CN219524447U - Automatic bagging mechanism - Google Patents

Abstract

The utility model relates to the technical field of product bagging, in particular to an automatic bagging mechanism which comprises a bagging bracket, a first bagging supporting plate, a second bagging supporting plate, a connecting shaft, a bagging barrel and a limiting module, wherein the first bagging supporting plate is fixedly connected with the first bagging supporting plate; the first bagging supporting plate and the second bagging supporting plate are arranged on two sides of the bagging bracket; the connecting shaft is connected between the horizontal first bagging supporting plate and the horizontal second bagging supporting plate, and the lower part of the opening end of the bagging cylinder is rotationally connected to the connecting shaft; the closed end of the bagging cylinder is connected with the bagging bracket through the limiting module, and the opening end of the bagging cylinder is higher than the closed end of the bagging cylinder. Through rotating the bagging-off section of thick bamboo and connecting on the connecting axle, it is spacing through spacing module to can make the bagging-off section of thick bamboo be relative level and place, make the open end of bagging-off section of thick bamboo be higher than the blind end of bagging-off section of thick bamboo, and then can make the slow roll-in of product to the barrel head of bagging-off section of thick bamboo, finally avoid being that the product is direct vertical to drop down, effectively prevent the product damage, ensure product bagging-off quality.

Description

Automatic bagging mechanism

Technical Field

The utility model relates to the technical field of product bagging, in particular to an automatic bagging mechanism.

Background

In the existing bagging process of the product (neodymium iron boron square sheet), a packaging bag is sleeved into a bagging barrel firstly, the bagging barrel is placed below a discharge hole of polishing equipment, the polished product (neodymium iron boron square sheet) is sent out through the polishing equipment and falls into the packaging bag of the bagging barrel, and then the packaging bag filled with the product (neodymium iron boron square sheet) is taken out manually, and the next empty packaging bag is replaced, so that the process is repeated.

Frequent bagging and bagging are carried out manually, a large amount of replacement time is required, the manual work is required to be kept nearby the packaging bag all the time, if the manual work is lazy, forgets or is busy with other works, the packaging bag is filled up, parts are fully discharged out of the packaging bag, the manual work is used for counting, products in each packaging bag can be guaranteed to be approximately the same, the same quantity of products filled in each bag cannot be guaranteed, the quantity of products between each bag is different, the consistency of each bag of products (neodymium iron boron square sheets) cannot be guaranteed, and the overall production efficiency of the products (neodymium iron boron square sheets) is finally affected.

Especially, the current bagging cylinder is vertical in the discharge gate below of equipment of polishing, and in the wrapping bag of bagging cylinder was directly fallen into to the equipment of polishing when the product (neodymium iron boron square) that will polish was sent out, because there is certain height between bagging cylinder bottom and the discharge gate of equipment of polishing, the product (neodymium iron boron square) of bottom often can appear because directly follow the discharge gate of equipment of polishing drops, causes certain product damage, leads to quality detection phenomenon not up to standard.

Disclosure of Invention

The utility model aims to solve the technical problem that the existing products (neodymium iron boron square sheets) are damaged during bagging and the quality of the products is affected, and provides an automatic bagging mechanism which can enable a bagging barrel to be placed relatively horizontally, prevent the products conveyed by polishing equipment from directly falling into the bottom of the bagging barrel and reduce the falling height of the products, so that the damage of the products can be effectively reduced, and the bagging quality of the products is improved.

The utility model aims at realizing the following technical scheme:

an automatic bagging mechanism comprises a bagging bracket, a first bagging supporting plate, a second bagging supporting plate, a connecting shaft, a bagging barrel and a limiting module; the first bagging support plate and the second bagging support plate are arranged on two sides of the bagging support; the connecting shaft is connected between the horizontal first bagging supporting plate and the horizontal second bagging supporting plate and is positioned at the outer sides of the first bagging supporting plate and the second bagging supporting plate; the lower part of the opening end of the bagging cylinder is rotationally connected to the connecting shaft; the closed end of the bagging cylinder is connected with the bagging bracket through the limiting module, and the opening end of the bagging cylinder is higher than the closed end of the bagging cylinder. Through rotating the bagging-off section of thick bamboo and connecting on the connecting axle to spacing through spacing module, thereby can make the bagging-off section of thick bamboo be relative level and place, and make the open end of bagging-off section of thick bamboo be higher than the blind end of bagging-off section of thick bamboo, can make the slow roll-in of product to the barrel head of bagging-off section of thick bamboo, thereby avoid being the direct vertical whereabouts of product, effectively prevent the product damage, further ensure product bagging-off quality.

