CN111392124A - High-capacity material pure electric intelligent vacuum shaping packaging machine - Google Patents

Abstract

The invention discloses a high-capacity material pure electric intelligent vacuum shaping packaging machine, which comprises: a frame; the hopper is arranged at the top of the frame; the conveying belt is arranged at the bottom of the hopper and is used for containing tea falling in the hopper; the weighing hopper is arranged at the bottom of one end of the conveyor belt; the material supplementing mechanism is arranged at the bottom of the other end of the conveyor belt; the weighing sensor is arranged at the bottom of the weighing hopper; the bag opening hopper is used for containing and receiving the tea in the weighing hopper; the bag opening transmission mechanism is connected with a bag opening hopper; the bag soaking box is arranged below the weighing hopper; a first baffle plate is arranged on one side of the bag opening hopper on the rack, which is far away from the bag soaking box; a second baffle is arranged at the position of the rack close to the bottom and is positioned below the bag opening hopper; the shaping and vacuumizing mechanism is located below the second baffle, a blanking port is formed in the second baffle, and the blanking port is located below the bag opening hopper. The packaging machine can package high-capacity tea leaves, and has the advantages of stable transmission process, low noise and high working efficiency.

Description

High-capacity material pure electric intelligent vacuum shaping packaging machine

Technical Field

The invention relates to the technical field of tea processing equipment, in particular to a high-capacity material pure electric intelligent vacuum shaping packaging machine.

Background

Along with the development of tea drinking culture, more and more people who love tea drinking; bulk tea has disadvantages for quality preservation and external display, so most of tea can be sold after being subpackaged at present; however, the existing tea packing machine only dispenses small-volume tea leaves, has certain limitation on the volume of the packed tea leaves, and cannot pack large-volume tea leaves.

Meanwhile, the existing tea packing machine transmits tea through the air cylinder, and has the problems of high noise, low reliability and easy pollution of hydraulic power to tea.

Therefore, the research of the high-capacity material pure electric intelligent vacuum shaping packaging machine which can package high-capacity tea leaves, is stable in transmission process and low in noise is a problem which needs to be solved urgently by technical personnel in the field.

Disclosure of Invention

In view of the above, the invention provides the high-capacity pure electric intelligent vacuum shaping packaging machine which can package high-capacity tea leaves, is stable in transmission process and low in noise.

In order to achieve the purpose, the invention adopts the following technical scheme:

pure electric intelligent vacuum plastic packagine machine of large capacity material includes:

a frame;

the hopper is arranged at the top of the rack;

the conveying belt is arranged at the bottom of the hopper and is used for containing tea falling in the hopper;

the weighing hopper is arranged at the bottom of one end of the conveying belt;

the material supplementing mechanism is arranged at the bottom of the other end of the conveyor belt, and a discharge port of the material supplementing mechanism is arranged at the top of the weighing hopper;

the weighing sensor is arranged at the bottom of the weighing hopper and used for detecting the weight of the tea leaves in weighing;

the bag opening hopper is used for containing tea leaves in the weighing hopper;

the bag opening transmission mechanism is connected with the bag opening hopper and drives the bag opening hopper to move up and down;

the bag soaking box is arranged below the weighing hopper, and a bag taking opening is formed in the bottom of the bag soaking box;

the bag opening mechanism is fixed on the first baffle plate;

the bag taking mechanism is arranged at the position, close to the bottom, of the rack, and is positioned below the bag opening hopper;

and the shaping and vacuumizing mechanism is positioned below the second baffle, a blanking port is formed in the second baffle, and the blanking port is positioned below the bag opening hopper.

The tea bag weighing device has the advantages that the weighing sensor and the material supplementing mechanism can accurately weigh tea leaves, the bag opening transmission mechanism, the bag taking mechanism and the shaping and vacuumizing mechanism are driven by the stepping motors to transmit, pure electric work is achieved, noise is low, and work efficiency is high.

Preferably, the bottom of the weighing hopper is provided with a bin gate, the bin gate is hinged to the side wall of the weighing hopper, the side wall of the weighing hopper is further provided with a switch motor, the connecting end of the bin gate and the weighing hopper is sequentially connected with three connecting rods, and the three connecting rods are connected with the switch motor. The switch motor drives the connecting rod to move, and then opens the bin door.

