CN106697405B - Mixed packaging equipment and method for sanitary products - Google Patents

Abstract

The invention discloses a mixed packaging device and a method for sanitary products, wherein the device comprises a conveying mechanism and a pushing mechanism, wherein a feeding section of the conveying mechanism is provided with a plurality of pushing mechanisms, each pushing mechanism is correspondingly connected with a production line host, and a discharging section of the conveying mechanism is connected with at least one packaging machine; the conveying mechanism is provided with n stacking units, m partitions are arranged in each stacking unit, the number of the pushing mechanisms is m, and the mth pushing mechanism is connected with the mth partition of the mth stacking unit. The method is that the production line host machine sends the products into the corresponding subareas one by one through the pushing mechanism along the feeding direction of the conveying mechanism, namely, the mth production line host machine sends the products with the mth specification into the mth subarea of the mth stacking unit through the mth pushing mechanism, and the products are sent into the packaging machine after stacking is completed. The invention can realize the mixed packaging of various products with different specifications, can completely replace the manual operation at the tail end of the sanitary towel production line, and reduces the production cost.

Description

Mixed packaging equipment and method for sanitary products

Technical Field

The invention relates to the technical field of sanitary product packaging, in particular to a mixed packaging device and method for sanitary products.

Background

At present, the operation speed of sanitary towel production equipment is generally high, and the production capacity per minute can reach hundreds of sheets to 1500 sheets. However, the production line can only finish single-sheet small packages, namely, the produced products are in the packaging state of single-sheet small packages, and the small package products still need to be packaged together by adopting packaging bags according to certain quantity and specification requirements in the follow-up process, so that the final products sold in the market can be formed. Because sanitary towel has various specifications, before packaging, sanitary towel products need to be stacked according to different packaging specifications and packaging quantity, but because the production line is continuous high-speed production, small package products cannot be directly picked up by a machine and stacked in a plurality of pieces. Therefore, the current operation mode is that a rear workbench is arranged at the tail end of a production line, small packages of products are piled on the workbench, then manually stacked, and put into a packaging machine for packaging, and each production line is generally required to be provided with 6-8 packaging workers to enable the packaging speed to be adapted to the production speed. Meanwhile, in order to facilitate carrying and use, mixed packages for packaging various sanitary napkins with different specifications are popular in the market at present, but as each sanitary napkin production line host machine can only produce and manufacture products with the same specification, that is, products in one mixed package need to come from a plurality of different sanitary napkin production line hosts, the mixed package form is more difficult to realize automation, and only manual picking and stacking can be carried out, and finally, the mixed packages are sent into a packaging machine for packaging. Therefore, the traditional sanitary towel production line needs more manual operation, has higher production cost and is difficult to further improve production efficiency.

Disclosure of Invention

The invention aims to overcome the defects of the prior art, and provides a hybrid packaging device for sanitary products, which can be matched with a plurality of sanitary towel production line hosts to realize hybrid packaging of a plurality of products with different specifications, can completely replace manual operation at the tail end of a sanitary towel production line, effectively reduces manual operation and reduces production cost.

Another object of the present invention is to provide a hybrid packaging method for sanitary products, which is achieved by means of the above-mentioned device.

The technical scheme of the invention is as follows: the mixed packaging equipment for the sanitary products comprises a conveying mechanism and a pushing mechanism, wherein the conveying mechanism comprises a feeding section and a discharging section, the feeding section is provided with a plurality of pushing mechanisms, each pushing mechanism is correspondingly connected with a production line host, and the discharging section is connected with at least one packaging machine;

the conveying mechanism is provided with n stacking units, m partitions are arranged in each stacking unit in parallel, the number of the pushing mechanisms is m, the 1 st pushing mechanism is positioned at the forefront end of the feeding section along the feeding direction of the conveying mechanism, the 1 st pushing mechanism is connected with the 1 st partition of the 1 st stacking unit, the 2 nd pushing mechanism is connected with the 2 nd partition of the 2 nd stacking unit, and the … … m pushing mechanism is connected with the m th partition of the m th stacking unit;

wherein n is greater than or equal to m, m is greater than or equal to 2, and n and m are integers.

Through dividing each stacking unit into a plurality of subareas, each subarea definitely corresponds to one production line host, products with different specifications are fed into each subarea, products with different specifications are stored in each stacking unit, and then the products are fed into a packaging machine for packaging, and finally, the mixed packaging of the products with different specifications is realized.