Preferably, the limit module comprises an L-shaped connecting plate, a connecting spring and a spring connecting block; the riser of L type connecting plate with the blind end fixed connection of bagging-off section of thick bamboo, the diaphragm of L type connecting plate with connecting spring's one end is connected, connecting spring's the other end pass through the spring connecting block with bagging-off leg joint. The utility model discloses a bagging-off section of thick bamboo is filled up the wrapping bag with the product, through connecting spring coupling between the blind end and the bagging-off support of bagging-off section of thick bamboo, can further guarantee that the bagging-off section of thick bamboo is along with the increase of weight, the blind end of bagging-off section of thick bamboo rotates downwards to can make the product fall into to the barrel head gradually, and then conveniently fill up the wrapping bag with the product.

Preferably, the packaging bag packaging machine further comprises an adsorption module, wherein the adsorption module is arranged at the bottom of the opening end of the bagging barrel, and is used for adsorbing the turnover part of the packaging bag sleeved in the bagging barrel and preventing the packaging bag from being separated from the bagging barrel. Can be convenient for adsorb the wrapping bag through adsorption module to prevent to drive the wrapping bag in the lump after the product is carried to the wrapping bag and move down, and then can effectively fix the wrapping bag, promote bagging-off holistic stability.

Preferably, the adsorption module comprises a suction head support plate and a suction head; the suction head supporting plate is arranged at the bottom of the opening end of the bagging barrel, the suction head is fixedly connected to the suction head supporting plate, and the suction end of the suction head faces the outer wall of the opening end of the bagging barrel; the adsorption head is connected with an air suction pipe, and is communicated with an air suction device through the air suction pipe to realize air suction. Through the open end of absorption head and bagging-off section of thick bamboo perpendicularly to can effectually adsorb wrapping bag folded part towards the open end of bagging-off section of thick bamboo, thereby prevent that the product from carrying the wrapping bag and remove when whereabouts to bagging-off section of thick bamboo bottom, and then can prevent that the wrapping bag from droing and being impressed into the bagging-off section of thick bamboo by the product, finally can ensure stable orderly with the product bagging-off and divide the bag, promote and divide bag efficiency and divide bag stability.

Preferably, the rotary disk module further comprises a rotary driving assembly and a rotary disk; the center of the rotary disk is connected to the driving shaft of the rotary driving assembly, and the rotary driving assembly drives the rotary disk to rotate; the upper angle of the rotary disk is provided with a plurality of bag separating stations, the bag filling support is arranged on one of the bag separating stations on the rotary disk, and the extension line of the opening end of the bag filling cylinder is aligned with the center of the rotary disk. The rotary driving assembly on the rotary disc module drives the rotary disc to rotate, so that the bag separating effect can be realized, the frequent bag changing of staff is not needed, the manual operation time is reduced, and the products can be effectively distributed into each packaging bag.

Preferably, the center of the rotating disc is provided with a gas path total joint, the gas path total joint is connected with the air suction equipment, and a plurality of gas path branch joints are circumferentially arranged on the peripheral wall of the gas path total joint; each gas path branch joint corresponds to each bag separating station, a plurality of vacuum generators are circumferentially arranged on the outer ring of the rotary disk, each gas path branch joint on the gas path main joint is connected with each corresponding vacuum generator through a gas pipe, and the adsorption head is connected with one corresponding vacuum generator through a suction gas pipe. The vacuum adsorption device is realized by the cooperation of the gas circuit main joint, the vacuum generator and the adsorption head.