Preferably, the bag opening transmission mechanism comprises: a bag opening gear row, a bag opening stepping motor and a bag opening gear; the bag opening gear row is connected with the side wall of the bag opening hopper, an output shaft of the bag opening stepping motor is connected with the bag opening gear, and the bag opening gear is in meshing transmission with the bag opening gear row. The bag opening stepping motor drives the bag opening gear to rotate and drive the bag opening gear row to move up and down, and further drives the bag opening hopper to move up and down to open the bags.

Preferably, a bag opening sucking disc and a bag opening detecting component for detecting a bag opening state are arranged in the bag opening mechanism; the bag opening sucker is vertical to and faces the direction of the bag opening hopper.

Preferably, the bag taking mechanism comprises: the bag taking sucker, the bag taking transmission gear row, the bag taking motor and the rotating motor assembly are arranged on the bag taking frame; the top of the second baffle is provided with a supporting plate, and the supporting plate is arranged at the bottom of the bag making box; the rotating electrical machines subassembly rotate connect in the top of backup pad, get the bag motor with the rotating electrical machines subassembly is connected, get a bag transmission rack with rotating electrical machines subassembly sliding connection, the output of getting the bag motor is equipped with gets a bag gear, get a bag gear with get a bag transmission rack meshing transmission, get a bag sucking disc connect in get the top of bag transmission rack. The bag taking sucker is driven to rotate 90 degrees through the rotating motor component after sucking the bubble bag, the bag taking transmission gear row drives the bag taking sucker to move until the bag opening sucker sucks the bubble bag, the bubble bag is opened, and the bag taking sucker returns to the original position to continue the bag taking process.

Preferably, the top of the second baffle is provided with a bottom blocking shaping device, and the bottom blocking shaping device comprises: the bottom plate and the bottom blocking shaping motor assembly are connected with the bottom plate and drive the bottom plate to move, and when the material is required to be blocked, the bottom plate is arranged above the blanking port. Tea is poured and is finished and then the material pressing is needed to be carried out on the bottom plate, the bottom shaping motor assembly drives the bottom plate to move after the material pressing is finished, and the tea bag falls into the material falling port and enters the shaping vacuumizing mechanism to carry out shaping operation.

Preferably, a vibrating plate is arranged at the top of the bottom plate, and a vibrating component is arranged between the bottom plate and the vibrating plate to drive the vibrating plate to vibrate at the top of the bottom plate; the top of bottom plate sets up the through-hole, the bottom of vibration board sets up the guide post, the guide post is worn to locate in the through-hole. The vibration of the vibrating plate can vibrate the materials in the tea bag, and the materials are pressed after vibration is finished, so that the tea leaves are placed in the tea bag in a more regular shape; when the vibrating plate vibrates, the guide posts move up and down in the through holes, so that the position of the vibrating plate can be prevented from being deviated when the vibrating plate vibrates.

Preferably, be equipped with punching block material pressing drive mechanism on the first baffle, punching block material pressing drive mechanism includes: the punching block pressing motor is connected with the punching block pressing linear guide rail and is arranged on the first baffle, and the pressing elastic piece moves up and down along the punching block pressing linear guide rail.

Preferably, the shaping vacuum-pumping mechanism comprises: the tea leaf packaging and sealing device comprises a first shaping bin, a second shaping bin, a vacuum chamber, a downward pressing shaping assembly, an upward pressing shaping assembly, a material receiving shaping box, a wide surface shaping assembly, a bin gate transmission assembly and a sealing elastic assembly for sealing tea leaf packaging;

the first shaping bin and the second shaping bin are arranged at the bottom of the second baffle, the position of the first shaping bin is fixed, and the bin gate transmission assembly is connected with the second shaping bin and drives the second shaping bin to move left and right; a cavity is arranged in the first shaping bin, and the vacuum chamber is positioned at the top end in the first shaping bin;

the material receiving shaping is U-shaped and is arranged at the bottom end inside the first shaping bin, and the wide surface shaping assembly is arranged at two ends of an opening of the material receiving shaping box and is used for shaping the wide surface of the tea package;

the upper shaping assembly is positioned below the material receiving shaping box, and the lower shaping assembly is positioned above the material receiving shaping box and is used for shaping the upper surface and the lower surface of the tea package;

a bin gate transmission plate is arranged on one side, away from the first shaping bin, of the second shaping bin, the top of the bin gate transmission plate is connected to the bottom of the second baffle, and the bin gate transmission assembly is fixed on the bin gate transmission plate;

the sealing elastic component is fixed on the bin gate transmission plate and is positioned above the bin gate transmission component.

