CN114572443A

CN114572443A - Vertical continuous bag-making three-edge-sealing particle packaging machine

Info

Publication number: CN114572443A
Application number: CN202210337897.1A
Authority: CN
Inventors: 宋士刚; 金清怡; 刘和玉; 谢奕翔; 桑益炯; 马喆芸
Original assignee: Zhijiang College of ZJUT
Current assignee: Zhijiang College of ZJUT
Priority date: 2022-04-01
Filing date: 2022-04-01
Publication date: 2022-06-03
Anticipated expiration: 2042-04-01
Also published as: CN114572443B

Abstract

The invention discloses a vertical continuous bag-making three-edge sealing particle packaging machine, which comprises an automatic blanking mechanism, an automatic paper feeding mechanism, a packaging shearing mechanism and a synchronous driving mechanism, wherein in the particle packaging machine, the automatic blanking mechanism realizes intermittent metering blanking through the dead weight of particles and the size of a material receiving groove on a metering tray, and realizes intermittent paper feeding through the matching of a guide pipe surface and a guide pipe and the traction of a pulley block; meanwhile, the synchronous operation of paper feeding, transverse sealing and longitudinal sealing is realized through the synchronous driving structure, the number of driving devices is saved, and the stability and the accuracy are improved.

Description

Vertical continuous bag-making three-edge-sealing particle packaging machine

Technical Field

The invention relates to the technical field of particle packaging, in particular to a vertical continuous bag-making three-edge-sealing particle packaging machine.

Background

Automation is a trend in particle packaging machines. With the continuous progress of the production process, the requirements of consumers on product packaging are higher and higher. Various packaging equipment for improving the packaging speed and the aesthetic degree of products are produced. The fully automatic granule packaging machine has played an important role as a new equipment in packaging in the fields of medicine, food and the like.

However, the existing automatic packaging machine has some problems in the aspects of feeding and paper feeding, such as that the feeder needs to extend into the bag opening during feeding, the feeder retracts after feeding, and if the longitudinal sealer finishes sealing, the packaging paper needs to be pulled to move for a certain distance, so that the packaging machine is extremely troublesome in design and low in production efficiency.

In addition, the horizontal sealing and the vertical sealing of the existing automatic packaging machine are respectively driven by respective driving structures, and the parameters of the driving devices are difficult to keep synchronous, so that the process time is wasted when the packaging machine runs, the design difficulty is increased by a plurality of groups of driving devices, and the cost is increased.

Disclosure of Invention

The invention aims to provide a vertical type continuous bag-making three-edge sealing particle packaging machine, which aims to solve the problems in the prior art brought by the background technology.

In order to achieve the above purpose, the invention provides the following technical scheme: a vertical, continuous bag-making, three edge-sealing, pellet-packaging machine comprising:

the automatic blanking mechanism comprises a large funnel, a metering tray, a blanking supporting plate and a guide pipe from top to bottom in sequence, wherein a blanking port is formed in the blanking supporting plate and is communicated with the guide pipe; the metering tray is provided with a vertically through material receiving groove, and the metering tray can slide along the surface of the blanking support plate, so that the material receiving groove is alternately communicated with the large hopper and the blanking port; the conduit tends to be flattened in the opposite middle from a cylindrical shape;

the automatic paper feeding mechanism sequentially comprises a paper tube frame, a guide tube surface and a pulley block from top to bottom, the guide tube surface is matched with the guide tube to roll packing paper into a flat paper tube, the pulley block comprises two pulleys rotating oppositely and reversely, and the two pulleys are respectively positioned on two sides of the opposite bottom of the guide tube and used for drawing the packing paper to move downwards;

the packaging and shearing mechanism comprises a transverse sealing mechanism and a longitudinal sealing mechanism, the transverse sealing mechanism comprises a pair of transverse sealing plates capable of relatively reciprocating, a cutter is arranged in the middle of each transverse sealing plate, and the upper side and the lower side of the cutter are respectively used for transverse sealing; the longitudinal sealing mechanism comprises a pair of longitudinal sealing plates capable of relatively reciprocating, and the longitudinal sealing plates are used for lateral longitudinal sealing; and

and the synchronous driving mechanism controls the automatic paper feeding mechanism and the packaging and shearing mechanism to work alternately.