In summary, the utility model has the advantages that the bagging cylinder is rotationally connected to the connecting shaft and is limited by the limiting module, so that the bagging cylinder is placed relatively horizontally, the opening end of the bagging cylinder is higher than the closed end of the bagging cylinder, and the product can slowly slide into the bottom of the bagging cylinder, thereby avoiding the direct vertical falling of the product, effectively preventing the damage of the product and further ensuring the bagging quality of the product.

Drawings

Fig. 1 is a schematic structural view of an automatic bagging mechanism of the present utility model.

Fig. 2 is a schematic plan view of the present utility model.

Fig. 3 is a schematic structural view of the present utility model.

Wherein: 31. a rotary drive assembly; 32. a rotating disc; 321. the gas circuit total joint; 322. the gas path branch joint; 323. a vacuum generator; 330. bagging the bracket; 331. a first bagging support plate; 332. a second bagging support plate; 333. a connecting shaft; 334. bagging a barrel; 34. a limit module; 341. an L-shaped connecting plate; 342. a connecting spring; 35. an adsorption module; 351. a suction head support plate; 352. an adsorption head.

Detailed Description

In order that the above objects, features and advantages of the utility model will be readily understood, a more particular description of the utility model will be rendered by reference to specific embodiments thereof which are illustrated in the appended drawings.

As shown in fig. 1 to 3, an automatic bagging mechanism includes a bagging bracket 330, a first bagging support plate 331, a second bagging support plate 332, a connecting shaft 333 and a bagging cylinder 334, a limit module 34 and a rotating disk module; the rotary disk module includes a rotary drive assembly 31 and a rotary disk 32; the rotary driving assembly 31 is arranged on the frame, the center of the rotary disk 32 is connected to the driving shaft of the rotary driving assembly 31, and the rotary driving assembly 31 drives the rotary disk 32 to rotate; the rotation driving unit 31 is driven to rotate by a rotation motor and a speed reducer. Eight bag separating stations are arranged on the rotary disc 32 at equal angles, the bag filling bracket 330 is correspondingly arranged on one of the bag separating stations, and each bag separating station has the same structure. During bagging, one of the bagging stations is aligned with the discharge port of the polishing device, so that the product (neodymium iron boron square sheet) is sequentially conveyed into the bagging barrel 334 of each bagging station. Can realize automatic bagging-off and divide the bag, after the wrapping bag on one of them bag station fills up product (neodymium iron boron square), through rotatory drive assembly 31 drive rotary disk 32 rotation, thereby can rotate the bag station of dividing of another station on the rotary disk 32 to the discharge gate department of polishing equipment, thereby can adorn next wrapping bag, realize automatic bagging-off and automatic partial shipment, reduce artifical bagging-off many times, alleviate manual strength, promote bagging-off efficiency greatly, and also can be effectual with the product distribution to every wrapping bag in.

As shown in fig. 1 to 3, the first bagging support plate 331 and the second bagging support plate 332 are symmetrically disposed on the bagging support 330; the connecting shaft 333 is connected between the horizontal first bagging support plate 331 and the second bagging support plate 332, and is located outside the first bagging support plate 331 and the second bagging support plate 332; the lower part of the opening end of the bagging cylinder 334 is rotatably connected to the connecting shaft 333; the closed end of the bagging drum 334 is connected to the bagging bracket 330 by a limit module 34, with the open end of the bagging drum 334 being higher than the closed end of the bagging drum 334. The above-mentioned structure can make bagging cylinder 334 keep the state of slight slope and relative level when not adorning the product, can give bagging cylinder 334 increase weight along with the increase of product, thereby make the blind end of bagging cylinder 334 by relative level downwardly rotating, but the effort through spacing module 34 can guarantee bagging cylinder 334 slow rotation, and also can prevent bagging cylinder 334 excessive rotation, thereby can ensure that the product can not make bagging cylinder 334 turn over when filling up, can make the slow roll-in of product to bagging cylinder 334 barrel head, thereby avoid being the direct vertical whereabouts of product, effectively prevent the product damage, further ensure product bagging quality.