Preferably, the bottom of the second baffle is provided with two poking pieces for smoothing edges of the blister pack, the poking pieces are located on two sides of the first shaping bin and are arranged between the first shaping bin and the second shaping bin, the bottom of the second baffle is provided with a poking piece motor, an output shaft of the poking piece motor is connected with a first poking piece gear, the first poking piece gear is meshed with a second poking piece gear, the second poking piece gear is connected with the poking piece, and the rotation of the second poking piece gear drives the poking piece to rotate for smoothing edges. The sealing position of the stroked edge of the bubble bag is smoother, and the bubble bag is more favorably vacuumized and sealed.

According to the technical scheme, compared with the prior art, the pure electric intelligent vacuum shaping packaging machine for the large-capacity materials has the advantages that the weighing sensor is arranged in the weighing hopper to weigh the weight of the tea, and the material supplementing mechanism can supplement materials to the weighing hopper, so that the weight of the tea is weighed more accurately; in addition, the step motor is selected to drive the packaging machine to work, so that the noise is low, the maintenance is convenient, and the working efficiency is high.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

FIG. 1 is a schematic view of a packaging machine according to the present invention;

FIG. 2 is a left side view of the wrapping machine provided by the present invention;

FIG. 3 is a schematic structural view of a bag taking mechanism provided by the present invention;

FIG. 4 is a schematic structural view of a connection portion of the dial plate provided by the present invention;

FIG. 5 is an enlarged view of the structure at the bottom plate provided by the present invention;

fig. 6 is an enlarged view of the structure at a.

Wherein, in the figure,

1-a frame;

101-a first baffle;

102-a second baffle;

1021-a blanking port;

103-a support plate; 104-bin gate drive plate;

2-a hopper;

3-weighing hopper;

301-door of the bin; 302-switching the motor; 303-a connecting rod;

4-a material supplementing mechanism; 5-a weighing sensor; 6-bag hopper;

7-bag opening transmission mechanism;

701-opening a bag and arranging teeth; 702-bag opening stepping motor; 703-bag opening gear;

8-bag-making box;

9-bag opening mechanism;

901-bag suction cup; 902-bag detection means; 903-bag baffle;

10-a bag taking mechanism;

1001-bag taking sucker; 1002-taking a bag and driving a tooth row; 1003-bag taking motor; 1004 — rotating electric machine component; 1005-bag taking linear guide rod;

11-a shaping and vacuumizing mechanism;

1101-a first shaping bin; 1102-a second shaping bin; 1103-vacuum chamber; 1104-press down the shaping component; 1105-pressing the shaping component upwards; 1106-receiving shaping box; 1107-broad face shaping component; 1108-a bin gate drive assembly; 1109-seal elastic component;

12-bottom blocking and shaping;

1201-base plate; 1202-bottom blocking and shaping motor assembly; 1203-a vibrating plate; 1204-a vibrating member; 1205-a guide post;

13-punching block pressing transmission mechanism;

1301-punching block material pressing motor; 1302-punching and pressing linear guide rail; 1303-pressing elastic pieces;

14-a plectrum; 15-a first paddle gear; 16-a second paddle gear;

17-a push plate transmission mechanism;

1701-push plate motor; 1702-push plate tooth row; 1703-push plate.