Preferably, the surface of the blanking supporting plate is provided with an air cylinder, and the output end of the air cylinder is connected with the metering tray and used for driving the metering tray to move; the metering tray is movably arranged on the blanking supporting plate through a linear guide rail; the bottom of the large funnel is in clearance fit or sliding fit with the upper surface of the metering tray; the bottom of the material receiving groove is in clearance fit or sliding fit with the surface of the blanking supporting plate.

Preferably, a plurality of buffer paper guide rollers are arranged below the paper tube rack.

Preferably, the synchronous driving mechanism comprises a motor and a transmission case, an output end of the motor is connected with an output shaft penetrating through the transmission case, and a transverse sealing first rotating shaft, a transverse sealing second rotating shaft, a longitudinal sealing first rotating shaft and a longitudinal sealing second rotating shaft which are respectively perpendicular to the output shaft are arranged in the transmission case; the transverse sealing first rotating shaft and the transverse sealing second rotating shaft are used for driving the transverse sealing mechanism to work, and the longitudinal sealing first rotating shaft and the longitudinal sealing second rotating shaft are used for driving the longitudinal sealing mechanism to work;

the transverse sealing first rotating shaft and the longitudinal sealing first rotating shaft are connected through a synchronous belt, and the transverse sealing second rotating shaft and the longitudinal sealing second rotating shaft are connected through a synchronous belt;

the output shaft is provided with a first worm and a second worm, the longitudinal seal first rotating shaft and the longitudinal seal second rotating shaft are respectively provided with a first worm wheel and a second worm wheel, the first worm wheel and the second worm wheel are respectively matched with the first worm and the second worm, and the directions of the first worm wheel and the second worm wheel are opposite.

Preferably, the transverse sealing plate and the longitudinal sealing plate are respectively connected to a linear reciprocating mechanism, the linear reciprocating mechanism comprises a sliding rod and a rotating disc, the sliding rod can horizontally slide, a fixing piece is fixedly arranged on the sliding rod, a sliding groove is formed in the fixing piece, and a convex rod matched with the sliding groove is arranged on the rotating disc, so that the rotating disc can drive the sliding rod to reciprocate when rotating;

the two rotating discs of the transverse sealing mechanism are respectively connected with a transverse sealing first rotating shaft and a transverse sealing second rotating shaft; two rotating discs of the longitudinal sealing mechanism are respectively connected with the longitudinal sealing first rotating shaft and the longitudinal sealing second rotating shaft.

Preferably, the sliding groove includes an arc section and extension sections extending outward from both ends of the arc section.

Preferably, one side of the sliding groove is a straight line, and the other side of the sliding groove is a straight line, an arc and a straight line in sequence.

Preferably, the automatic paper feeding mechanism further comprises a pulley block driving device, wherein the pulley block driving device comprises gears which are respectively connected with the two pulleys and are meshed with each other, a grooved wheel connected with one of the gears, and a driving plate matched with the grooved wheel.

Preferably, the drive dial is connected with a dial rotating shaft, and the dial rotating shaft penetrates through the transmission case; the transmission case is also internally provided with an intermediate rotating shaft parallel to the output shaft, and the output shaft is connected with the intermediate rotating shaft through a synchronous belt; and a third worm wheel which are meshed with each other are respectively arranged on the middle rotating shaft and the driving plate rotating shaft.

Preferably, the pulleys do not rotate when the lateral sealing plate and the longitudinal sealing plate are closed.

Compared with the prior art, the invention has the advantages that:

1. in the particle packaging machine, the automatic blanking mechanism realizes intermittent metering blanking through the self weight of particles and the size of the material receiving groove on the metering tray, and realizes intermittent paper feeding through the matching of the guide pipe surface and the guide pipe and the traction of the pulley block.

2. The synchronous paper feeding, transverse sealing and longitudinal sealing are synchronously operated through the synchronous driving structure, the number of driving devices is saved, and the stability and the accuracy are improved.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic structural diagram of an automatic blanking mechanism and an automatic paper feeding mechanism in the invention.