As shown in fig. 1 to 3, the limit module 34 includes an L-shaped connection plate 341, a connection spring 342, and a spring connection block; the riser of L type connecting plate 341 is connected with the blind end fixed connection of bagging-off section of thick bamboo 334, and the diaphragm of L type connecting plate 341 is connected with the one end of coupling spring 342, and the other end of coupling spring 342 passes through the spring connecting block and is connected with bagging bracket 330. The connecting spring 342 is connected between the closed end of the bagging cylinder 334 and the bagging bracket 330, so that the bagging cylinder 334 can be further ensured to rotate downwards along with the increase of weight, and the closed end of the bagging cylinder 334 can be conveniently filled with the product.

As shown in fig. 1 to 3, a gas path total joint 321 is arranged at the center of the rotating disk 32, the gas path total joint 321 is connected with a suction mechanism, and a plurality of gas path branch joints 322 are circumferentially arranged on the peripheral wall of the gas path total joint 321; each bag separating station is also provided with a vacuum generator 323; each gas circuit branch joint 322 on the gas circuit total joint 321 is connected with each corresponding vacuum generator 323 through a gas pipe, each bag separating station further comprises an adsorption module 35, and the packaging bag can be conveniently adsorbed through the adsorption module 35, so that the packaging bag is prevented from being driven down together after being conveyed into the packaging bag, the packaging bag can be effectively fixed, and the overall stability of the packaging bag is improved.

The adsorption module 35 is arranged at the bottom of the opening end of the bagging barrel 334, the adsorption module 35 is connected with the vacuum generator 323 through an air pipe, and the adsorption module 35 is used for adsorbing the turnover part of the packaging bag sleeved in the bagging barrel 334 and preventing the packaging bag from being separated from the bagging barrel 334. Can adsorb the section of turning over of wrapping bag through adsorption module 35, prevent to drive the wrapping bag when product transport whereabouts to bagging-off section of thick bamboo 334 bottom, make the wrapping bag fall into bagging-off section of thick bamboo 334 in when can preventing the product pay-off, adsorb through the wrapping bag and prevent not hard up to ensure stable efficient and pack.

As shown in fig. 3, the suction module 35 includes a suction head support plate 351 and a suction head 352; the suction head support plate 351 is arranged at the bottom of the opening end of the bagging barrel 334, the suction head 352 is fixedly connected to the suction head support plate 351, the suction head 352 is connected with the vacuum generator 323 through an induced draft air pipe, and the suction head 352 faces the outer wall of the opening end of the bagging barrel 334. Through absorption head 352 and bagging-off section of thick bamboo 334 open end are perpendicular to can effectually adsorb wrapping bag folded part towards the open end of bagging-off section of thick bamboo 334, thereby prevent that the product from driving the wrapping bag and remove when carrying whereabouts to bagging-off section of thick bamboo 334 bottom, and then can prevent that the wrapping bag from droing and being pressed into bagging-off section of thick bamboo 334 by the product in, can guarantee at last that stable orderly carries out bagging-off and bag separation with the product, promote bag separation efficiency and bag separation stability.

When the mechanism works, the bagging drums 334 on each or a plurality of bagging stations are sleeved into the packaging bags, the first three bagging stations are sleeved firstly, the later bagging stations without the packaging bags can be sleeved again manually in operation, and suction is carried out by opening suction equipment, so that each vacuum generator 323 is communicated with the suction head 352 to enable each suction head 352 to form suction force, the turnover parts sleeved into the packaging bags are sucked through the suction force of the suction heads 352, and the turnover parts of the packaging bags are prevented from being separated from the bagging drums 334 in the bagging process. The rotary driving assembly 31 drives the bagging station of the sleeved packaging bag on the rotary disc 32 to be rotationally positioned below the discharge hole of the polishing device, the opening end of the bagging barrel 334 of the bagging station is aligned with the discharge hole of the polishing device, polished products are conveyed into the packaging bags of the bagging barrels 334 one by one through the polishing device, after the bagging barrel 334 of one bagging station is filled, the rotary disc 32 is rotated to the next bagging station, and after the bagging barrel 334 of the other packaging bag filled with an empty bag is in place, polished products (neodymium iron boron square sheets) are continuously bagged, so that bagging and bagging actions are repeated.