18-a plectrum motor.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The embodiment of the invention discloses a high-capacity material pure electric intelligent vacuum shaping packaging machine, which comprises:

a frame 1;

the hopper 2 is arranged at the top of the frame 1;

the conveying belt is arranged at the bottom of the hopper 2 and is used for containing tea falling from the hopper 2;

the weighing hopper 3 is arranged at the bottom of one end of the conveying belt;

the material supplementing mechanism 4 is arranged at the bottom of the other end of the conveyor belt, and a discharge hole of the material supplementing mechanism 4 is arranged at the top of the weighing hopper 3;

the weighing sensor 5 is arranged at the bottom of the weighing hopper 3 and used for detecting the weight of the tea leaves during weighing;

the bag opening hopper 6 is used for containing tea leaves in the weighing hopper 3;

the bag opening transmission mechanism 7 is connected with the bag opening hopper 6 and drives the bag opening hopper 6 to move up and down;

the bag soaking box 8 is arranged below the weighing hopper 3, and a bag taking opening is formed in the bottom of the bag soaking box 8;

a bag opening mechanism 9, wherein a first baffle plate 101 is arranged on one side of the frame 1, which is far away from the bag soaking box 8, of the bag opening hopper 6, and the bag opening mechanism 9 is fixed on the first baffle plate 101;

the bag taking mechanism 10 is provided with a second baffle plate 102 at a position, close to the bottom, of the rack 1, the second baffle plate 102 is positioned below the bag opening hopper 6, and the bag taking mechanism 10 is arranged at the top of the second baffle plate 102 and is positioned below the bag soaking box 8;

and the shaping vacuumizing mechanism 11 is arranged below the second baffle plate 102, the second baffle plate 102 is provided with a blanking port 1021, and the blanking port 1021 is arranged below the bag opening hopper 6.

In order to further optimize the technical scheme, the bottom of the weighing hopper 3 is provided with a bin gate 301, the bin gate 301 is hinged to the side wall of the weighing hopper 3, the side wall of the weighing hopper 3 is also provided with a switch motor 302, and the connecting end of the bin gate and the weighing hopper 3 is sequentially connected with three connecting rods 303 which are connected with the switch motor 302 through the three connecting rods 303.

In order to further optimize the above technical solution, the bag opening transmission mechanism 7 comprises: a bag opening tooth row 701, a bag opening stepping motor 702 and a bag opening gear 703; the bag opening gear row 701 is connected with the side wall of the bag opening hopper 6, the output shaft of the bag opening stepping motor 702 is connected with a bag opening gear 703, and the bag opening gear 703 is in meshing transmission with the bag opening gear row 701.

In order to further optimize the above technical solution, a bag opening suction cup 901 and a bag opening detection component 902 for detecting a bag opening state are arranged inside the bag opening mechanism 9; the bag-opening suction cup 901 is vertical and faces to the bag-opening hopper 6. Open 9 departments of bag mechanism and still set up and open bag baffle 903, open bag baffle 903 and be the U type, open the bottom plate of bag baffle 903 and be connected with first baffle 101, open bag baffle 903 along opening the moving direction of bag hopper 6 and the one side of getting bag mechanism 10 of orientation all is the opening form, open bag sucking disc 901 and arrange in the inboard orientation of opening bag baffle 903 bottom plate and get bag mechanism 10, open bag detecting element 902 and arrange in on the inside wall of opening bag baffle 903, be used for detecting the bubble bag and open, open bag detecting element 902 and adopt optic fibre to detect. As shown in fig. 6, fig. 6 is a perspective view showing both the open bag suction cup 901 and the open bag detecting member 902.

In order to further optimize the above technical solution, the bag taking mechanism 10 includes: a bag taking sucker 1001, a bag taking transmission tooth row 1002, a bag taking motor 1003 and a rotating motor assembly 1004; the top of the second baffle plate 102 is provided with a support plate 103, and the support plate 103 is arranged at the bottom of the bag making box 8; the rotating motor assembly 1004 is rotatably connected to the top of the supporting plate 103, the bag taking motor 1003 is connected with the rotating motor assembly 1004, the bag taking transmission rack 1002 is slidably connected with the rotating motor assembly 1004, a bag taking gear is arranged at the output end of the bag taking motor 1003 and is in meshing transmission with the bag taking transmission rack 1002, and the bag taking sucker 1001 is connected to the top of the bag taking transmission rack 1002. The rotary motor assembly 1004 is connected with a bag taking linear guide rail, the bottom of the bag taking sucker 1001 is connected with a bag taking linear guide rod 1005, the bag taking linear guide rod 1005 is arranged inside the bag taking linear guide rail and is in sliding connection with the bag taking linear guide rail, three side surfaces of the bag taking linear guide rod 1005 are in contact with the bag taking linear guide rail, the non-contact side surface is connected with a bag taking transmission tooth row 1002, a bag taking motor 1003 is connected with the outer side wall of the bag taking linear guide rail, and the bag taking motor 1003 drives the bag taking linear guide rod 1005 to move up and down in the bag taking linear guide rail through a bag taking gear; the rotating motor assembly 1004 can drive the bag taking linear guide rail to rotate, and the bag taking motor 1003, the bag taking sucker 1001 and the bag taking linear guide rod 1005 rotate along with the bag taking linear guide rail.

