CN114455158A - Automatic packaging method for suction nozzle bag - Google Patents

Abstract

An automatic packaging method for a suction nozzle bag is characterized in that: the method comprises the following steps: (1) preprocessing a suction nozzle bag; (2) sealing the material nozzle; (3) filling materials; (4) and (5) installing a sealing cover. Compared with the prior art, the processing method has the advantages that the processing step of installing the material nozzle to the opening of the suction nozzle bag body to obtain the finished suction nozzle bag and the processing step of installing the sealing cover for filling the material are sequentially and continuously carried out, and the processing and filling of the finished suction nozzle bag are finished at one time, so that the working efficiency can be greatly improved, the sanitary condition is improved, and the production cost is reduced; the intermittent rotating turntable is used for pre-treating the suction nozzle bag, so that the stability of bag sleeving and preheating sealing processing can be effectively guaranteed; the continuous-motion annular chain conveying mechanism is used for conveying the suction nozzle bags and enables the sealing equipment, the filling equipment and the sealing cover mounting equipment to move along with the suction nozzle bags during processing, and the processing speed of finished suction nozzle bag packaging products can be effectively increased.

Description

Automatic packaging method for suction nozzle bag

Technical Field

The invention relates to packaging equipment of a suction nozzle bag, in particular to an automatic packaging method of the suction nozzle bag, which can greatly improve the working efficiency, greatly reduce the cost and effectively improve the sanitary condition of the suction nozzle bag in the production process.

Background

At present, the bag making of the suction nozzle bag packaging finished product is usually completed by adopting a bag making production line, and the suction nozzle bag produced by the bag making production line is sent to a packaging machine for filling, and then a sealing cover is installed.

However, in the above production method, since the finished nozzle bags are difficult to arrange and stack, the finished nozzle bags need to be arranged, suspended by the hanging rod, stored and conveyed in the bag making production line, and then the hanging rod is conveyed to the packaging machine, and sent to the packaging machine by the bag conveying mechanism special for the hanging rod, which results in excessive equipment and processing steps required for production, the logistics cost and production cost are high, the working efficiency is not high, and the requirement of large-scale industrial production is difficult to meet.

Disclosure of Invention

The invention aims to provide an automatic packaging method of a suction nozzle bag, which can greatly improve the working efficiency, greatly reduce the cost and effectively improve the sanitary condition of the suction nozzle bag in the production process. The technical scheme is as follows:

an automatic packaging method for a suction nozzle bag is characterized in that: the method comprises the following steps:

(1) pre-treating the suction nozzle bag, namely respectively sleeving a group of material nozzles on openings of a group of suction nozzle bag bodies and performing pre-heat sealing to obtain a group of suction nozzle bags with pre-heat-sealed material nozzles;

(2) sealing the material nozzles, namely sealing each material nozzle on the opening of the corresponding suction nozzle bag body to obtain a group of suction nozzle bags;

(3) filling materials, namely filling the materials into the group of suction nozzle bags;

(4) and (5) installing sealing covers, namely respectively sending a group of sealing covers to the material nozzles of the group of suction nozzle bags which finish filling the materials, respectively finishing installing the sealing covers, and manufacturing the suction nozzle bag packaging finished product.

According to the processing method, the processing step of installing the material nozzle on the opening of the suction nozzle bag body to obtain the finished suction nozzle bag and the processing step of installing the sealing cover for filling the material are sequentially and continuously carried out, and the processing and filling of the finished suction nozzle bag are completed at one time, so that the working efficiency can be greatly improved. Before the step (1), a bag making machine is adopted to make a suction nozzle bag body with an opening for installing a material nozzle. The suction nozzle bag bodies are sequentially conveyed to the material nozzle pretreatment station, and the processing steps of the suction nozzle bag pretreatment can be completed. The suction nozzle bag body is processed by the bag making machine, the manufactured suction nozzle bag body can be vertically stacked to save space due to the fact that the material nozzles are not installed, stacking, transporting and storing are facilitated, the material nozzles are separately stored and transported, the sanitary conditions of all parts (namely the suction nozzle bag body and the material nozzles) of the suction nozzle bag can be effectively guaranteed, the suction nozzle bag body and the material nozzles are sequentially sent out during production, and logistics cost, production cost and the like are greatly reduced.

