CN204846457U - Tea automatic packaging machine - Google Patents

Abstract

The utility model relates to a tea automatic packaging machine, including the frame with set up hopper, feeding mechanism, metering device, inner bag charging mechanism, inner bag system bag mechanism, inner bag film feed mechanism, outer bag charging mechanism, outer bag feed mechanism, transport mechanism, vacuum seal device and the PLC controlling means in the frame, inner bag film feed mechanism includes film winding mechanism and props a mechanism, props an establishment of institution and be in inner bag charging mechanism's below, inner bag system bag establishment of institution is at inner bag charging mechanism and prop between the mechanism, inner bag charging mechanism's discharge end be equipped with with strut after the supporting part that corresponds of film, still include positioning mechanism and shifter. Thus, the utility model discloses the abundant improve equipment's of ability utilization ratio, the function is also more diversified, simultaneously inner bag charging mechanism, prop the reasonable setting of a mechanism and transport mechanism structure and position, make the utility model discloses the tealeaves packaging process is more smooth, and the packing efficiency of tealeaves obtains effectual promotion.

Description

A kind of automatic packaging machine of tea

Technical field

The utility model belongs to Tea Processing treatment facility field, is specifically related to a kind of automatic packaging machine of tea

Background technology

Conveniently store and make tea, current most domestic tealeaves adopt 5 to 10 grams vacuumize anaerobic inner wrapping.According to the user demand of client, this kind of packaging is generally divided into two kinds of modes, and the first is only packed by an outer bag, directly loads in outer bag, vacuumize afterwards and seal process to outer bag by tealeaves, adopts and pack fast in this way; In the second adopts, outer bag packaging, first loads tealeaves in inner bag, then loads in outer bag by inner bag, carry out afterwards vacuumizing and sealing process, adopt this manner of packing better can protect tealeaves, not easily causes being scattered of tealeaves when removing outer bag simultaneously.

In order to realize automatic packaging, be developed various tea leaf packaging device, the first kind equipment as the first manner of packing above-mentioned mainly comprises pay-off, gauging device, outer bag feeding mechanism and vacuum seal; Equations of The Second Kind equipment corresponding to above-mentioned the second manner of packing mainly comprise pay-off, gauging device, inner bag feeding mechanism, inner bag feeding device, outer bag feeding mechanism, outer bag feeding device, inner bag is sent into outer bag inner bag feedway and carry out the vacuum seal that vacuumizes and seal, this automation equipment can be implemented in the interior continuously packaging in addition of tealeaves on a machine, improve work to produce, as the Chinese invention patent of Authorization Notice No. CN101837843B, namely disclose a kind of interior vacuum packaging automat in addition; The Chinese utility model patent of Authorization Notice No. CN201825282U, discloses outer bag packaging integrated machine in Full-automatic tea leaf vacuum; The Chinese utility model patent of Authorization Notice No. CN203806163U, discloses a kind of Full-automatic tea packing machine.

At present, above-mentioned first kind equipment and Equations of The Second Kind equipment generally independently use, and every kind equipment can only play separately in self function, production needs multiple devices, occupies larger space, and there is the low defect of capacity utilization rate.And current Full-automatic tea packaging also to there is degree of automation not high enough, production efficiency is relatively low, the defect of each part fits process relative complex in automatic packaging machine.

Given this, the present inventor carries out deep research to the problems referred to above, then has this case to produce.

Utility model content

The purpose of this utility model is to provide that a kind of capacity utilization rate is high, production efficiency is higher and the automatic packaging machine of tea of functional diversities.

In order to achieve the above object, the utility model adopts such technical scheme:

A kind of automatic packaging machine of tea, comprise frame and be arranged on the hopper in frame, the below of hopper is provided with feed mechanism, gauging device, inner bag charge mechanism, inner bag bag-making organization, inner bag membrane supplying mechanism, outer bag charge mechanism, outer bag feed mechanism, in order to will the connecting gear of inner bag from inner bag charge mechanism feeding outer bag charge mechanism of tealeaves be installed, vacuum seal and PLC control setup, described inner bag membrane supplying mechanism comprises film take-up and supports mechanism in order to what make the opening of film strut, describedly support the below of organization establishes at described inner bag charge mechanism, described inner bag bag-making organization is arranged on described inner bag charge mechanism and describedly supports between mechanism, the corresponding described inner bag bag-making organization of described connecting gear is arranged on described inner bag charge mechanism and describedly supports between mechanism, the discharge end of described inner bag charge mechanism be provided with strut after support portion corresponding to film, the detent mechanism of this support portion is positioned at when also comprising in order to be accounted for by the film after strutting, be the first feeding style with the inlet point that tealeaves is delivered to described inner bag charge mechanism from the discharging opening of described gauging device, be the second feeding style with the inlet point that tealeaves is delivered to described outer bag charge mechanism from the discharging opening of described gauging device, also comprise the switching mechanism realizing the first feeding style and the switching of the second feeding style, switching mechanism is arranged in described frame.

