CN210734667U - Moxa stick diolame sealing equipment - Google Patents

Abstract

The utility model belongs to the technical field of the moxa stick packing technique and specifically relates to indicate a moxa stick diolame sealing equipment, including be used for to the diolame mechanism of moxa stick diolame, be used for to seal the moxa stick after the diolame seal cut the mechanism, be used for to seal the transfer mechanism that cuts that the moxa stick after cutting carries out the transfer and be used for sealing the moxa stick that cuts that the transfer mechanism shifted and carry out the banding device of banding, transfer mechanism rotates and is provided with the transfer wheel, the transfer wheel is provided with a plurality of transfer grooves that are used for holding the moxa stick, and a plurality of transfer grooves are the annular array setting along the central axis that shifts the wheel, and the transfer groove is used for and seals the discharge end intercommunication that cuts the mechanism. The utility model has the advantages of simple structure, automatically carry out the diolame to the moxa stick, seal and cut, banding and the ejection of compact, improved the efficiency to the moxa stick encapsulation, reduced intensity of labour and manufacturing cost, the encapsulation quality of moxa stick is good.

Description

Moxa stick diolame sealing equipment

Technical Field

The utility model belongs to the technical field of moxa stick packing technique and specifically relates to indicate a moxa stick diolame sealing equipment.

Background

Moxa sticks are common health care and prevention products in the health care field, are mainly used for moxibustion of all acupuncture points of people, and the moxibustion is mentioned in a compendium of materia Medica and is mainly used in beauty parlors, SPA clubs, bath clubs, foot ways, health care shops, hospitals and the like, and the dosage is very large, and a plurality of moxa sticks are required to be packaged together to form a moxa stick group. In the production of the packaged moxa sticks, the traditional method still arranges the moxa sticks together manually, and then packages the arranged moxa sticks by a packaging machine, so that the efficiency is low, the quality cannot be ensured, and the production capacity cannot meet the market demand.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, an object of the utility model is to provide a moxa stick diolame sealing equipment, its simple structure carries out the diolame to the moxa stick automatically, seals and cuts, banding and the ejection of compact, has improved the efficiency to the moxa stick encapsulation, has reduced intensity of labour and manufacturing cost, and the encapsulation quality of moxa stick is good.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a moxa stick diolame sealing equipment, its is including being used for to the diolame mechanism of moxa stick diolame, being used for to seal the moxa stick after the diolame and cut the mechanism, be used for to seal the transfer mechanism that cuts the moxa stick after cutting and be used for sealing the edge banding device that the moxa stick after cutting that the transfer mechanism shifted carries out the banding, transfer mechanism rotates and is provided with the transfer wheel, the transfer wheel is provided with a plurality of transfer grooves that are used for holding the moxa stick, and a plurality of transfer grooves are the annular array setting along the central axis that transfers the wheel, and the transfer groove is used for and seals the discharge end intercommunication that cuts the mechanism.

Furthermore, the transfer mechanism comprises a rotating shaft and a transfer driver for driving the rotating shaft to rotate, and the transfer wheel is arranged on the rotating shaft.

Further, the both sides that shift the wheel all are provided with a plurality of banding grooves, and the both ends in every transfer groove all communicate and have a banding groove, the banding groove is used for supplying the banding device to carry out the banding to the side of the moxa stick that seals after cutting.

Further, the edge sealing device comprises two edge sealing mechanisms respectively movably arranged on two sides of the transfer wheel and a moving driving mechanism for driving the two edge sealing mechanisms to approach or separate from each other.

Further, the banding mechanism includes the banding two-way cylinder of being connected with the output drive of removing actuating mechanism, installs in the banding head of one of them piston rod of banding two-way cylinder and installs in the banding bottom plate of another piston rod of banding two-way cylinder, the banding two-way cylinder is used for driving banding head and banding bottom plate and is close to each other or keeps away from each other.

Further, the sealing and cutting mechanism comprises a sealing and cutting seat, a sealing and cutting bottom plate arranged on the sealing and cutting seat, a sealing and cutting head arranged on the sealing and cutting seat in a lifting manner, and a sealing and cutting driver arranged on the sealing and cutting seat and used for driving the sealing and cutting head to be close to or far away from the sealing and cutting bottom plate.