Preferably, the specific step of step (1) is to respectively position a group of material nozzles, then send a group of suction nozzle bag bodies to a group of material nozzle bottoms and correspond to a group of material nozzles one by one, respectively open the openings at the top ends of the suction nozzle bag bodies, then respectively sleeve the openings of the suction nozzle bag bodies onto the corresponding material nozzles, then thermally pre-seal the suction nozzle bag bodies and the corresponding material nozzles, so that the suction nozzle bag bodies and the corresponding material nozzles are locally adhered to obtain a group of suction nozzle bags with the thermally pre-sealed material nozzles.

In a preferred scheme, the step (1) adopts an intermittent rotating turntable to complete the conveying of the material nozzle and the suction nozzle bag body. Thus, the speed of feeding out the nozzle bag having the pre-heat-seal nozzle can be greatly increased.

Preferably, the step (2) of sealing specifically includes heat-sealing a group of nozzle bags having pre-heat-sealed material nozzles for a plurality of times.

Preferably, the step (2) of sealing further comprises at least one cold sealing of a set of pouches having pre-heat sealing nozzles.

In a preferred scheme, after the group of suction nozzle bags in the step (3) are filled with materials, all the material nozzles of the group of suction nozzle bags are cleaned and dried.

Preferably, at least one step comprises a waste detection substep, wherein after the processing is completed in the step, the waste detection substep detects whether waste exists, and if so, the waste is eliminated.

In a preferable scheme, the suction nozzle bags are conveyed to continuously move by adopting an annular chain conveying mechanism from the step (2) to the step (4); step (2) sealing equipment (comprising at least one heat sealing device and/or at least one cold sealing device) is adopted for heat sealing, the sealing equipment moves synchronously with the suction nozzle bags during heat sealing, and the sealing equipment returns to the original position to heat seal the next group of suction nozzle bags moving to the position after heat sealing is finished; filling by adopting filling equipment, wherein the filling equipment moves synchronously with the suction nozzle bags when filling the suction nozzle bags, and returns to the original position to fill the next group of suction nozzle bags moving to the position after filling; and (4) adopting sealing cover mounting equipment to complete the mounting of the sealing cover, enabling the sealing cover mounting equipment to synchronously move with the suction nozzle bags when mounting the sealing cover, and returning to the original position to perform sealing cover mounting on the next group of suction nozzle bags moving to the position after the sealing cover mounting is completed.

In another preferred scheme, the step (2) to the step (4) adopt an intermittent rotating turntable to complete the suction nozzle bag conveying. Therefore, the transfer device can be better matched with the turntable in the step (1), and the stability and the accuracy of the transfer of the suction nozzle bag with the pre-heat sealing nozzle can be greatly improved.

Preferably, the automatic packaging method of the suction nozzle bags further comprises the step (5) of sending out the suction nozzle bag packaged finished products, and sending out a group of suction nozzle bag packaged finished products.

Compared with the prior art, the processing method has the advantages that the processing step of installing the material nozzle to the opening of the suction nozzle bag body to obtain the finished suction nozzle bag and the processing step of installing the sealing cover for filling the material are sequentially and continuously carried out, and the processing and filling of the finished suction nozzle bag are finished at one time, so that the working efficiency can be greatly improved, the sanitary condition is improved, and the production cost is reduced; the intermittent rotating turntable is used for pre-treating the suction nozzle bag, so that the stability of bag sleeving and preheating sealing processing can be effectively guaranteed; the continuous-motion annular chain conveying mechanism is used for conveying the suction nozzle bags and enables the sealing equipment, the filling equipment and the sealing cover mounting equipment to move along with the suction nozzle bags during processing, and the processing speed of finished suction nozzle bag packaging products can be effectively increased.

Drawings

FIG. 1 is a flow chart of one embodiment of the present invention;

FIG. 2 is a schematic view of a processing tool according to one embodiment of the present invention;

FIG. 3 is a schematic view of a processing tool according to one embodiment of the present invention;

fig. 4 is a front view of the two relay conveying endless chain conveying mechanisms of fig. 3.