As a kind of optimal way of the present utility model, the secondary feed mechanism that described feed mechanism comprises one-level feed mechanism and coordinates with one-level feed mechanism, described one-level feed mechanism is the belt transmission agency that the discharging opening of corresponding described hopper is arranged, belt transmission agency comprises feed belt and drives the driver train of feed belt motion, feed belt has the first feeding end and the second feeding end along throughput direction, described secondary feed mechanism comprises the first spiral vibrating device and the second spiral vibrating device, described gauging device comprises the first gauging device and the second gauging device, the feeding mouth of the first spiral vibrating device is corresponding with the first feeding end to be arranged, the discharging opening of the first spiral vibrating device is corresponding with the feeding mouth of the first gauging device to be arranged, the feeding mouth of the second spiral vibrating device is corresponding with the second feeding end to be arranged, the discharging opening of the second spiral vibrating device is corresponding with the feeding mouth of the second gauging device to be arranged, the discharging opening of the first gauging device and the discharging opening of the second gauging device are all corresponding with the feeding mouth of described switching mechanism to be arranged, also comprise the second sensor that the first corresponding spiral vibrating device arranges first sensor and corresponding second spiral vibrating device setting, first sensor and the second sensor are all electrically connected to described PLC control setup, first detecting means corresponding with first sensor is provided with at the inner bottom part of the first spiral vibrating device, second detecting means corresponding with the second sensor is provided with at the inner bottom part of the second spiral vibrating device.

As a kind of optimal way of the present utility model, described switching mechanism comprise select one be arranged in described frame first switching groove and second switching groove, described gauging device is arranged on the top being positioned at the inlet point of described outer bag charge mechanism of described inner bag charge mechanism, first switching groove is arranged between described gauging device and described inner bag charge mechanism, first switching groove has the inlet point corresponding with the discharging opening of described gauging device and the discharging opening corresponding with the feeding mouth of described inner bag charge mechanism, second switching groove has the inlet point corresponding with the discharging opening of described gauging device and the discharging opening corresponding with the inlet point of described outer bag charge mechanism, also comprise the transfer hopper being arranged on described outer bag charge mechanism, the inlet point and described second of transfer hopper is transferred, and the discharging opening of groove is corresponding to be arranged, the discharging opening of transfer hopper is corresponding with the inlet point of described outer bag charge mechanism to be arranged.

As a kind of optimal way of the present utility model, the described mechanism that supports comprises the mount pad be fixed in described frame and the guiding piece be arranged on mount pad, mount pad is provided with mounting hole, guiding piece is erected in mounting hole, guide wheel is provided with at the inwall of mounting hole, the gap passed for described film is formed between guide wheel and the outer wall of guiding piece, the lower end of guiding piece is the guide portion guiding described film to strut, the upper end of guiding piece is provided with to make described film form the supporting blade of opening, and supporting blade is positioned at immediately below the discharging opening of described inner bag charge mechanism.

As a kind of optimal way of the present utility model, described inner bag bag-making organization comprises enclosed mechanism and cutting mechanism, described mount pad is vertically installed with working plate, working plate has sealing bar-shaped trough and cutting bar-shaped trough, enclosed mechanism is provided with the sealing cutter head corresponding with sealing bar-shaped trough, cutting mechanism is provided with the cutting blade corresponding with described cutting bar-shaped trough, also comprise the first cylinder in order to drive sealing cutter head and cutting blade to move to working plate, the first cylinder is fixed in described frame.

As a kind of optimal way of the present utility model, described inner bag charge mechanism comprises the undertaking hopper corresponding with the discharging opening of described switching mechanism and in order to drive the second cylinder accepted hopper and move up and down, second cylinder is fixed in described frame, described detent mechanism is the 3rd cylinder and the four-cylinder being fixed on the outer wall accepting hopper, the piston rod of the 3rd cylinder is provided with the first jacking block of corresponding described support portion setting, the piston rod of four-cylinder is provided with the second jacking block of corresponding described support portion setting, first jacking block and the second jacking block divide the both sides being located at described support portion.