Further, the transfer wheel is provided with a plurality of pressure mouths, a plurality of pressure mouths and a plurality of transfer grooves one-to-one intercommunication, and every pressure mouth all is located the feed end of a transfer groove, seal one side that cuts the mechanism and be close to the transfer wheel and be provided with pressing mechanism, pressing mechanism presses the moxa stick after the diolame in the transfer groove via pressing the mouth.

Further, the pressing mechanism comprises a pressing plate and a pressing driver for driving the pressing plate to be close to or far away from the pressing port.

Further, diolame mechanism includes the diolame seat, sets up and supplies the membrane module on the top of diolame seat, sets up and supplies the membrane module under the bottom of diolame seat, rotates and sets up in a plurality of last guide rolls of diolame seat and rotate and set up in a plurality of lower guide rolls of diolame seat, the diaphragm that supplies the membrane module to supply on around the tip behind a plurality of last guide rolls with the diaphragm that supplies the membrane module to supply down around the end connection behind a plurality of lower guide rolls in order to form the integral type diaphragm, the integral type diaphragm is located the feed end that seals the mechanism of cutting.

Further, the output end of the transfer mechanism is provided with a conveying table and a film molding mechanism for molding the edge-sealed moxa sticks.

The utility model has the advantages that: when the moxa roll packaging machine works actually, an external device conveys moxa rolls to the film coating mechanism, the film coating mechanism coats the moxa rolls, the coated moxa rolls enter the transfer grooves of the transfer wheels through the seal cutting mechanism, a film sheet supplied by the film coating mechanism not only coats the moxa rolls but also passes through the seal cutting mechanism, the seal cutting mechanism seals and cuts the film sheet, the seal cut moxa rolls are driven by the transfer mechanism to rotate to a set angle, the transfer grooves containing the seal cut moxa rolls are in a vertical state, the edge sealing device seals two side edges of the film sheet on the seal cut moxa rolls in the transfer grooves, and finally the transfer mechanism drives the transfer wheels to rotate so that the edge sealed moxa rolls move out of the transfer grooves of the transfer wheels under the action of gravity, thereby realized carrying out the ejection of compact to the moxa stick after the encapsulation. Because the transfer wheel is provided with the plurality of transfer grooves, the sealing and cutting mechanism and the edge sealing device can synchronously work along with the rotation of the transfer wheel and respectively seal, cut and edge seal the moxa sticks in different transfer grooves, and the packaging efficiency of the moxa sticks is further improved. The utility model has the advantages of simple structure, automatically carry out the diolame to the moxa stick, seal and cut, banding and the ejection of compact, improved the efficiency to the moxa stick encapsulation, reduced intensity of labour and manufacturing cost, the encapsulation quality of moxa stick is good.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of another perspective of the present invention.

Fig. 3 is a schematic perspective view of the transfer mechanism of the present invention.

Fig. 4 is a schematic view of the three-dimensional structure of the sealing cutting mechanism and the pressing mechanism of the present invention.

Fig. 5 is a schematic perspective view of the edge banding device of the present invention.

Description of reference numerals:

10. moxa sticks; 311. a film coating seat; 312. an upper membrane supply assembly; 313. a lower membrane supply assembly; 314. an upper film guide roller; 315. a lower film guide roller; 32. a seal cutting mechanism; 321. a seal cutting seat; 322. sealing and cutting the bottom plate; 323. sealing and cutting heads; 324. a seal cutting driver; 33. a transfer mechanism; 331. a transfer wheel; 332. a transfer tank; 333. a rotating shaft; 334. a transfer driver; 335. sealing the edge groove; 336. pressing a port; 34. a sealing device; 341. a sealing mechanism; 342. a movement drive mechanism; 343. a two-way cylinder for edge sealing; 344. sealing the edge head; 345. sealing the edge of the bottom plate; 35. a pressing mechanism; 351. a pressing plate; 352. pressing the driver; 36. a conveying table; 37. and (5) a plastic film mechanism.