Fig. 3 is an exploded view of the automatic blanking mechanism of the present invention.

Fig. 4 is a schematic structural view of the pulley block driving device of the present invention.

Fig. 5 is a schematic structural diagram of the package shearing mechanism of the present invention.

Fig. 6 is a schematic structural view of the linear reciprocating mechanism of the present invention.

Fig. 7 is a schematic view of the internal structure of the synchronous drive mechanism of the present invention.

Fig. 8 is a schematic view of the internal structure of the transmission case of the present invention (the driving mechanism of the package cutter mechanism is shown in detail, and the driving part of the pulley is omitted).

Fig. 9 is a schematic structural view of the transverse sealing plate of the present invention.

Fig. 10 is a schematic structural view of a linear reciprocating mechanism in embodiment 2 of the present invention.

In the figure: 1. the automatic feeding device comprises an automatic feeding mechanism 11, a large hopper 12, a metering tray 13, a feeding support plate 14, a guide pipe 15, a feeding opening 16, a receiving groove 17, an air cylinder 18 and a linear guide rail; 2. the automatic paper feeding mechanism 21, a paper tube frame 22, a guide tube surface 23, a pulley block 24, a buffer paper guide roller 25, a gear 26, a grooved wheel 27 and a driving dial; 3. the packaging and shearing mechanism comprises a packaging and shearing mechanism 31, a transverse sealing plate 32, a longitudinal sealing plate 33, a sliding rod 34, a U-shaped frame 35, a fixing plate 36, a sliding groove 37, a rotating disc 38, a convex rod 39 and a cutter; 4. a synchronous driving mechanism 41, a motor 42, a transmission case 43, a dial rotating shaft 44, an intermediate rotating shaft 45, a third worm 46, a third worm wheel 47, a transverse sealing first rotating shaft 48, a transverse sealing second rotating shaft 49, a longitudinal sealing first rotating shaft 410, a longitudinal sealing second rotating shaft 411, a synchronous belt 412, an output shaft 413, a first worm 414, a second worm 415, a first worm wheel 416 and a second worm wheel; 5. a collection hopper; 6. a transmission belt.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further specifically described below by examples.

Example 1

A vertical continuous bag-making three-edge-sealing particle packaging machine is shown in figures 1-9 and comprises an automatic blanking mechanism 1, an automatic paper feeding mechanism 2, a packaging and shearing mechanism 3 and a synchronous driving mechanism 4.

The automatic blanking mechanism 1 comprises a large funnel 11, a metering tray 12, a blanking support plate 13 and a guide pipe 14 from top to bottom in sequence, wherein a blanking port 15 is formed in the blanking support plate 13, and the blanking port 15 is communicated with the guide pipe 14; the measurement tray 12 is provided with a material receiving groove 16 which is through up and down, the measurement tray 12 can slide along the surface of the blanking support plate 13, specifically, the surface of the blanking support plate 13 is fixed with an air cylinder 17, the output end of the air cylinder 17 is connected with the measurement tray 12, the measurement tray 12 is movably arranged on the blanking support plate 13 through a linear guide rail 18, the air cylinder 17 drives the measurement tray 12 to move when in work, and the material receiving groove 16 is alternately communicated with the large funnel 11 and the blanking port 15.

In the structure, the capacity of the material receiving groove 16 is designed to be the required packaging amount of one-time packaging, the material in the large funnel 11 automatically falls to the material receiving groove 16 of the metering tray 12 under the action of gravity, the air cylinder 17 retracts to drive the metering tray 12 to move to the upper side of the material discharging opening 15, the material falls to the guide pipe 14 from the material discharging opening 15 to be discharged, then the air cylinder 17 pushes the metering tray 12 to move to the lower side of the large funnel 11 again, and the intermittent reciprocating discharging is realized. The bottom of big funnel 11 and the upper surface clearance fit or the sliding fit of measurement tray 12 connect the bottom of silo 16 and the surface clearance fit or the sliding fit of unloading backup pad 13, and at measurement tray 12 removal in-process, measurement tray 12 can carry out the shutoff to the discharge gate of 11 bottoms of big funnel, can drive material to feed opening 15 simultaneously.