Detailed Description

As shown in fig. 1, an automatic packaging method for a spout pouch in one embodiment includes the steps of:

(1) pre-treating the suction nozzle bag, namely respectively sleeving a group of material nozzles on openings of a group of suction nozzle bag bodies and performing pre-heat sealing to obtain a group of suction nozzle bags with pre-heat-sealed material nozzles;

(2) sealing the material nozzles, namely sealing each material nozzle on the opening of the corresponding suction nozzle bag body to obtain a group of suction nozzle bags;

(3) filling materials, namely filling the materials into the group of suction nozzle bags;

(4) mounting the sealing covers, namely respectively conveying a group of sealing covers to the material nozzles of the group of suction nozzle bags filled with the materials to respectively finish mounting the sealing covers to manufacture a group of suction nozzle bag packaging finished products;

(5) and sending out the suction nozzle bags to package finished products, and sending out a group of suction nozzle bags to package finished products.

According to the processing method, the processing step of installing the material nozzle on the opening of the suction nozzle bag body to obtain the finished suction nozzle bag and the processing step of installing the sealing cover for filling the material are sequentially and continuously carried out, and the processing and filling of the finished suction nozzle bag are completed at one time, so that the working efficiency can be greatly improved. Before the step (1), a bag making machine is adopted to make a suction nozzle bag body with an opening for installing a material nozzle. The suction nozzle bag bodies are sequentially conveyed to the material nozzle pretreatment station, and the processing steps of the suction nozzle bag pretreatment can be completed. The suction nozzle bag body is processed by a bag making machine, and the manufactured suction nozzle bag body can be vertically stacked to save space due to no material nozzle, is convenient to stack, transport and store, and is sequentially sent out during production. The suction nozzle bag is a semi-finished suction nozzle bag product when not sealed, and is a finished suction nozzle bag product after sealing is completed.

The specific step of the step (1) is that a group of material nozzles are respectively positioned, then a group of suction nozzle bag bodies are sent to the lower portions of the group of material nozzles and are in one-to-one correspondence with the group of material nozzles, openings at the top ends of the suction nozzle bag bodies are respectively opened, then the openings of the suction nozzle bag bodies are respectively sleeved on the corresponding material nozzles, then the suction nozzle bag bodies and the corresponding material nozzles are subjected to pre-heat sealing, and the suction nozzle bag bodies are locally adhered to the corresponding material nozzles, so that a group of suction nozzle bags with the pre-heat-sealed material nozzles is obtained.

In an alternative embodiment, the step (1) uses the first rotating disc 1 which rotates intermittently to complete the feeding of the material nozzle and the suction nozzle bag body, as shown in fig. 2. Thus, the speed of feeding out the nozzle bag having the pre-heat-sealing nozzle can be greatly increased. Step (1) adopts a material nozzle conveying mechanism 9 (composed of a vibration disk and a conveying pipeline) to convey the material nozzle to a material nozzle positioning groove at the edge of the first rotating disk 1, then a suction nozzle bag body sending mechanism 10 (composed of an inclined bag frame and a transfer manipulator) sends the suction nozzle bag body to a bag body positioning bag opening and bag feeding device (adopting a manipulator) below the material nozzle positioning groove, the bag body positioning bag opening and bag feeding device opens the opening of the suction nozzle bag body and sleeves the suction nozzle bag body on the material nozzle above, then the suction nozzle bag body and the material nozzle are driven to synchronously move to the preheating sealing device 11, the suction nozzle bag body and the material nozzle are subjected to preheating sealing, so that the material nozzle and the suction nozzle bag body can not be separated, the suction nozzle bag with the pre-heat-sealing material nozzle is obtained, and finally the bag feeding device 12 (consisting of an air cylinder and a push plate) is adopted to feed the suction nozzle bag with the pre-heat-sealing material nozzle to the processing equipment in the step (2).

In an alternative embodiment, the step (2) of sealing is performed by heat-sealing a plurality of nozzle bags having pre-heat-sealed nozzles. In this embodiment, the heat sealing in step (2) is performed by using a heat sealing device.

In an alternative embodiment, the step (2) of sealing further comprises cold sealing at least once a group of pouches having pre-heat sealing nozzles. The cold sealing device is adopted to complete cold sealing in the embodiment.

In an alternative embodiment, after the group of nozzle bags is filled with the material in the step (3), all the material nozzles of the group of nozzle bags are cleaned and dried. In this embodiment, a water spraying device 13 is used to clean the material nozzle, and an air pipe 14 connected with an external air source is used to dry the material nozzle, as shown in fig. 2.