Detailed Description

In order to facilitate understanding of those skilled in the art, the present invention will be further described with reference to the following examples and drawings, which are not intended to limit the present invention.

As shown in fig. 1 to 5, the utility model provides a moxa stick envelope sealing device, which comprises an envelope mechanism for enveloping a moxa stick 10, a sealing and cutting mechanism 32 for sealing and cutting the enveloped moxa stick 10, a transfer mechanism 33 for transferring the sealed and cut moxa stick 10, and a sealing and edge-sealing device 34 for sealing and sealing the edge of the moxa stick 10 transferred by the transfer mechanism 33, wherein the transfer mechanism 33 is provided with a transfer wheel 331 in a rotating manner, the transfer wheel 331 is provided with a plurality of transfer grooves 332 for accommodating the moxa stick 10, the transfer grooves 332 are arranged in an annular array along the central axis of the transfer wheel 331, the transfer grooves 332 are used for communicating with the discharge end of the sealing and cutting mechanism 32, the sealing and cutting mechanism 32 adopts a hot-melting sealing and cutting manner to seal and cut the membrane on the enveloped moxa stick 10, thereby realizing the synchronous sealing and cutting, the efficiency of sealing and cutting is improved, banding device 34 adopts the mode of heat fusion to seal two sides of the diaphragm on the moxa stick 10 after sealing and cutting.

At the beginning, one of the transfer grooves 332 of the transfer wheel 331 is in a horizontal state and is communicated with the discharge end of the seal cutting mechanism 32, during actual operation, an external device conveys the moxa sticks 10 to the film wrapping mechanism, the film wrapping mechanism wraps the moxa sticks 10, the wrapped moxa sticks 10 enter the transfer groove 332 of the transfer wheel 331 through the seal cutting mechanism 32, so that the film supplied by the film wrapping mechanism not only wraps the moxa sticks 10, but also passes through the seal cutting mechanism 32, at this time, the seal cutting mechanism 32 seals and cuts the film, the seal cut moxa sticks 10 are driven by the transfer mechanism 33 to rotate to a set angle, so that the transfer groove 332 containing the seal cut moxa sticks 10 is in a vertical state, the edge sealing device 34 seals two side edges of the film on the seal cut moxa sticks 10 in the transfer groove 332, and finally, the transfer mechanism 33 drives the transfer wheel 331 to rotate, so that the moxa roll 10 with the edge sealed is moved out of the transfer groove 332 of the transfer wheel 331 under the action of gravity, thereby realizing the discharge of the packaged moxa roll 10. Because the transfer wheel 331 is provided with the plurality of transfer grooves 332, along with the rotation of the transfer wheel 331, the sealing and cutting mechanism 32 and the edge sealing device 34 can work synchronously and respectively perform sealing, cutting and edge sealing treatment on the moxa sticks 10 in different transfer grooves 332, thereby further improving the efficiency of packaging the moxa sticks 10. The utility model has the advantages of simple structure, automatically carry out the diolame to moxa stick 10, seal and cut, banding and the ejection of compact, improved the efficiency to the moxa stick 10 encapsulation, reduced intensity of labour and manufacturing cost, the encapsulation quality of moxa stick 10 is good.

Of course, the packaging of the moxa roll 10 may be a single moxa roll 10 or a group of moxa rolls. The moxa roll group is formed by a plurality of orderly arranged moxa rolls to form a whole.

In this embodiment, the transfer mechanism 33 includes a rotating shaft 333 and a transfer driver 334 for driving the rotating shaft 333 to rotate, and the transfer wheel 331 is mounted on the rotating shaft 333. Specifically, it can adopt the structure drive pivot 333 rotation of motor drive synchronizing wheel and hold-in range to shift driver 334, the both sides that shift wheel 331 all are provided with a plurality of banding grooves 335, and every both ends that shift groove 332 all communicate has a banding groove 335, banding groove 335 is used for supplying banding device 34 to seal the side of the moxa stick 10 after cutting.