In this embodiment, the guide tube 14 is flattened from a cylindrical shape at the opposite middle portion, which facilitates cooperation with the automatic paper feeding mechanism 2 described below.

The automatic paper feeding mechanism 2 comprises a paper cylinder frame 21, a guide pipe surface 22 and a pulley block 23 from top to bottom in sequence, three buffer paper guide rollers 24 are arranged below the paper cylinder frame 21, and certain tension of the packaging paper is realized through the friction force between the buffer paper guide rollers 24 and the packaging paper; the paper inlet above the guide pipe surface 22 is vertical to the paper outlet below, the guide pipe 14 passes through the guide pipe surface 22, the flat part is in clearance fit with the paper outlet of the guide pipe surface 22, and the packing paper is rolled into a flat paper cylinder through the cooperation of the two; the pulley block 23 comprises two pulleys rotating oppositely and reversely, which are respectively positioned at two sides of the opposite bottom of the guide tube 14 and are used for drawing the wrapping paper to move downwards.

The pulley block 23 is driven by a pulley block driving device including gears 25 connected to the two pulleys respectively and engaged with each other, a sheave 26 connected to one of the gears, and a driving dial 27 fitted to the sheave 26. The driving plate 27 rotates at a constant speed, the driving plate 27 is provided with a driving lever matched with the groove of the grooved pulley 26 and an arc section matched with the grooved pulley, the grooved pulley 26 is driven to intermittently rotate by the driving plate 27, so that the two pulleys are driven to synchronously intermittently rotate in opposite directions, and the wrapping paper is pulled to move downwards by the friction force between the pulleys and the wrapping paper.

Through the synchronous intermittent operation of the automatic blanking mechanism 1 and the automatic paper feeding mechanism 2, the forming and blanking of the packaging paper can be realized simultaneously.

The packaging and shearing mechanism 3 comprises a transverse sealing mechanism and a longitudinal sealing mechanism, the transverse sealing mechanism comprises a pair of transverse sealing plates 31 capable of relatively reciprocating, a cutter 39 is arranged in the opposite middle of each transverse sealing plate 31, and the upper side and the lower side of each cutter 39 are respectively used for transverse sealing; the longitudinal sealing mechanism comprises a pair of longitudinal sealing plates 32 capable of relatively reciprocating, and the longitudinal sealing plates 32 are used for lateral longitudinal sealing. The two transverse sealing plates 31 and the two longitudinal sealing plates 32 are driven to reciprocate by four linear reciprocating mechanisms respectively.

The linear reciprocating mechanism comprises a sliding rod 33 and a rotating disc 37 which are slidably arranged on a support, two ends of the sliding rod 33 are respectively limited by a U-shaped frame 34 fixed on the support, so that the sliding rod can horizontally slide along the length direction, a fixing piece 35 is fixedly arranged on the sliding rod 33, a sliding groove 36 is formed in the fixing piece 35, the sliding groove 36 in the embodiment comprises an arc section and extension sections which respectively extend to the upper outer side and the lower outer side from two ends of the arc section, the arc section is arranged close to a sealing plate, and the circle center of the arc section is superposed with the circle center position of the rotating disc 37; a protruding rod 38 matched with the sliding slot 36 is arranged on the rotating disc 37, so that the rotating disc 37 can drive the sliding rod 33 to reciprocate when rotating.

In the above structure, when the protruding rod 38 is located in the arc section during the rotation of the rotating disc 37, the sealing plate is in a contact pressing state, so that the sealing plate is always in a pressing and sealing state within a certain angle of the rotating disc 37, thereby ensuring that the sealing can be continued for a certain time; when the convex rod 38 leaves the arc segment, the sliding rod 33 is driven to retreat, so that the intermittent packaging action is realized through the rotation of the rotating disc 37.