As a kind of optimal way of the present utility model, described connecting gear comprises and corresponding with the feeding mouth of described outer bag charge mechanism turns to hopper, in order to drive the 5th cylinder turning to hopper parallel motion, hopper is turned to turn to the steering driving mechanism of vertical state from horizontality in order to drive, in order to the inner bag that tealeaves is housed is carried out bag folding pocket creasing mechanism and in order to turn to the pusher of hopper described in being pushed to by tea inner bag, hopper is turned to have towards the first entrance of described pusher and the first outlet towards described outer bag charge mechanism, 5th cylinder is fixed on described outer bag charge mechanism, described steering driving mechanism comprises the 6th cylinder, the piston rod of the 6th cylinder is fixedly connected with the first toothholder, be provided with the first rotating shaft described frame is added, first rotating shaft is provided with the first gear coordinated with the first toothholder, one end of first rotating shaft is fixed with the first steering block, the piston rod of described 5th cylinder is fixedly connected with pedestal, the second rotating shaft is equipped with in pedestal, the described one end of hopper that turns to is fixed in the second rotating shaft, one end that second rotating shaft passes pedestal is fixed with the second steering block, interlock plate is provided with between the first steering block and the second steering block, first steering block is provided with the accommodating groove extended in the horizontal direction, one end of interlock plate is mounted slidably in this accommodating groove, the other end is fixed on the second steering block, described pocket creasing mechanism comprises the 7th cylinder, 8th cylinder, 9th cylinder and the tenth cylinder, the piston rod of the 7th cylinder is provided with locating plate, on described pedestal, corresponding locating plate is provided with the positioning groove coordinated with locating plate, the piston rod of the 8th cylinder is connected with the promotion can stretching into described first entrance dull and stereotyped, the piston rod of the 9th cylinder is provided with the pushing block in order to the inner bag that tealeaves is housed to be pushed described first entrance, 7th cylinder, 8th cylinder and the 9th cylinder are all fixed in described frame, tenth cylinder is fixed on described pedestal, the piston rod of the tenth cylinder is connected with sub barrier moving up and down, corresponding described first entrance of sub barrier is arranged, 5th cylinder, 6th cylinder, 7th cylinder, 8th cylinder, 9th cylinder and the tenth cylinder are all electrically connected to described PLC control setup.

As optimal way of the present utility model, described outer bag charge mechanism comprises the first stringer board and the second stringer board that are oppositely arranged, be provided with in order to receive from the described material receiving mechanism turning to the inner bag sent hopper between first stringer board and the second stringer board, first stringer board is provided with the 11 cylinder that this material receiving mechanism can be driven to move up and down, described material receiving mechanism comprises two pieces of elastic connecting flitch be oppositely arranged, distance between two blocks of splicing plates reduces from top to bottom gradually and lower end between two blocks of splicing plates forms the portion that gets stuck in order to receive inner bag, also comprise the push pedal be arranged between two blocks of splicing plates, described first stringer board is provided with the 12 cylinder driving push pedal to move up and down, 11 cylinder and the 12 cylinder are all electrically connected to described PLC control setup.

As optimal way of the present utility model, described outer bag feed mechanism comprises the outer bag standing groove stacking outer bag, in order to the first suction nozzle by outer bag sucking-off from outer bag standing groove and the second suction nozzle of coordinating with the first suction nozzle, described frame is provided with the 13 cylinder, the piston rod of the 13 cylinder is provided with the second toothholder, the 3rd rotating shaft is provided with in described frame, the second gear coordinated with the second toothholder is provided with in 3rd rotating shaft, 3rd rotating shaft is connected with the tenth four-cylinder, the piston rod of the tenth four-cylinder is provided with the first stay bearing plate, described first suction nozzle is arranged on the first stay bearing plate, the second stay bearing plate is provided with between described first stringer board and the second stringer board, described second suction nozzle is arranged on the second stay bearing plate, described first suction nozzle and the second suction nozzle are all connected to suction mechanism, 13 cylinder and the tenth four-cylinder are all electrically connected to described PLC control setup.