In actual operation, the sealed and cut moxa roll 10 is located in the transfer groove 332, two side edges of a membrane on the sealed and cut moxa roll 10 respectively protrude out of the transfer wheel 331 through the sealing groove 335, the transfer driver 334 drives the rotating shaft 333 to rotate, the rotating shaft 333 drives the transfer wheel 331 to rotate until the transfer groove 332, in which the sealed and cut moxa roll 10 is accommodated, on the transfer wheel 331 rotates to a vertical state, at this time, the sealed and cut moxa roll 10 is located at the edge sealing device 34, the edge sealing device 34 seals the two side edges of the membrane on the sealed and cut moxa roll 10, after the edge sealing is completed, the transfer driver 334 continues to drive the rotating shaft 333 to connect the transfer wheel 331 and the packaged moxa roll 10 to rotate to a set angle, until the packaged moxa roll 10 moves out of the transfer groove 332 of the transfer wheel 331 under the action of gravity.

In this embodiment, the edge sealing device 34 includes two edge sealing mechanisms 341 movably disposed on two sides of the transfer wheel 331, and a moving driving mechanism 342 for driving the two edge sealing mechanisms 341 to approach or separate from each other, and the two edge sealing mechanisms 341 are symmetrically disposed on two sides of the transfer wheel 331; specifically, the edge sealing mechanism 341 includes an edge sealing bidirectional cylinder 343 drivingly connected to an output end of the moving driving mechanism 342, an edge sealing head 344 mounted on one of the piston rods of the edge sealing bidirectional cylinder 343, and an edge sealing base plate 345 mounted on the other piston rod of the edge sealing bidirectional cylinder 343, where the edge sealing bidirectional cylinder 343 is configured to drive the edge sealing head 344 and the edge sealing base plate 345 to move closer to or away from each other, and the moving driving mechanism 342 may respectively drive the two edge sealing mechanisms 341 to move closer to or away from each other by using two cylinders, or may drive the two edge sealing mechanisms 341 to move closer to or away from each other by using a motor to drive a bidirectional screw.

When the transfer groove 332 containing the sealed and cut moxa roll 10 on the transfer wheel 331 rotates to a vertical state, the moving driving mechanism 342 drives the two banding mechanisms 341 to move close to each other until two side edges of the film on the sealed and cut moxa roll 10 are respectively located between the banding head 344 and the banding bottom plate 345 of the two banding mechanisms 341, at this time, the banding two-way cylinder 343 drives the banding head 344 and the banding bottom plate 345 to move close to each other until the banding head 344 presses the side edges of the film on the sealed and cut moxa roll 10 on the banding bottom plate 345, so that the banding of the side edges of the film on the sealed and cut moxa roll 10 is realized. This banding device 34's simple structure, the banding is efficient and stable good.

In this embodiment, the seal cutting mechanism 32 includes a seal cutting base 321, a seal cutting base plate 322 installed on the seal cutting base 321, a seal cutting head 323 installed on the seal cutting base 321 in a lifting manner, and a seal cutting driver 324 installed on the seal cutting base 321 and used for driving the seal cutting head 323 to approach or leave the seal cutting base plate 322, wherein the seal cutting head 323 is located right above the seal cutting base plate 322. Specifically, the seal cutting driver 324 may employ an air cylinder or the like.

When the enveloped moxa roll 10 is accommodated in the transfer groove 332, the seal cutting driver 324 drives the seal cutting head 323 to move close to the seal cutting base plate 322 until the seal cutting head 323 presses the membrane on the seal cutting base plate 322, so that the membrane is sealed and cut. Wherein, the membrane after sealing and cutting is in a sealed state, which is convenient for enveloping the next moxa stick 10.

In this embodiment, the transfer wheel 331 is provided with a plurality of pressure ports 336, the plurality of pressure ports 336 are in one-to-one correspondence communication with the plurality of transfer grooves 332, each pressure port 336 is located at the feed end of one transfer groove 332, one side of the seal cutting mechanism 32 close to the transfer wheel 331 is provided with a pressing mechanism 35, and the pressing mechanism 35 presses the enveloped moxa sticks 10 in the transfer grooves 332 through the pressure ports 336; specifically, the pressing mechanism 35 includes a pressing plate 351 and a pressing driver 352 mounted on the seal cutting seat 321 for driving the pressing plate 351 to approach or separate from the pressure port 336. Specifically, the pressing driver 352 may employ an air cylinder or the like.