In an alternative embodiment, step (4) includes a waste detection substep of detecting whether a waste exists after the completion of the processing, and if so, excluding the waste. The waste detection is performed by adopting a detection device 6, and the waste is removed by adopting a waste removal device 7, as shown in figure 2. The detection device 6 employs a photoelectric sensor. The waste discharging device 7 consists of a cylinder and a push plate arranged on a piston shaft of the cylinder.

In an optional embodiment, the four steps respectively comprise a waste detection substep, and after the processing of each step is completed, the waste detection substep detects whether waste exists or not, and if so, the waste is removed.

In an alternative embodiment, step (4) uses the finished product sending device 8 to send out the group of nozzle bags. The finished product delivery device 8 consists of a cylinder and a push plate arranged on a piston shaft of the cylinder.

In an alternative embodiment, the step (2) to the step (4) adopts the endless chain conveying mechanism 2 to convey the nozzle bags to move continuously (the nozzle bags with the pre-heat sealing nozzles are received from the first turntable 1 in the step (1)); performing heat sealing by using sealing equipment 3 (comprising at least one heat sealing device and/or at least one cold sealing device), wherein the sealing equipment 3 moves synchronously with a suction nozzle bag (a suction nozzle bag with a pre-heat sealing material nozzle at this time) during heat sealing, and returns to the original position to perform heat sealing on the next group of suction nozzle bags moving to the position after heat sealing is completed; filling is carried out by adopting filling equipment 4, the filling equipment 4 moves synchronously with the suction nozzle bag (the finished suction nozzle bag after heat sealing is finished) when the suction nozzle bag is filled, and the next group of suction nozzle bags moving to the position are filled in the original position after filling is finished; the sealing cover installation equipment 5 is adopted to complete the sealing cover installation, the sealing cover installation equipment 5 synchronously moves with the suction nozzle bags when installing the sealing cover, and after the sealing cover installation is completed, the sealing cover installation equipment returns to the original position to perform the sealing cover installation on the next group of suction nozzle bags (finished suction nozzle bags after the filling) which move to the position, as shown in figure 2. The sealing cover mounting equipment 5 comprises a sealing cover placing device (consisting of a vibrating disk and a sealing cover conveying pipeline) and a screwing cover device.

In an alternative embodiment, the step (3) of synchronously moving the filling equipment 4 and the suction nozzle bags is completed by using a continuously rotating second turntable to drive the filling equipment 4 hung on the second turntable, and the second turntable synchronously rotates with an arc-shaped annular area of the annular chain conveying mechanism 2 driving the suction nozzle bags to move. Therefore, the stability and the accuracy of transferring the suction nozzle bag with the pre-heat sealing material nozzle can be greatly improved.

In the embodiment shown in fig. 2, one set is two. Therefore, the number of each group of suction nozzle bags is two, and the number of the corresponding groups of processing equipment is also two and corresponds to the number of the group of suction nozzle bags.

As shown in fig. 3 and 4, in an alternative embodiment, the nozzle conveying mechanism 9 adopts a double-nozzle conveying channel to simultaneously output the nozzles, two relay conveying endless chain conveying mechanisms 15 moving in a vertical plane are adopted from step (2) to step (4) to replace the endless chain conveying mechanism 2 moving in a horizontal plane of the above embodiment to convey the nozzle bags to move continuously (the nozzle bags with the pre-heat-sealed nozzles are received from the first turntable 1 of step (1)), and a bag pushing mechanism 16 is adopted at the joint of the two relay conveying endless chain conveying mechanisms 15 to complete the transfer of the nozzle bags. The sealing device 3, the detection device 6, the waste discharge device 7 and the bag pushing mechanism 16 are sequentially arranged on the left relay conveying annular chain conveying mechanism 15 from left to right, and the filling device 4, the water spraying device 13, the sealing cover mounting device 5 and the finished product sending device 8 are sequentially arranged on the right relay conveying annular chain conveying mechanism 15 from left to right.

The invention improves the prior production method for manufacturing, filling and screwing the cover of the suction nozzle bag, designs reasonable processing steps, greatly improves the processing efficiency of the suction nozzle bag packaged finished product, greatly improves the sanitary condition of the production process of the suction nozzle bag packaged finished product and greatly reduces the logistics cost and the production cost by utilizing the prior equipment.