In summary, the utility model has the advantages that the product can slowly slide into the bottom of the bagging barrel 334, thereby avoiding the product (neodymium iron boron square sheet) from directly and vertically falling, effectively preventing the product (neodymium iron boron square sheet) from being damaged, further ensuring the bagging quality of the product, realizing the bag separating effect by driving the rotary disk 32 to rotate through the rotary driving component 31 on the rotary disk module, avoiding frequent bag changing by staff, reducing the time of manual operation, and effectively distributing the product (neodymium iron boron square sheet) into the packaging bags of each sub-packaging station.

Although the present disclosure is described above, the scope of protection of the present disclosure is not limited thereto. Various changes and modifications may be made by one skilled in the art without departing from the spirit and scope of the disclosure, and these changes and modifications will fall within the scope of the utility model.

Claims (6)

1. An automatic bagging mechanism is characterized by comprising a bagging bracket (330), a first bagging supporting plate (331), a second bagging supporting plate (332), a connecting shaft (333), a bagging cylinder (334) and a limiting module (34); the first bagging supporting plate (331) and the second bagging supporting plate (332) are arranged on two sides of the bagging bracket (330); the connecting shaft (333) is connected between the horizontal first bagging supporting plate (331) and the second bagging supporting plate (332) and is positioned outside the first bagging supporting plate (331) and the second bagging supporting plate (332); the lower part of the opening end of the bagging cylinder (334) is rotationally connected to the connecting shaft (333); the closed end of the bagging cylinder (334) is connected with the bagging bracket (330) through a limiting module (34), and the opening end of the bagging cylinder (334) is higher than the closed end of the bagging cylinder (334).

2. The automatic bagging mechanism according to claim 1, wherein the limit module (34) comprises an L-shaped connecting plate (341), a connecting spring (342) and a spring connecting block; the riser of L type connecting plate (341) is connected with the blind end fixed connection of bagging-off section of thick bamboo (334), the diaphragm of L type connecting plate (341) with one end of connecting spring (342) is connected, the other end of connecting spring (342) pass through the spring connecting block with bagging-off support (330) is connected.

3. The automatic bagging mechanism according to claim 1, further comprising an adsorption module (35), wherein the adsorption module (35) is disposed at the bottom of the open end of the bagging drum (334), and the adsorption module (35) is configured to adsorb the turndown portion of the packaging bag sleeved in the bagging drum (334) and prevent the packaging bag from being separated from the bagging drum (334).

4. An automatic bagging machine as claimed in claim 3, wherein said suction module (35) comprises a suction head support plate (351) and a suction head (352); the suction head supporting plate (351) is arranged at the bottom of the opening end of the bagging barrel (334), the suction head (352) is fixedly connected to the suction head supporting plate (351), and the suction end of the suction head (352) faces the outer wall of the opening end of the bagging barrel (334); the adsorption head (352) is connected with an air suction pipe, and is communicated with an air suction device through the air suction pipe to realize air suction.

5. The automated bagging mechanism of claim 4, further comprising a rotary disk module,

the rotary disk module comprises a rotary drive assembly (31) and a rotary disk (32); the center of the rotary disk (32) is connected to the driving shaft of the rotary driving assembly (31), and the rotary driving assembly (31) drives the rotary disk (32) to rotate; a plurality of bag separating stations are equiangularly arranged on the rotary disk (32), the bag packing support (330) is arranged on one bag separating station on the rotary disk (32),

an extension line of the open end of the bagging cylinder (334) is aligned with the center of the rotary disk (32).

6. The automatic bagging mechanism according to claim 5, wherein the center of the rotary disk (32) is provided with a gas path total joint (321), the gas path total joint (321) is connected with a suction device,

a plurality of air passage branch joints (322) are circumferentially arranged on the outer peripheral wall of the air passage main joint (321); each gas path branch joint (322) corresponds with each bag separating station, a plurality of vacuum generators (323) are circumferentially arranged on the outer ring of the rotating disc (32), each gas path branch joint (322) on the gas path total joint (321) is respectively connected with each corresponding vacuum generator (323) through a gas pipe, and the adsorption head (352) is connected with one corresponding vacuum generator (323) through a suction gas pipe.