The synchronous driving mechanism 4 comprises a transmission case 42 and a motor 41 arranged on the outer wall of the transmission case 42, and the output end of the motor 41 is connected with an output shaft 412 penetrating through the transmission case; two rotating discs of the transverse sealing mechanism are respectively connected with a transverse sealing first rotating shaft 47 and a transverse sealing second rotating shaft 48; two rotating disks of the longitudinal sealing mechanism are respectively connected with a longitudinal sealing first rotating shaft 49 and a longitudinal sealing second rotating shaft 410; the transverse sealing first rotating shaft 47, the transverse sealing second rotating shaft 48, the longitudinal sealing first rotating shaft 49 and the longitudinal sealing second rotating shaft 410 are respectively arranged in the transmission case 42 through bearings, the transverse sealing first rotating shaft 47 and the longitudinal sealing first rotating shaft 49 are connected through a synchronous belt 411, and the transverse sealing second rotating shaft 48 and the longitudinal sealing second rotating shaft 410 are connected through the synchronous belt 411; the output shaft 412 is provided with a first worm 413 and a second worm 414, the vertical seal first rotating shaft 49 and the vertical seal second rotating shaft 410 are respectively provided with a first worm wheel 415 and a second worm wheel 416, the first worm wheel 415 and the second worm wheel 416 are respectively matched with the first worm 413 and the second worm 414, and the tooth directions of the first worm 413 and the second worm 414 are opposite, so that the rotation directions of the first worm wheel 415 and the second worm wheel 416 are opposite.

When the motor 41 works, the output shaft 412 is driven to rotate, and then the longitudinal seal first rotating shaft 49 and the longitudinal seal second rotating shaft 410 are driven to reversely and synchronously rotate through the transmission of the worm wheel and the worm; and then the reverse synchronous rotation of the transverse sealing first rotating shaft 47 and the transverse sealing second rotating shaft 48 is realized through a synchronous belt, and the transverse sealing and the longitudinal sealing are carried out synchronously.

In addition, the drive dial 27 is connected with a dial rotating shaft 43, and the dial rotating shaft 43 is arranged in the transmission case 42 in a penetrating way; the transmission case 42 is also internally provided with a middle rotating shaft 44 parallel to the output shaft 412, and the output shaft 412 is connected with the middle rotating shaft 44 through a synchronous belt; the intermediate rotating shaft 44 and the dial rotating shaft 43 are respectively provided with a third worm 45 and a third worm wheel 46 which are meshed with each other. When the motor 41 works, the output shaft 412 is driven to rotate, the intermediate rotating shaft 44 is driven to rotate through the synchronous belt, and then the driving dial 27 is driven to rotate through the transmission of the third worm 45 and the third worm wheel 46, so that the automatic paper feeding mechanism 2 is synchronously driven.

In this embodiment, when the horizontal sealing plate 31 and the vertical sealing plate 32 are closed, the pulley does not rotate, that is, the automatic paper feeding mechanism 2 and the package shearing mechanism 3 operate alternately, when the automatic paper feeding mechanism 2 operates, the sealing plates in the package shearing mechanism 3 are in a separated state, and when the automatic paper feeding mechanism 2 is in a working gap, the sealing plates in the package shearing mechanism 3 are closed, and the upper and lower bag openings and the side surfaces of the packaging bag are heat-sealed, and simultaneously, the packaging bag which is completely packaged is cut. Specifically, during the automatic continuous packaging operation, the pulley block 23 drives the packaging paper to move to feed the paper, then the longitudinal sealing plate 32 performs side sealing, the packaging paper moves down one station again after the side sealing is completed, then blanking is performed (the part completes bottom sealing in the last packaging operation), and then the transverse sealing plate 31 completes top sealing and shearing after the packaging paper moves down one station again.

In this embodiment, a collecting hopper 5 is arranged below the packaging bags, and a conveying belt 6 is arranged below the collecting hopper 5 and used for collecting and transferring the packaging bags which are packaged completely.