In order to further optimize the above technical solution, the top of the second baffle 102 is provided with a bottom stop reshaping 12, and the bottom stop reshaping 12 comprises: the bottom plate 1201, keep off end plastic motor assembly 1202 and be connected with bottom plate 1201 to drive bottom plate 1201 and remove, when needs keep off the material, the top of blanking mouth 1021 is arranged in to bottom plate 1201. The bottom plate 1201 and the bottom stop shaping motor assembly 1202 perform a transmission process through the structures of gears, gear rows, linear guide rails and linear guide rods.

In order to further optimize the technical scheme, a vibration plate 1203 is arranged on the top of the bottom plate 1201, and a vibration part 1204 is arranged between the bottom plate 1201 and the vibration plate 1203 and drives the vibration plate 1203 to vibrate on the top of the bottom plate 1201; the top of bottom plate 1201 sets up the through-hole, and the bottom of vibration board 1203 sets up guide post 1205, and guide post 1205 wears to locate in the through-hole.

In order to further optimize the above technical solution, the first baffle 101 is provided with a punching and pressing transmission mechanism 13, and the punching and pressing transmission mechanism 13 includes: the punching and pressing motor 1301, the punching and pressing linear guide rail 1302 and the pressing elastic part 1303, wherein the punching and pressing motor 1301 and the punching and pressing linear guide rail 1302 are connected and arranged on the first baffle 101, and the pressing elastic part 1303 moves up and down along the punching and pressing linear guide rail 1302. The punch pressing motor 1301 and the punch pressing linear guide 1302 are driven by gears and tooth row structures.

In order to further optimize the above technical solution, the shaping vacuum mechanism 11 includes: the tea leaf packaging and sealing device comprises a first shaping bin 1101, a second shaping bin 1102, a vacuum chamber 1103, a downward pressing shaping component 1104, an upward pressing shaping component 1105, a material receiving shaping box 1106, a wide surface shaping component 1107, a bin gate transmission component 1108 and a sealing elastic component 1109 for sealing tea leaf packaging;

the first shaping bin 1101 and the second shaping bin 1102 are arranged at the bottom of the second baffle 102, the first shaping bin 1101 is fixed in position, and the bin gate transmission assembly 1108 is connected with the second shaping bin 1102 and drives the second shaping bin 1102 to move left and right; a cavity is arranged in the first shaping bin 1101, and the vacuum chamber 1103 is positioned at the top end inside the first shaping bin 1101;

the material receiving shaping 1106 is U-shaped and is arranged at the bottom end inside the first shaping bin 1101, and the wide surface shaping component 1107 is arranged at two ends of an opening of the material receiving shaping box 1106 and is used for shaping the wide surface of the tea package;

the upper shaping component 1105 is positioned below the material receiving shaping box 1106, and the lower shaping component 1104 is positioned above the material receiving shaping box 1106 and is used for shaping the upper surface and the lower surface of the tea package;

a bin gate driving plate 104 is arranged on one side, away from the first shaping bin 1101, of the second shaping bin 1102, the top of the bin gate driving plate 104 is connected to the bottom of the second baffle plate 102, and a bin gate driving assembly 1108 is fixed on the bin gate driving plate 104;

the sealing elastic component 1109 is fixed on the door driving plate 104 and located above the door driving component 1108. The downward pressing and shaping assembly 1104 is divided into two halves, one half is arranged at the top of the first shaping bin 1101, the other half is arranged at the top of the second shaping bin 1102, and after the first shaping bin 1101 and the second shaping bin 1102 are overlapped, the downward pressing and shaping assembly 1104 moves downward to perform downward pressing and shaping on the blister pack; the upper pressing and shaping assembly 1105 pushes the material receiving and shaping box 1106 upwards to realize upper pressing and shaping; the sealing elastic component 1109 comprises a sealing end and a sealing transmission part, the sealing end penetrates through the side wall of the second shaping bin 1102 to seal the bubble bag, the sealing transmission part drives a sealing gear through a sealing motor, the sealing gear drives a sealing rack, and the sealing end moves back and forth to seal the bubble bag. The sealed end is heated and sealed by a heating rod.