The conveying mechanism comprises a circulating conveying belt and a conveying belt driving assembly which are connected, n stacking units are distributed on the circulating conveying belt, and when feeding is carried out, the stacking unit at the forefront end of the feeding section is the 1 st stacking unit. The conveying belt driving assembly is used for driving the circulating conveying belt to drive each stacking unit above the circulating conveying belt to drive, and the conveying belt driving assembly is only required to adopt a common driving device in the market.

And a plurality of partition boards are arranged in each stacking unit on the circulating conveyor belt, and each partition board is vertically arranged on the circulating conveyor belt, and a partition is formed between any two adjacent partition boards. That is, each stacking unit is formed of at least three partitions, between which two partitions are formed.

And on the circulating conveyor belt, the distance between two adjacent stacking units is larger than the width of one partition. The arrangement of the distance ensures that each stacking unit is clearly separated, and effectively avoids the phenomenon of regional confusion among the stacking units in the material conveying process.

The pushing mechanism comprises a pushing plate and at least one pushing channel, the pushing channel comprises a bottom supporting plate and side baffles, the side baffles are vertically arranged on the bottom supporting plate, a pushing channel is formed between two adjacent side baffles, the pushing plate is arranged above the pushing channel, and the conveying direction of the pushing channel is vertical to the conveying direction of the conveying mechanism. The side of the push plate is provided with a push plate driving mechanism, the push plate driving mechanism is realized by adopting a general driving device in the market, and the push plate moves back and forth along the direction of the pushing channel under the action of the push plate driving mechanism, so that a product is driven to be sent to the conveying mechanism along the pushing channel.

And the width of the inlet of the pushing channel is larger than that of the outlet along the conveying direction of the product.

The invention realizes a mixed packaging method for sanitary products by the equipment, which comprises the following steps:

(1) Along the feeding direction of the conveying mechanism, at the position close to the forefront end of the feeding section, a 1 st production line host machine sends a first specification product into a 1 st partition of a 1 st stacking unit through a 1 st pushing mechanism;

(2) The conveying mechanism conveys forwards, the conveying distance is equal to the width of one stacking unit, at the moment, the stacking unit with the first specification product is converted into a 2 nd stacking unit, and the 2 nd production line host machine sends the second specification product into a 2 nd partition of the 2 nd stacking unit through the 2 nd pushing mechanism;

(3) Repeating the step (2) until an mth production line host sends an mth specification product into an mth partition of an mth stacking unit through an mth pushing mechanism;

(4) The conveyor mechanism continues to convey forward, and the stacking unit with the products of various specifications is fed into the discharge section and into the respective packaging machine at the discharge section.

In the step (3), when the mth pushing mechanism sends the mth specification product into the mth partition of the mth stacking unit, the 1 st to (m-1) pushing mechanisms also act simultaneously, and the corresponding specification products are sent into the corresponding stacking units. That is, a plurality of production line hosts simultaneously send products with corresponding specifications to each stacking unit on the conveying mechanism, so that the conveying mechanism realizes continuous feeding and conveying, and the production period of the packaging machine can be shortened.

And (4) when a plurality of packing machines are connected to the discharging section, each stacking unit on the conveying mechanism alternately conveys products to the corresponding packing machine. The product conveying mode can also adopt a pushing plate and a pushing channel which are similar to the pushing mechanism to push, so that products with various specifications which are stacked are formed into an integral unit and sent into the packaging machine, and then the packaging machine is used for packaging the products.

Compared with the prior art, the invention has the following beneficial effects:

the mixed packaging equipment and the method for sanitary products can completely replace the manual operation at the tail end of the conventional sanitary towel production line, realize the automatic mixed packaging of various products with different specifications, effectively reduce the manual operation and reduce the production cost. Meanwhile, the mixed packaging equipment is characterized in that a plurality of stacking units are arranged on the conveying mechanism and are divided into a plurality of subareas, so that each subarea corresponds to a product with one specification, a corresponding pushing mechanism and a corresponding production line host machine, accurate feeding and packaging of the product can be realized, and the improvement of the product packaging efficiency and the product quality is facilitated.

In actual production operation, a reasonable number of production line hosts and pushing mechanisms can be connected on the same mixed packaging equipment according to actual requirements of large packages of products, and meanwhile, the number of stacking units and the number of partitions can be adjusted, so that equipment cost is effectively controlled. In addition, according to the actual demand of packing volume, can connect many packagine machines on same mixed packaging equipment, further improve packing efficiency.

The mixed packaging equipment and the method for the sanitary product can be applied to packaging of sanitary products such as sanitary napkins and the like, can also be applied to packaging of other sheet-shaped products, and are wide in application range and good in market popularization prospect.

Drawings

Fig. 1 is a schematic diagram of the principle of the present hybrid packaging device in use.

Fig. 2 is a view in the direction a of fig. 1.