Example 2

The present embodiment differs from embodiment 1 only in that the shape of the chute 36 is slightly different, and as shown in fig. 10, the chute 36 in the present embodiment is formed in a hollow shape in addition to the chute in embodiment 1, that is, the chute in embodiment 1 is kept straight on the side closer to the sealing plate, and the chute in the present embodiment is formed straight on the side farther from the sealing plate. The purpose of this is to make the slide bar 33 more smooth when retracted.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims

1. A vertical continuous bag-making three-edge sealing particle packaging machine is characterized by comprising:

the packaging and shearing mechanism comprises a transverse sealing mechanism and a longitudinal sealing mechanism, the transverse sealing mechanism comprises a pair of transverse sealing plates capable of relatively reciprocating, a cutter is arranged in the middle of each transverse sealing plate, and the upper side and the lower side of the cutter are respectively used for transverse sealing; the longitudinal sealing mechanism comprises a pair of longitudinal sealing plates capable of relatively reciprocating, and the longitudinal sealing plates are used for longitudinally sealing the side surfaces; and

2. The vertical continuous bag-making and three-edge-sealing particle packaging machine as claimed in claim 1, wherein a cylinder is arranged on the surface of the blanking support plate, and the output end of the cylinder is connected with the metering tray to drive the metering tray to move; the metering tray is movably arranged on the blanking supporting plate through a linear guide rail; the bottom of the large funnel is in clearance fit or sliding fit with the upper surface of the metering tray; the bottom of the material receiving groove is in clearance fit or sliding fit with the surface of the blanking supporting plate.

3. The vertical continuous bag-making three-edge sealing particle packaging machine as claimed in claim 1, wherein a plurality of buffer paper guide rollers are arranged below the paper tube rack.

4. The vertical continuous bag-making and three-edge-sealing particle packaging machine as claimed in claim 1, wherein the synchronous driving mechanism comprises a motor and a transmission case, an output end of the motor is connected with an output shaft penetrating through the transmission case, and a transverse-sealing first rotating shaft, a transverse-sealing second rotating shaft, a longitudinal-sealing first rotating shaft and a longitudinal-sealing second rotating shaft which are respectively perpendicular to the output shaft are arranged in the transmission case; the transverse sealing first rotating shaft and the transverse sealing second rotating shaft are used for driving the transverse sealing mechanism to work, and the longitudinal sealing first rotating shaft and the longitudinal sealing second rotating shaft are used for driving the longitudinal sealing mechanism to work;

5. The vertical continuous bag-making and three-edge-sealing particle packaging machine as claimed in claim 4, wherein the horizontal sealing plate and the vertical sealing plate are respectively connected to a linear reciprocating mechanism, the linear reciprocating mechanism comprises a sliding rod and a rotating disc, the sliding rod can slide horizontally, a fixed plate is fixedly arranged on the sliding rod, a sliding groove is formed on the fixed plate, and a convex rod matched with the sliding groove is arranged on the rotating disc, so that the rotating disc can drive the sliding rod to reciprocate when rotating;

6. The vertical continuous bag-making and three-edge-sealing particle packaging machine as claimed in claim 5, wherein the chute comprises a circular arc section and extension sections extending from both ends of the circular arc section to the outside, respectively.

7. A vertical continuous bag-making and three edge-sealing particle packaging machine as claimed in claim 5 wherein one side of said chute is straight and the other side is straight, circular, straight in sequence.

8. The vertical continuous bag-making three-edge-sealing particle packaging machine according to claim 4, wherein the automatic paper feeding mechanism further comprises a pulley block driving device, the pulley block driving device comprises gears respectively connected with the two pulleys and meshed with each other, a grooved wheel connected with one of the gears, and a driving dial matched with the grooved wheel.

9. The vertical continuous bag-making and three-edge-sealing particle packaging machine as claimed in claim 8, wherein the drive dial is connected with a dial rotating shaft, and the dial rotating shaft is penetratingly arranged in the transmission box; the transmission case is also internally provided with an intermediate rotating shaft parallel to the output shaft, and the output shaft is connected with the intermediate rotating shaft through a synchronous belt; and a third worm wheel which are meshed with each other are respectively arranged on the middle rotating shaft and the driving plate rotating shaft.

10. A vertical continuous bag-making three edge-sealing particle packaging machine as claimed in claim 9 wherein said pulleys do not rotate when said transverse and longitudinal sealing panels are closed.