In order to further optimize the technical scheme, two poking pieces 14 used for smoothing edges of the blister pack are arranged at the bottom of the second baffle 102, the poking pieces 14 are located on two sides of the first shaping bin 1101 and are arranged between the first shaping bin 1101 and the second shaping bin 1102, a poking piece motor 18 is arranged at the bottom of the second baffle 102, an output shaft of the poking piece motor 18 is connected with a first poking piece gear 15, the first poking piece gear 15 is in meshed connection with a second poking piece gear 16, the second poking piece gear 16 is connected with the poking pieces 14, and the poking pieces 14 are driven to rotate by rotation of the second poking piece gear 16 to smooth edges. As shown in fig. 4, one of the shifting piece motors 18 is arranged to drive one of the first shifting piece gears 15 to rotate, and the two first shifting piece gears 15 are in meshed transmission.

In order to further optimize the above technical solution, a push plate transmission mechanism is disposed at the rear side of the first shaping chamber 1101, and the push rod transmission mechanism 17 includes: the tea bag packaging machine comprises a push plate motor 1701, a push plate tooth row 1702, a push plate gear and a push plate 1703, wherein the push plate 1703 is connected with the end part of the push plate tooth row 1702, the output shaft of the push plate motor 1701 is connected with the push plate gear, the push plate gear is connected with the push plate tooth row 1702, the push plate motor 1701 drives the push plate 1703 to move back and forth, and the packaged tea bag is pushed out from the material receiving shaping box 1106.

The working principle is as follows:

the material is placed in the hopper 2, the conveyor belt receives the material in the hopper 2, the conveyor belt rotates forwards to transmit a large amount of material into the weighing hopper 3, the weight of the material is detected by the weighing sensor 5, the conveyor belt rotates backwards, a small amount of material is transmitted into the material supplementing mechanism 4, and the material supplementing mechanism 4 supplements the material into the weighing hopper 3 until the material in the hopper reaches the required weight; the connecting rod 303 is driven to move by the switching motor 302, the bin gate 301 is opened, the material in the weighing hopper 3 enters the bag opening hopper 6, the finished product of the blister bag is placed in the blister bag box 8, the bag taking motor 1003 drives the bag taking sucker 1001 to move to the position of the blister bag on the bag taking transmission gear row 1002 to suck the blister bag to move back, then the rotating motor component 1004 rotates the bag taking sucker 1001 by 90 degrees, the bag taking motor 1003 drives the bag taking sucker 1001 to move, the bag taking sucker is moved to the bag opening position, the bag opening sucker 1001 sucks the blister bag, the bag taking transmission gear row 1002 drives the bag taking sucker 1001 to move back to open the blister bag, the bag opening stepping motor 702 drives the bag opening hopper 6 to move downwards to the inside of the blister bag, at the moment, the switching motor 302 drives the connecting rod 303 to move to open the bin gate 301, the material in the weighing hopper 3 enters the bag opening hopper 6, and the material enters the blister bag opening hopper 6, after the charging of the bubble bag is completed, the bottom blocking shaping motor assembly 1202 drives the second baffle plate 102 to move above a blanking port 1021, the punching block material pressing motor 1301 drives the material pressing elastic piece 1303 to move on the punching block material pressing linear guide rail 1302, so that the material pressing elastic piece 1303 presses the material, after the material pressing is completed, the bottom blocking shaping motor assembly 1202 drives the second baffle plate 102 to move and restore to the original position, the bubble bag filled with the material enters the material receiving shaping 1106 through the blanking port 1021, the material is shaped through the pressing shaping assembly 1104, the pressing shaping assembly 1105 and the wide shaping assembly 1107, after the shaping is completed, the vacuum pump evacuation valve is started in the vacuum chamber 1103 to begin to evacuate and work to the required vacuum degree, and then the sealing end of the bubble bag is sealed completely through the heating rod by the sealing elastic assembly 1109, so that the whole packaging process is completed.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. Pure electric intelligent vacuum plastic packagine machine of large capacity material, its characterized in that includes:

a frame (1);

the hopper (2) is arranged at the top of the rack (1);

the conveying belt is arranged at the bottom of the hopper (2) and is used for containing tea falling in the hopper (2);

the weighing hopper (3), the weighing hopper (3) is arranged at the bottom of one end of the conveyor belt;

the material supplementing mechanism (4) is arranged at the bottom of the other end of the conveyor belt, and a discharge hole of the material supplementing mechanism (4) is arranged at the top of the weighing hopper (3);

the weighing sensor (5) is arranged at the bottom of the weighing hopper (3) and used for detecting the weight of the tea leaves in weighing;

the bag opening hopper (6), the bag opening hopper (6) is used for containing tea leaves in the weighing hopper (3);

the bag opening transmission mechanism (7) is connected with the bag opening hopper (6) and drives the bag opening hopper (6) to move up and down;

the bag soaking box (8) is arranged below the weighing hopper (3), and a bag taking opening is formed in the bottom of the bag soaking box (8);

the bag opening mechanism (9), a first baffle plate (101) is arranged on one side, away from the bag soaking box (8), of the bag opening hopper (6) on the rack (1), and the bag opening mechanism (9) is fixed on the first baffle plate (101);

the bag taking mechanism (10), a second baffle (102) is arranged at a position, close to the bottom, of the rack (1), the second baffle (102) is positioned below the bag opening hopper (6), and the bag taking mechanism (10) is arranged at the top of the second baffle (102) and is positioned below the bag soaking box (8);

the shaping and vacuumizing mechanism (11), the shaping and vacuumizing mechanism (11) is located below the second baffle (102), a blanking port (1021) is formed in the second baffle (102), and the blanking port (1021) is located below the bag opening hopper (6).

2. The pure electric intelligent vacuum shaping and packaging machine for the large-capacity materials as claimed in claim 1, wherein a bin gate (301) is arranged at the bottom of the weighing hopper (3), the bin gate (301) is hinged to the side wall of the weighing hopper (3), a switch motor (302) is further arranged on the side wall of the weighing hopper (3), three connecting rods (303) are sequentially connected to the connecting end of the bin gate (301) and the weighing hopper (3), and the three connecting rods (303) are connected with the switch motor (302).

3. Pure electric intelligent vacuum shaping packaging machine for high-capacity materials according to claim 1 or 2, characterized in that the bag opening transmission mechanism (7) comprises: a bag opening gear row (701), a bag opening stepping motor (702) and a bag opening gear (703); the bag opening gear row (701) is connected with the side wall of the bag opening hopper (6), the output shaft of the bag opening stepping motor (702) is connected with the bag opening gear (703), and the bag opening gear (703) is in meshing transmission with the bag opening gear row (701).

4. The high-capacity material pure electric intelligent vacuum shaping and packaging machine is characterized in that a bag opening sucking disc (901) and a bag opening detecting component (902) for detecting the bag opening state are arranged inside the bag opening mechanism (9); the bag opening sucker (901) is vertical and faces to the direction of the bag opening hopper (6).

5. The mass pure electric intelligent vacuum shaping packaging machine according to claim 4, characterized in that the bag taking mechanism (10) comprises: a bag taking sucker (1001), a bag taking transmission tooth row (1002), a bag taking motor (1003) and a rotating motor assembly (1004); a supporting plate (103) is arranged at the top of the second baffle (102), and the supporting plate (103) is arranged at the bottom of the bag making box (8); the bag taking device is characterized in that the rotating motor component (1004) is rotatably connected to the top of the supporting plate (103), the bag taking motor (1003) is connected with the rotating motor component (1004), the bag taking transmission rack row (1002) is in sliding connection with the rotating motor component (1004), a bag taking gear is arranged at the output end of the bag taking motor (1003), the bag taking gear is in meshing transmission with the bag taking transmission rack row (1002), and the bag taking sucker (1001) is connected to the top of the bag taking transmission rack row (1002).