As optimal way of the present utility model, described vacuum seal comprises extraction sector, be arranged in extraction sector in order to accept the support structure of tealeaves outer bag and the heat sealing mechanism in order to seal tealeaves outer bag, described extraction sector comprises left shell, right shell body and in order to guide the guide rod of left shell and right shell body relative movement, when left shell and right shell body cooperatively interact, chamber resettling is formed between left shell and right shell body, this chamber resettling is communicated with vacuum extractor, described support structure is arranged in this chamber resettling, also comprise the knock-out mechanism in order to tealeaves outer bag to be pushed to from described support structure described extraction sector, described knock-out mechanism is the 15 cylinder, 15 cylinder is fixedly connected with described right shell body, on the piston rod of the 15 cylinder, corresponding described support structure is provided with sweeping through the material block.

After adopting the technical solution of the utility model, the packaging of tealeaves two kinds of modes can be realized on same board, when without the need to inner bag, by switching mechanism, tealeaves is directly sent into outer bag charge mechanism, by the direct packaging tealeaves of outer bag, when in needs adopt, outer bag is packed, by the film take-up supply inner bag film of inner bag membrane supplying mechanism supply, by supporting mechanism, the oral area of film is opened, inner bag is made by inner bag bag-making organization, tealeaves is loaded inner bag by inner bag charge mechanism, and by connecting gear, the inner bag that tealeaves is housed is sent into outer bag charge mechanism, and make inner bag load in outer bag, realize the interior outer bag packaging of tealeaves, so, the utility model fully can improve the degree of utilization of equipment, function is also more diversified, simultaneously due to inner bag charge mechanism in the utility model, the reasonable setting supporting mechanism and connecting gear structure and position, make the utility model tea packaging process more smooth, the packaging efficiency of tealeaves obtains actv. and promotes.

Accompanying drawing explanation

Fig. 1 is the utility model integral structure schematic diagram (wherein part enclosure is not shown);

Fig. 2 is the exploded structural representation of feed mechanism and gauging device in the utility model;

Fig. 3 a is the structural representation of the first switching groove in the utility model;

Fig. 3 b is the structural representation of the second switching groove in the utility model;

Fig. 3 c is the structural representation of transfer hopper in the utility model;

Fig. 4 is the structural representation of another angle of the utility model;

Fig. 5 is the enlarged drawing at A place in Fig. 4;

Fig. 6 is the enlarged drawing at B place in Fig. 4;

Fig. 7 is that in the utility model, connecting gear coordinates the structural representation of outer bag charge mechanism (wherein pocket creasing mechanism and pusher not shown);

Fig. 8 is structural representation that in the utility model, connecting gear coordinates outer bag charge mechanism to watch from another angle (wherein pocket creasing mechanism and pusher not shown);

Fig. 9 be the utility model again one angle viewing structural representation;

Figure 10 is C place enlarged drawing in Fig. 9;

Figure 11 is the structural representation of vacuum seal in the utility model;

Figure 12 a is the structural representation of outer bag standing groove in the utility model;

Figure 12 b is the structural representation of film in the utility model;

In figure:

1-frame 10-hopper

21-first spiral vibrating device 211-first vibrating disk

212-first vibrating mechanism 213-first inductor

214-first induction part 22-second spiral vibrating device

221-second vibrating disk 222-second vibrating mechanism

223-second sensor 224-second detecting means

231-drive motor 232-feed belt

233-first turning cylinder 234-second turning cylinder

31-first gauging device 32-second gauging device

41-inner bag charge mechanism 411-accepts hopper

412-the 3rd cylinder 413-four-cylinder

414-second cylinder 415-support portion

42-inner bag bag-making organization 421-seals cutter head

422-cutting blade 423-first cylinder

431-film take-up 432-supports mechanism

4311-first deflector roll 4312-second deflector roll

4321-mount pad 4322-mounting hole

4323-guiding piece 43231-guide portion

43232-supporting blade 424-working plate

425-seals bar-shaped trough 426-and cuts bar-shaped trough

50-connecting gear 501-turns to hopper

502-the 5th cylinder 503-the 9th cylinder

504-pushing block 505-first entrance

506-first exports 507-the 6th cylinder

508-first toothholder 509-first rotating shaft

510-first gear 511-first steering block

512-pedestal 513-second rotating shaft

514-second steering block 515-interlock plate

516-accommodating groove 517-the 7th cylinder

518-locating plate 519-the 8th cylinder

Dull and stereotyped 521-the tenth cylinder of 520-

522-sub barrier 60-outer bag charge mechanism

601-first stringer board 602-second stringer board

The inlet point of 603-the 11 cylinder 604-outer bag charge mechanism

605-splicing plate 606-push pedal

607-the 12 cylinder 70-outer bag feed mechanism

701-first suction nozzle 702-second suction nozzle

703-the 13 cylinder 704-second toothholder

705-the 3rd rotating shaft 706-second gear

707-the tenth four-cylinder 708-first stay bearing plate

709-second stay bearing plate 710-outer bag standing groove

711-outer bag discharging opening 712-outer bag

713-film 80-vacuum seal

801-adapter plate 802-right shell body

803-left shell 804-guide rod

805-the 15 cylinder 806-sweeping through the material block

807-the 16 cylinder 91-first transfers groove

The left backplate of 911-first guide plate 912-first

913-second left backplate 914-first installation portion

92-second transfers groove 921-second guide plate

The right backplate of 922-second left backplate 923-second

93-transfer hopper 931-the 3rd guide plate

The right backplate of the left backplate 933-the 3rd of 932-the 3rd

934-the 3rd installation portion 95-support structure

416-first jacking block

Detailed description of the invention

In order to explain the technical solution of the utility model further, be described in detail below in conjunction with accompanying drawing.

Referring to figs. 1 through Figure 12 b, a kind of automatic packaging machine of tea, the hopper 10 comprising frame 1 and be arranged in frame 1, the below of hopper 10 is provided with feed mechanism, gauging device, inner bag charge mechanism 41, inner bag bag-making organization 42, inner bag membrane supplying mechanism, outer bag charge mechanism 60, outer bag feed mechanism 70, in order to the inner bag installing tealeaves is sent into the connecting gear 50 of outer bag charge mechanism 60, vacuum seal 80 and PLC control setup (not shown) from inner bag charge mechanism 41, is controlled sequential and the action of each mechanism by PLC control setup.Described inner bag membrane supplying mechanism comprises film take-up 431 and supports mechanism 432 in order to what make the opening of film 713 strut, describedly support the below that mechanism 432 is arranged on described inner bag charge mechanism 41, described inner bag bag-making organization 42 is arranged on described inner bag charge mechanism 41 and describedly supports between mechanism 432.See Figure 12 b, the Bag structure of film 713 of the present utility model in both ends open, rolls up 431 one-tenth one volumes by film take-up and leaves a free end, free end inside bag making machine structure 42 handle thin films 713 whereby.In order to guide the walking of film 713, frame 1 is provided with the first deflector roll 4311 and the second deflector roll 4312.The corresponding described inner bag bag-making organization 41 of described connecting gear 50 is arranged on described inner bag charge mechanism 41 and describedly supports between mechanism 432, the discharge end of described inner bag charge mechanism 41 be provided with strut after support portion 415 corresponding to film 713, also comprise the detent mechanism in order to the film 713 after strutting temporarily to be positioned at this support portion 415, in use, the free end of film 713 is set on this support portion 415, and by this detent mechanism, this free end is temporarily positioned on this support portion 415, the film 713 after tealeaves enters and struts.Be the first feeding style with the inlet point that tealeaves is delivered to described inner bag charge mechanism 41 from the discharging opening of described gauging device, be the second feeding style with the inlet point that tealeaves is delivered to described outer bag charge mechanism 60 from the discharging opening of described gauging device, also comprise the switching mechanism realizing the first feeding style and the switching of the second feeding style, switching mechanism is arranged in described frame 1.