Fig. 3 is a schematic diagram of the overall structure of the hybrid packaging device when the hybrid packaging device is applied between a production line host and a packaging machine.

Fig. 4 is a schematic structural view of the hybrid packaging device when the pushing mechanism is connected with the conveying mechanism.

Fig. 5 is a schematic view of another structure of the hybrid packaging device when the pushing mechanism is connected to the conveying mechanism.

Fig. 6 is a schematic diagram of a queuing and storing device in a production line host.

Fig. 7 is a schematic diagram of the product of fig. 6 in a queuing manner by a wind-fire wheel.

Fig. 8 is a schematic view of the structure of the single discharge box in fig. 6.

Detailed Description

The present invention will be described in further detail with reference to examples, but embodiments of the present invention are not limited thereto.

Example 1

The embodiment of a hybrid packaging device for sanitary products, as shown in fig. 3, comprises a conveying mechanism 1 and a pushing mechanism 2, wherein the conveying mechanism comprises a feeding section and a discharging section, the feeding section is provided with a plurality of pushing mechanisms, each pushing mechanism is correspondingly connected with a production line host 3, and the discharging section is connected with at least one packaging machine 4;

as shown in fig. 1 or fig. 2, n stacking units 5 are arranged on the conveying mechanism, m partitions 6 are arranged in each stacking unit side by side, m pushing mechanisms are provided, along the feeding direction of the conveying mechanism, the 1 st pushing mechanism is connected with the 1 st partition of the 1 st stacking unit, the 2 nd pushing mechanism is connected with the 2 nd partition of the 2 nd stacking unit, and the … … m pushing mechanism is connected with the m partition of the m stacking unit;

wherein n is greater than or equal to m, m is greater than or equal to 2, and n and m are integers.

Through dividing each stacking unit into a plurality of subareas, each subarea definitely corresponds to one production line host, products with different specifications are fed into each subarea, products with different specifications are stored in each stacking unit, and then the products are fed into a packaging machine for packaging, and finally, the mixed packaging of the products with different specifications is realized.

The conveying mechanism comprises a circulating conveying belt 1-1 and a conveying belt driving assembly 1-2 which are connected, n stacking units are distributed on the circulating conveying belt, and when feeding is carried out, the stacking unit at the forefront end of the feeding section is the 1 st stacking unit. The conveying belt driving assembly is used for driving the circulating conveying belt to drive each stacking unit above the circulating conveying belt to drive, and the conveying belt driving assembly is only required to adopt a common driving device in the market.

On the circulating conveyor belt, a plurality of partition plates 7 are arranged in each stacking unit, each partition plate is vertically arranged on the circulating conveyor belt, and a partition is formed between any two adjacent partition plates. That is, each stacking unit is formed of at least three partitions, between which two partitions are formed. On the endless conveyor belt, the distance between two adjacent stacking units is larger than the width of one partition. The arrangement of the distance ensures that each stacking unit is clearly separated, and effectively avoids the phenomenon of regional confusion among the stacking units in the material conveying process.

As shown in fig. 4 or fig. 5, the pushing mechanism comprises a pushing plate 8 and at least one pushing channel 9, the pushing channel comprises a bottom supporting plate 10 and side baffles 11, the side baffles are vertically arranged on the bottom supporting plate, a pushing channel is formed between two adjacent side baffles, the pushing plate is arranged above the pushing channel, and the conveying direction of the pushing channel is vertical to that of the conveying mechanism. The side of the push plate is provided with a push plate driving mechanism, the push plate driving mechanism is realized by adopting a general driving device in the market, and the push plate moves back and forth along the direction of the pushing channel under the action of the push plate driving mechanism, so that a product is driven to be sent to the conveying mechanism along the pushing channel. Along the conveying direction of the product, the width of the inlet of the pushing channel is larger than that of the outlet.

In the above-mentioned apparatus, as shown in fig. 3, the product in each pushing mechanism is provided by a main machine of a production line, and the end of the main machine of the production line is provided with a queuing storage device 12, and is connected with the pushing mechanism through the queuing storage device. The queuing and storing device has the following specific structure:

as shown in fig. 6, the queuing storage device comprises an annular guide rail 13, a wind-fire wheel 14, a discharge box 15, an intermittent discharge mechanism 16 and a synchronous mechanism 17, wherein a plurality of discharge boxes sliding along the annular guide rail are distributed on the annular guide rail, the wind-fire wheel is arranged at one end of the annular guide rail (the corresponding area on the annular guide rail is a feeding area), the wind-fire wheel is connected with the end of a production line host machine, the synchronous mechanism for connecting the wind-fire wheel and the discharge boxes is arranged below the wind-fire wheel, and the intermittent discharge mechanism is arranged at the other end of the annular guide rail (the corresponding storage area on the annular guide rail). The primary function of the wind-fire wheel is to complete the entry of the packet product 18 into the queuing storage (as shown in fig. 7). The main purpose of setting up synchro mechanism is, when every station of wind-fire wheel brought into a piece of product, makes the position of row's magazine corresponding movement one check through synchro mechanism, makes the product fall into row's magazine, and row's magazine every check falls into a piece of product to this accomplish the feeding and the count of product. The intermittent release mechanism is arranged, and the intermittent release mechanism is used for enabling the discharge boxes to enter the storage area, and then to be concentrated in the storage area according to the required quantity and then to be sent to the packaging machine, so that the discharge boxes are prevented from directly entering the return area before the products in the discharge boxes are sent out, and the normal operation of the whole equipment is ensured.

The structure of the discharging box is shown in fig. 8, and the discharging box comprises a box body 19, a mounting base body 20 and pulleys 21, wherein the mounting base body is a rectangular mounting frame, the box body is fixed on the mounting base body, two rows of pulleys which are arranged up and down are arranged in the mounting frame, and the two rows of pulleys are respectively arranged on the upper side and the lower side of the annular guide rail. In the discharging box, the box body is in a comb-tooth-shaped grid structure, and each grid is correspondingly provided with a piece of product. In the discharge box, two rows of pulleys and an installation matrix form a wheel system, the number of each row of pulleys can be installed according to the actual width of the box body, a V-shaped groove which is opposite up and down is formed between any group of pulleys which correspond up and down, and the pulleys are clamped on the annular guide rail through the V-shaped groove, so that the pulleys can drive the whole discharge box to move around the annular guide rail.

The circumference of the wind-fire wheel is provided with a plurality of stations, and when the wind-fire wheel rotates one station, the discharging box correspondingly moves one lattice towards the direction of the material storage area. The process is completed through the synchronous mechanism, and the rotation distance of the wind turbine wheel can be realized by combining the preset number of worm revolutions.

The synchronous mechanism is in a structure form of matching a worm gear and a synchronous belt, and the structure is an existing structure.

The intermittent release mechanism is also of an existing structure, and has the structural form that an annular chain is arranged on one side of an annular guide rail, at least one locating pin is arranged on the annular chain, and when the locating pin rotates to the top surface of the annular chain along with the annular chain, the top surface of the locating pin is higher than the bottom surface of a mounting matrix in a discharge box, and the discharge box can be blocked at the moment so as to be fixed in a storage area; when the locating pin moves to the bottom of the chain along with the annular chain, the locating pin does not block the discharging box, and the discharging box is sent back to the feeding area along the annular guide rail.

Example 2

This embodiment realizes a hybrid packaging method for sanitary products by the apparatus of embodiment 1, as shown in fig. 1 or fig. 2, specifically including the following steps:

(1) Along the feeding direction of the conveying mechanism, at the position close to the forefront end of the feeding section, a 1 st production line host machine sends a first specification product into a 1 st partition of a 1 st stacking unit through a 1 st pushing mechanism;

(2) The conveying mechanism conveys forwards, the conveying distance is equal to the width of one stacking unit, at the moment, the stacking unit with the first specification product is converted into a 2 nd stacking unit, and the 2 nd production line host machine sends the second specification product into a 2 nd partition of the 2 nd stacking unit through the 2 nd pushing mechanism;

(3) Repeating the step (2) until an mth production line host sends an mth specification product into an mth partition of an mth stacking unit through an mth pushing mechanism; when the mth pushing mechanism sends the mth specification product into the mth partition of the mth stacking unit, the 1 st to (m-1) pushing mechanisms also act simultaneously, and the corresponding specification product is sent into the corresponding stacking unit. That is, a plurality of production line hosts simultaneously send products with corresponding specifications to each stacking unit on the conveying mechanism, so that the conveying mechanism realizes continuous feeding and conveying, and the production period of the packaging machine can be shortened;

(4) The conveying mechanism continues to convey forwards, and the stacking unit with the products with various specifications is sent to the discharging section and is sent to the corresponding packaging machine at the discharging section; when a plurality of packing machines are connected to the discharging section, each stacking unit on the conveying mechanism alternately conveys products to the corresponding packing machine. The product conveying mode can also adopt a pushing plate and a pushing channel which are similar to the pushing mechanism to push, so that products with various specifications which are stacked are formed into an integral unit and sent into the packaging machine, and then the packaging machine is used for packaging the products.

