subsequent pot from entering the laminating part.

The jacking cylinder 4-4-1 drives the jacking plate 4-4-2 to move, the upper pots of the fixed supporting plate 4-3-6 and the movable supporting plate 4-3-5 are pushed onto the movable supporting plate 4-3-5 on the upper layer, and in the pushing process, the two pots are naturally overlapped. In the process of stacking and pushing, the pressing plate 4-2-2 presses the second layer of the pot to keep the pot stable and prevent the pot from shifting, jumping and the like in the process of pushing.

The push arm 1-3 pushes the two stacked layers of cans on the upper layer movable supporting plate 4-3-5 to the position right in front of the bottle pushing plate 5-4-4 of the film covering device 5 under the driving of the synchronous belt 1-2-6. The lifting cylinder 1-5 drives the push arm 1-3 to retract upwards and then to return to the original position, and the press plate 4-2-2 falls back to the original position due to the self-weight action. In the pushing process, the bottle feeding guide plate 5-5 is in an extending state, so that the guide effect is achieved, and when the bottle is pushed in place, the bottle feeding guide plate 5-5 retracts.

The bottle pushing plate 5-4-4 pushes the cans in a row and two layers out for a specified distance under the action of the bottle pushing cylinder 5-4-2, and the distance is generally a little larger than the diameter of the cans. Repeating the process, the push arm 1-3 pushes a row of two layers of cans to the position right in front of the bottle push plate 5-4-4. And pushing the second row of cans forwards by the bottle pushing plate 5-4-4, and pushing the second row of cans forwards together with the first row of cans to a film coating station to finish film coating operation of a group of two rows of two-layer can products.

In the embodiment, one layer of can products conveyed by a front end assembly line are divided into a plurality of groups of arrangement structures one by the arrangement of the layering device 2, the arrangement structures one by one are conveyed to the laminating device 2 through the conveying device 3, the arrangement structures one by one are realized under the action of the laminating device 2, the stacked can products are pushed to the film coating device 5 through the bottle pushing arm device 1, the arrangement structures in multiple layers and multiple columns are realized under the action of the film coating device 5, and automatic film coating is completed. Compared with the existing assembly line, the automatic stacking device can automatically complete the procedures of stacking, bottle pushing, film covering and the like of the can products, can automatically stack the can products one by one into a multi-layer and multi-row form, has high automation degree, replaces the current manual placement operation form, and improves the production efficiency.

The above-mentioned embodiments are intended to illustrate the objects, technical solutions and advantages of the present invention in further detail, and it should be understood that the above-mentioned embodiments are only exemplary embodiments of the present invention, and are not intended to limit the present invention, and any modifications, equivalents, improvements and the like made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides a jar class product stromatolite tectorial membrane production line which characterized in that: comprises a bottle pushing arm device (1), and a layering device (2), a conveying device (3), a laminating device (4) and a film covering device (5) which are sequentially arranged along the conveying direction of the can products; the conveying device (3) is provided with at least two layers of conveying parts (3-1); the layering device (2) is suitable for respectively conveying single-layer tank products on a previous production line to each layer of conveying part (3-1) of the conveying device (3); the laminating device (4) is suitable for automatically laminating single-layer can products on each conveying part (3-1), and the bottle pushing arm device (1) is suitable for pushing the multi-layer can products on the laminating device (4) to the film laminating device (5); the film covering device (5) is suitable for automatically piling multi-layer tank products into multiple rows and covering films.

2. The can product laminating and laminating production line of claim 1, wherein: the layering device (2) comprises a first rack (2-1) and a conveying device movably mounted on the first rack (2-1), wherein a first driving device connected with the conveying device is fixedly mounted on the first rack (2-1), and the first driving device is suitable for driving the conveying device to be respectively communicated with each conveying part (3-1) of the conveying device (3).