6. Pure electric intelligent vacuum shaping packaging machine for high-capacity materials according to any one of claims 1, 2, 4 or 5, characterized in that the top of the second baffle plate (102) is provided with a bottom-blocking shaping plate (12), and the bottom-blocking shaping plate (12) comprises: the material stopping device comprises a bottom plate (1201) and a bottom stopping shaping motor assembly (1202), wherein the bottom stopping shaping motor assembly (1202) is connected with the bottom plate (1201) and drives the bottom plate (1201) to move, and when material stopping is needed, the bottom plate (1201) is arranged above a blanking port (1021).

7. The pure electric intelligent vacuum shaping packaging machine for high-capacity materials according to claim 6, characterized in that a vibrating plate (1203) is arranged at the top of the bottom plate (1201), a vibrating part (1204) is arranged between the bottom plate (1201) and the vibrating plate (1203), and the vibrating plate (1203) is driven to vibrate at the top of the bottom plate (1201); the top of bottom plate (1201) sets up the through-hole, the bottom of vibration board (1203) sets up guide post (1205), guide post (1205) wear to locate in the through-hole.

8. The high-capacity material pure electric intelligent vacuum shaping and packaging machine as claimed in claim 7, wherein the first baffle (101) is provided with a punching and pressing transmission mechanism (13), and the punching and pressing transmission mechanism (13) comprises: the punching block pressing device comprises a punching block pressing motor (1301), a punching block pressing linear guide rail (1302) and a pressing elastic piece (1303), wherein the punching block pressing motor (1301) is connected with the punching block pressing linear guide rail (1302) and is arranged on the first baffle (101), and the pressing elastic piece (1303) moves up and down along the punching block pressing linear guide rail (1302).

9. The high-capacity material pure electric intelligent vacuum shaping and packaging machine as claimed in claim 8, wherein the shaping vacuumizing mechanism (11) comprises: the tea leaf packaging and sealing device comprises a first shaping bin (1101), a second shaping bin (1102), a vacuum chamber (1103), a downward pressing shaping component (1104), an upward pressing shaping component (1105), a material receiving shaping box (1106), a wide surface shaping component (1107), a bin gate transmission component (1108) and a sealing elastic component (1109) for sealing tea leaf packaging;

the first shaping bin (1101) and the second shaping bin (1102) are arranged at the bottom of the second baffle (102), the position of the first shaping bin (1101) is fixed, and the bin gate transmission assembly (1108) is connected with the second shaping bin (1102) and drives the second shaping bin (1102) to move left and right; a cavity is arranged in the first shaping bin (1101), and the vacuum chamber (1103) is positioned at the top end inside the first shaping bin (1101);

the material receiving shaping box (1106) is U-shaped and is arranged at the bottom end inside the first shaping bin (1101), and the wide surface shaping assembly (1107) is arranged at two ends of an opening of the material receiving shaping box (1106) and is used for shaping the wide surface of tea package;

the upper shaping assembly (1105) is positioned below the material receiving shaping box (1106), and the lower shaping assembly (1104) is positioned above the material receiving shaping box (1106) and is used for shaping the upper surface and the lower surface of the tea package;

a bin gate driving plate (104) is arranged on one side, away from the first shaping bin (1101), of the second shaping bin (1102), the top of the bin gate driving plate (104) is connected to the bottom of the second baffle (102), and the bin gate driving assembly (1108) is fixed on the bin gate driving plate (104);

the sealing elastic component (1109) is fixed on the bin gate transmission plate (104) and is positioned above the bin gate transmission component (1108).

10. The high-capacity material pure-electric intelligent vacuum shaping and packaging machine is characterized in that two poking pieces (14) for edge smoothing of the bubble bags are arranged at the bottom of the second baffle plate (102), the poking pieces (14) are positioned on two sides of the first shaping bin (1101) and are arranged between the first shaping bin (1101) and the second shaping bin (1102), a poking piece motor (18) is arranged at the bottom of the second baffle plate (102), an output shaft of the poking piece motor (18) is connected with a first poking piece gear (15), the first poking piece gear (15) is meshed with a second poking piece gear (16), the second poking piece gear (16) is connected with the poking pieces (14), and the rotation of the second poking piece gear (16) drives the poking pieces (14) to rotate for edge smoothing.

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