In addition, it should be noted that the names of the parts and the like of the embodiments described in the present specification may be different, and the equivalent or simple change of the structure, the characteristics and the principle described in the present patent idea is included in the protection scope of the present patent. Various modifications, additions and substitutions for the specific embodiments described may be made by those skilled in the art without departing from the scope of the invention as defined in the accompanying claims.

Claims (10)

1. An automatic packaging method for a suction nozzle bag is characterized in that: the method comprises the following steps:

(1) pre-treating the suction nozzle bag, namely respectively sleeving a group of material nozzles on openings of a group of suction nozzle bag bodies and performing pre-heat sealing to obtain a group of suction nozzle bags with pre-heat-sealed material nozzles;

(2) sealing the material nozzles, namely sealing each material nozzle on the opening of the corresponding suction nozzle bag body to obtain a group of suction nozzle bags;

(3) filling materials, namely filling the materials into the group of suction nozzle bags;

(4) and (4) installing sealing covers, namely respectively conveying a group of sealing covers to the material nozzles of the group of suction nozzle bags which finish filling the materials, respectively finishing the installation of the sealing covers, and manufacturing the suction nozzle bag packaging finished product.

2. The automatic packaging method of a spout pouch according to claim 1, wherein: the specific step of the step (1) is that a group of material nozzles are respectively positioned, then a group of suction nozzle bag bodies are sent to the lower portions of the group of material nozzles and are in one-to-one correspondence with the group of material nozzles, openings at the top ends of the suction nozzle bag bodies are respectively opened, then the openings of the suction nozzle bag bodies are respectively sleeved on the corresponding material nozzles, then the suction nozzle bag bodies and the corresponding material nozzles are subjected to pre-heat sealing, and the suction nozzle bag bodies are locally adhered to the corresponding material nozzles, so that a group of suction nozzle bags with the pre-heat-sealed material nozzles is obtained.

3. The automatic packaging method of a spout pouch according to claim 1, wherein: and (2) the step (1) adopts an intermittent rotating turntable to finish the conveying of the material nozzle and the suction nozzle bag body.

4. The automatic packaging method of a spout pouch according to claim 1, wherein: and (3) sealing in the step (2) specifically comprises the step of carrying out heat sealing on a group of suction nozzle bags with the pre-heat-sealing material nozzles for multiple times.

5. The automatic packaging method of a spout pouch according to claim 4, wherein: the step (2) of sealing further comprises at least one cold sealing of a group of nozzle bags with pre-heat sealing material nozzles.

6. The automatic packaging method of a spout pouch according to claim 1, wherein: and (4) after the group of suction nozzle bags in the step (3) are filled with materials, cleaning and drying all material nozzles of the group of suction nozzle bags.

7. The automatic packaging method of a spout pouch according to claim 1, wherein: at least one step includes a reject detection substep of detecting whether a reject is present after the processing is completed in the step, and if so, excluding the reject.

8. The automatic packaging method of a spout pouch according to claim 1, wherein: conveying the suction nozzle bags to continuously move by adopting an annular chain conveying mechanism in the steps (2) to (4); step (2) adopting sealing equipment for heat sealing, wherein the sealing equipment moves synchronously with the suction nozzle bags during heat sealing, and returns to the original position to heat seal the next group of suction nozzle bags moving to the position after heat sealing is finished; filling by adopting filling equipment, wherein the filling equipment moves synchronously with the suction nozzle bags when filling the suction nozzle bags, and returns to the original position to fill the next group of suction nozzle bags moving to the position after filling; and (4) adopting sealing cover mounting equipment to complete the mounting of the sealing cover, enabling the sealing cover mounting equipment to synchronously move with the suction nozzle bags when mounting the sealing cover, and returning to the original position to perform sealing cover mounting on the next group of suction nozzle bags moving to the position after the sealing cover mounting is completed.

9. The automatic packaging method of a spout pouch according to claim 1, wherein: and (4) finishing the transmission of the suction nozzle bag by adopting an intermittent rotating turntable.

10. The automatic packaging method of a spout pouch according to claim 1, wherein: the automatic packaging method of the suction nozzle bags further comprises the step (5) of sending out the suction nozzle bag packaged finished products, and sending out a group of suction nozzle bag packaged finished products.

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