Seal and cut the diaphragm on the moxa stick 10 after mechanism 32 seals the membrane after the diolame and cut before, press driver 352 drive and press the pressing plate 351 to be close to the removal of moxa stick 10, press on the transfer tank 332 with the diaphragm on moxa stick 10 and the moxa stick 10 until pressing plate 351, the stability of the diaphragm on moxa stick 10 and the moxa stick 10 has been guaranteed on the one hand, be convenient for seal and cut the diaphragm of mechanism 32 on to moxa stick 10 and seal and cut, the quality that cuts has guaranteed to seal, on the other hand is with the gaseous extrusion between moxa stick 10 and the diaphragm, avoid appearing the phenomenon of bubble.

In this embodiment, the film coating mechanism includes a film coating base 311, an upper film supplying assembly 312 disposed on the top of the film coating base 311, a lower film supplying assembly 313 disposed on the bottom of the film coating base 311, a plurality of upper film guiding rollers 314 rotatably disposed on the film coating base 311, and a plurality of lower film guiding rollers 315 rotatably disposed on the film coating base 311, wherein the end of the film supplied by the upper film supplying assembly 312 and the end of the film supplied by the lower film supplying assembly 313 are connected to form an integrated film around the end of the film supplied by the plurality of lower film guiding rollers 315, and the integrated film is located at the feeding end of the sealing and cutting mechanism 32. During actual work, the external device moves the moxa roll 10 close to the integrated diaphragm until the moxa roll 10 with the integrated diaphragm passes through the sealing and cutting mechanism 32 and then enters one of the transfer grooves 332 of the transfer wheel 331, so that the moxa roll 10 is wrapped by the integrated diaphragm, and the moxa roll 10 is wrapped.

The structure of the upper film supply assembly 312 is the same as that of the lower film supply assembly 313, and specifically, the upper film supply assembly 312 can drive the film roll to rotate to supply the film in a motor-driven air expansion shaft structure. In the initial state, the film supplied by the upper film supplying assembly 312 and the film supplied by the lower film supplying assembly 313 may be integrally formed, that is, the film supplied by the upper film supplying assembly 312 and the film supplied by the lower film supplying assembly 313 are continuous film sheets; the film supplied by the upper film supplying assembly 312 may be separated from the film supplied by the lower film supplying assembly 313, in which case, before the moxa roll 10 is enveloped, the sealing and cutting mechanism 32 is required to seal the free ends of the film supplied by the upper film supplying assembly 312 and the free ends of the film supplied by the lower film supplying assembly 313 to form an integrated film.

In this embodiment, the output end of the transfer mechanism 33 is provided with a conveying table 36 and a film molding mechanism 37 for molding the edge-sealed moxa roll 10. After the moxa roll 10 on the transfer wheel 331 is packaged, the packaged moxa roll 10 is transferred to the film molding mechanism 37 along with the rotation of the transfer wheel 331, the film molding mechanism 37 performs film molding on the film sheet packaged on the moxa roll 10, the packaged film sheet tightly wraps the moxa roll 10, the film-molded moxa roll 10 moves to the conveying table 36 under the action of gravity, and the conveying table 36 outputs the film-molded moxa roll 10. Or after the moxa roll 10 on the transfer wheel 331 is packaged, the packaged moxa roll 10 moves to the conveying table 36 under the action of gravity along with the rotation of the transfer wheel 331, the conveying table 36 conveys the packaged moxa roll 10 to the film molding mechanism 37, and the film sheet packaged on the moxa roll 10 is molded by the film molding mechanism 37, so that the packaging of the moxa roll 10 is completed. Specifically, the film forming mechanism 37 may be a hot air blower, an oven, or the like.

All the technical features in the embodiment can be freely combined according to actual needs.