As described above, the present invention can be better realized, and the above-described embodiments are only preferred embodiments of the present invention, and are not intended to limit the scope of the present invention; all equivalent changes and modifications are intended to be covered by the scope of the appended claims.

Claims (5)

1. The mixed packaging equipment for the sanitary products is characterized by comprising a conveying mechanism and a pushing mechanism, wherein the conveying mechanism comprises a feeding section and a discharging section, the feeding section is provided with a plurality of pushing mechanisms, each pushing mechanism is correspondingly connected with a production line host, and the discharging section is connected with at least one packaging machine;

the conveying mechanism is provided with n stacking units, m partitions are arranged in each stacking unit in parallel, the number of the pushing mechanisms is m, the 1 st pushing mechanism is positioned at the forefront end of the feeding section along the feeding direction of the conveying mechanism, the 1 st pushing mechanism is connected with the 1 st partition of the 1 st stacking unit, the 2 nd pushing mechanism is connected with the 2 nd partition of the 2 nd stacking unit, and the … … m pushing mechanism is connected with the m th partition of the m th stacking unit;

wherein n is greater than or equal to m and m is greater than or equal to 2, and n and m are integers;

the pushing mechanism comprises a pushing plate and at least one pushing channel, the pushing channel comprises a bottom supporting plate and side baffles, the side baffles are vertically arranged on the bottom supporting plate, a pushing channel is formed between two adjacent side baffles, the pushing plate is arranged above the pushing channel, and the conveying direction of the pushing channel is vertical to the conveying direction of the conveying mechanism;

the tail end of the production line host is provided with a queuing storage device and is connected with the pushing mechanism through the queuing storage device; the queuing storage device comprises an annular guide rail, a wind-fire wheel, a discharge box, an intermittent discharge mechanism and a synchronous mechanism, wherein a plurality of discharge boxes sliding along the annular guide rail are distributed on the annular guide rail, the wind-fire wheel is arranged at one end of the annular guide rail and is connected with the tail end of a production line host, the synchronous mechanism for connecting the wind-fire wheel and the discharge boxes is arranged below the wind-fire wheel, and the intermittent discharge mechanism is arranged at the other end of the annular guide rail; the discharging box comprises a box body, a mounting base body and pulleys, wherein the mounting base body is a rectangular mounting frame, the box body is fixed on the mounting base body, two rows of pulleys which are arranged up and down are arranged in the mounting frame, and the two rows of pulleys are respectively arranged on the upper side and the lower side of the annular guide rail;

the conveying mechanism comprises a circulating conveying belt and a conveying belt driving assembly which are connected, n stacking units are distributed on the circulating conveying belt, and when feeding is carried out, the stacking unit at the forefront end of the feeding section is the 1 st stacking unit;

a plurality of partition boards are arranged in each stacking unit on the circulating conveyor belt, and each partition board is vertically arranged on the circulating conveyor belt, and a partition is formed between any two adjacent partition boards;

and on the circulating conveyor belt, the distance between two adjacent stacking units is larger than the width of one partition.

2. A hybrid packaging device for hygiene products according to claim 1, characterized in that the width of the pushing channel at the inlet is greater than the width at the outlet in the direction of transport of the product.

3. A hybrid packaging apparatus for sanitary products according to claim 1 or 2, wherein a hybrid packaging method for sanitary products is realized, comprising the steps of:

(1) Along the feeding direction of the conveying mechanism, at the position close to the forefront end of the feeding section, a 1 st production line host machine sends a first specification product into a 1 st partition of a 1 st stacking unit through a 1 st pushing mechanism;

(2) The conveying mechanism conveys forwards, the conveying distance is equal to the width of one stacking unit, at the moment, the stacking unit with the first specification product is converted into a 2 nd stacking unit, and the 2 nd production line host machine sends the second specification product into a 2 nd partition of the 2 nd stacking unit through the 2 nd pushing mechanism;

(3) Repeating the step (2) until an mth production line host sends an mth specification product into an mth partition of an mth stacking unit through an mth pushing mechanism;

(4) The conveyor mechanism continues to convey forward, and the stacking unit with the products of various specifications is fed into the discharge section and into the respective packaging machine at the discharge section.

4. A hybrid packaging method for sanitary products according to claim 3, wherein in step (3), when the mth pushing mechanism feeds the mth product into the mth partition of the mth stacking unit, the 1 st to (m-1) th pushing mechanisms are also simultaneously operated to feed the corresponding product into the corresponding stacking unit.

5. A method of hybrid packaging for hygiene products according to claim 3, wherein in step (4), when a plurality of packaging machines are connected to the outfeed section, each stacking unit on the conveyor mechanism alternately delivers products to the respective packaging machines.

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