3. The can product laminating and laminating production line of claim 2, wherein: the device is characterized in that transition packing augers (6) with the same number as the conveying parts (3-1) are obliquely and fixedly installed between the layering device (2) and the conveying device (3), and the high end and the low end of each transition packing auger (6) are respectively communicated with the conveying device and the conveying parts (3-1).

4. The can product laminating and laminating production line of claim 1, wherein: the conveying device (3) comprises a support (3-2), a plurality of conveying parts (3-1) are fixedly arranged on the support (3-2) from top to bottom, and bottle holding assemblies are fixedly arranged at outlets of the conveying parts (3-1).

5. The can product laminating and laminating production line of claim 1, wherein: the bottle pushing arm device (1) comprises a second rack (1-1) and a bottle pushing arm assembly which is slidably mounted on the second rack (1-1), a bottle pushing driving device (1-2) is fixedly mounted on the second rack (1-1), and the bottle pushing driving device (1-2) is suitable for driving the bottle pushing arm assembly to move in the horizontal direction.

6. The can product laminating and laminating production line of claim 5, wherein: the push arm assembly comprises a push arm (1-3) and a translation plate (1-4) which is slidably mounted at the top of the second rack (1-1), a lifting cylinder (1-5) and an upright post (1-7) are fixedly mounted on the translation plate (1-4), one end of the push arm (1-3) is slidably mounted on the upright post (1-4) and fixedly connected with a piston rod of the lifting cylinder (1-5), and the other end of the push arm is opposite to the laminating device (4).

7. The can product laminating and laminating production line of claim 1, wherein: stromatolite device (4) are including the portion of piling up (4-2) and the stromatolite conveying portion of fixed mounting in conveyor (3) exit, stromatolite conveying portion includes a plurality of stromatolite passageway subassembly (4-3) of locating under parts of piling up (4-2) in proper order and communicating each conveying portion (3-1) respectively, the bottom fixed mounting of stromatolite conveying portion has and is suitable for jar class product on each stromatolite passageway subassembly (4-3) to jack-up subassembly (4-4) to the portion of piling up (4-2), conveyor (3) was kept away from to the one end fixed mounting at the top of jack-up subassembly (4-4) has limiting plate (4-4-3) that extend to in stromatolite passageway subassembly (4-3).

8. The can product laminating and laminating production line of claim 7, wherein: the laminated channel assembly (4-3) comprises first baffle plates (4-3-1) symmetrically arranged along the conveying direction of the tank products, a swing arm assembly is arranged on the outer side of each first baffle plate, a detection photoelectric sensor is arranged on the inner side of each first baffle plate, a movable supporting plate (4-3-5) located at the top of each first baffle plate (4-3-1) is arranged at the upper end of each swing arm assembly, and a fixed supporting plate (4-3-6) is arranged on the inner side of each first baffle plate (4-3-1) of the laminated channel assembly (4-3) located at the bottom layer.

9. The can product laminating and laminating production line of claim 7, wherein: the stacking part (4-2) comprises second baffle plates (4-2-1) symmetrically arranged at the upper part of the stacking conveying part, and press plates (4-2-2) capable of moving up and down are slidably mounted on the inner sides of the second baffle plates (4-2-1).

10. The can product laminating and laminating production line of claim 1, wherein: the film laminating device (5) comprises a film laminating machine (5-1), and a bottle feeding longitudinal baffle (5-2), a bottle feeding transverse baffle (5-3) and a bottle pushing mechanism (5-4) which are fixedly arranged on an operation table of the film laminating machine (5-1), wherein a bottle feeding guide plate (5-5) which can stretch to the operation table and is butted with the bottle feeding transverse baffle (5-3) is arranged on the film laminating machine (5-1); the bottle feeding longitudinal baffle (5-2) is communicated with the laminating device (4), and the bottle pushing mechanism (5-4) is suitable for pushing the tank-type products conveyed to the operation table of the film laminating machine (5-1) to the film laminating station of the film laminating machine (5-1).

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