The above-mentioned embodiment is the utility model discloses the implementation scheme of preferred, in addition, the utility model discloses can also realize by other modes, any obvious replacement is all within the protection scope of the utility model under the prerequisite that does not deviate from this technical scheme design.

Claims (10)

1. The utility model provides a moxa stick diolame sealing equipment which characterized in that: including being used for the diolame mechanism to the moxa stick diolame, being used for sealing the moxa stick after the diolame and cutting the mechanism, being used for sealing the transfer mechanism that carries out the transfer after cutting and being used for sealing the transfer mechanism that seals the moxa stick after cutting and carry out the banding device of banding, transfer mechanism rotates and is provided with the transfer wheel, the transfer wheel is provided with a plurality of transfer grooves that are used for holding the moxa stick, and a plurality of transfer grooves are the annular array setting along the central axis that transfers the wheel, and the transfer groove is used for and seals the discharge end intercommunication that cuts the mechanism.

2. The moxa stick enveloping and sealing apparatus of claim 1, wherein: the transfer mechanism comprises a rotating shaft and a transfer driver for driving the rotating shaft to rotate, and the transfer wheel is arranged on the rotating shaft.

3. The moxa stick enveloping and sealing apparatus of claim 1, wherein: the both sides that shift the wheel all are provided with a plurality of banding grooves, and the both ends in every transfer groove all communicate and have a banding groove, the banding groove is used for supplying the banding device to carry out the banding to the side of the moxa stick after sealing and cutting.

4. The moxa stick enveloping and sealing apparatus of claim 1, wherein: the edge sealing device comprises two edge sealing mechanisms which are respectively and movably arranged on two sides of the transfer wheel and a moving driving mechanism which is used for driving the two edge sealing mechanisms to be close to or far away from each other.

5. The moxa stick enveloping and sealing apparatus of claim 4, wherein: the edge sealing mechanism comprises an edge sealing bidirectional cylinder in driving connection with the output end of the moving driving mechanism, an edge sealing head arranged on one piston rod of the edge sealing bidirectional cylinder and an edge sealing bottom plate arranged on the other piston rod of the edge sealing bidirectional cylinder, and the edge sealing bidirectional cylinder is used for driving the edge sealing head and the edge sealing bottom plate to be close to or far away from each other.

6. The moxa stick enveloping and sealing apparatus of claim 1, wherein: the sealing and cutting mechanism comprises a sealing and cutting seat, a sealing and cutting bottom plate arranged on the sealing and cutting seat, a lifting and cutting head arranged on the sealing and cutting seat, and a sealing and cutting driver arranged on the sealing and cutting seat and used for driving the sealing and cutting head to be close to or far away from the sealing and cutting bottom plate.

7. The moxa stick enveloping and sealing apparatus of claim 1, wherein: the transfer wheel is provided with a plurality of pressure mouths, a plurality of pressure mouths and a plurality of transfer groove one-to-one intercommunication, and every pressure mouth all is located the feed end of a transfer groove, seal and cut one side that the mechanism is close to the transfer wheel and be provided with pressing means, pressing means presses the moxa stick after the diolame in the transfer groove via pressing the mouth.

8. The moxa stick enveloping and sealing apparatus of claim 7, wherein: the pressing mechanism comprises a pressing plate and a pressing driver for driving the pressing plate to be close to or far away from the pressing port.

9. The moxa stick enveloping and sealing apparatus of claim 1, wherein: the diolame mechanism includes the diolame seat, sets up and supplies membrane module, rotation to set up in a plurality of upper guide film rollers of diolame seat and rotate and set up in a plurality of lower guide film rollers of diolame seat in the lower confession membrane module of the bottom of diolame seat, the diaphragm that supplies the membrane module to supply is around the tip behind a plurality of upper guide film rollers and the diaphragm that supplies the membrane module to supply down around the end connection behind a plurality of lower guide film rollers in order to form the integral type diaphragm, and the integral type diaphragm is located and seals the feed end who cuts the mechanism.

10. The moxa stick enveloping and sealing apparatus of claim 1, wherein: the output end of the transfer mechanism is provided with a conveying platform and a film molding mechanism for molding the edge-sealed moxa sticks.

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