With reference to Fig. 1, Fig. 2 and Fig. 9, as a kind of optimal way of the present utility model, the secondary feed mechanism that described feed mechanism comprises one-level feed mechanism and coordinates with one-level feed mechanism, described one-level feed mechanism is the belt transmission agency that the discharging opening of corresponding described hopper 10 is arranged, the driver train that belt transmission agency comprises feed belt 232 and drives feed belt 232 to move, driver train is drive motor 231, drive motor 231 is electrically connected to PLC control setup, frame 1 is provided with the first turning cylinder 233 and the second turning cylinder 234, feed belt 232 is set in outside the first turning cylinder 233 and the second turning cylinder 234, second rotating shaft axle 234 is in transmission connection with drive motor 231.Along throughput direction, there is the first feeding end and the second feeding end at feed belt 232, described secondary feed mechanism comprises the first spiral vibrating device 21 and the second spiral vibrating device 22, described gauging device comprises the first gauging device 31 and the second gauging device 32, the feeding mouth of the first spiral vibrating device 21 is corresponding with the first feeding end to be arranged, the discharging opening of the first spiral vibrating device 21 is corresponding with the feeding mouth of the first gauging device 31 to be arranged, the feeding mouth of the second spiral vibrating device 22 is corresponding with the second feeding end to be arranged, the discharging opening of the second spiral vibrating device 22 is corresponding with the feeding mouth of the second gauging device 32 to be arranged, the discharging opening of the first gauging device 31 is arranged with the discharging opening of the second gauging device 32 is all corresponding with the feeding mouth of described switching mechanism.In this scenario, first spiral vibrating device 21 comprises the first vibrating disk 211 and the first vibrating mechanism 212 in order to drive the first vibrating disk 211 to vibrate, second spiral vibrating device 22 comprises the second vibrating disk 221 and the second vibrating mechanism 222 in order to drive the second vibrating disk 221 to vibrate, also comprise the second sensor 223 that the first corresponding spiral vibrating device 21 arranges first sensor 213 and corresponding second spiral vibrating device 22 setting, first sensor 213 and the second sensor 223 are all electrically connected to described PLC control setup, first detecting means 214 corresponding with first sensor 213 is provided with at the inner bottom part of the first spiral vibrating device 21, second detecting means 224 corresponding with the second sensor 223 is provided with at the inner bottom part of the second spiral vibrating device 22.Adopt this structure; tealeaves conveying is carried out by hopper 10 and belt gear; the forward or reverse of the second turning cylinder 231 is controlled by PLC control setup; realize feed belt 232 to the first spiral vibrating device 21 or the second spiral vibrating device 22 feeding; adopt feed belt feeding can protect tealeaves preferably; traditional tea is avoided to vibrate for a long time; reduce situation broken in tealeaves course of conveying; adopt two spiral vibrating devices to carry out feeding, the production efficiency of whole tea packaging machine can be improved.

With reference to Fig. 1, Fig. 3 a, Fig. 3 b and Fig. 3 c, as a kind of optimal way of the present utility model, described switching mechanism comprises to be selected one and is arranged on the first switching groove 91 in described frame 1 and the second switching groove 92, and described gauging device is arranged on the top being positioned at the inlet point 604 of described outer bag charge mechanism of described inner bag charge mechanism 41.First switching groove 91 comprises the first guide plate 911 and is arranged on the first left backplate 912 and the first right backplate 913 of the first guide plate 911 both sides, the first left backplate 912 of guide plate 911, first and the first right backplate 913 three surround the hopper with inlet point and discharging opening, first guide plate 911 is provided with the first installation portion 914, in use, this first installation portion 914 fixes in frame 1 by bolt or screwed lock, and make the discharging opening of the corresponding gauging device of the inlet point of the first switching groove 91, the feeding mouth of the corresponding inner bag charge mechanism 50 of discharging opening of the first switching groove 91.And the structure and first of the second switching groove 92 of the present utility model is transferred the similar of groove 91, particularly, second switching groove 92 comprises the second guide plate 921 and is arranged on the second left backplate 922 and the second right backplate 923 of the second guide plate 921 both sides, second guide plate 921, second left backplate 922 and the second right backplate 923 surround the hopper with inlet point and discharging opening jointly, second guide plate 921 is provided with the second installation portion 924, in use, this second installation portion 924 fixes in frame 1 by bolt or screwed lock, and make the discharging opening of the corresponding gauging device of the inlet point of the second switching groove 92, the inlet point 604 of the corresponding outer bag charge mechanism of discharging opening of the second switching groove 92 is arranged.

Realize the transfer of tealeaves for convenience, the utility model also comprises the transfer hopper 93 being arranged on described outer bag charge mechanism 60, the inlet point and described second of transfer hopper 93 is transferred, and the discharging opening of groove 92 is corresponding to be arranged, the discharging opening of transfer hopper 93 is corresponding with the inlet point 604 of described outer bag charge mechanism to be arranged, adopt this structure can change the trend of tealeaves in the second switching groove 92, avoid the second switching groove 92 too tediously long and take larger space.Particularly, transfer hopper 93 comprises the 3rd guide plate 931, be arranged on the 3rd left backplate 932 of the 3rd guide plate 931 both sides and the 3rd right backplate the 933, three guide plate 931, the 3rd left backplate 932 and the 3rd right backplate 933 surround the hopper with inlet point and discharging opening jointly.Transfer hopper 93 is also provided with the 3rd installation portion 934, the 3rd installation portion 934 offers screw, in sacked material mechanism 60, correspondence is provided with screw hole outside, and during use, transfer hopper 93 is temporarily fixed on outer bag charge mechanism 60 by screw whereby.

With reference to Fig. 1, Fig. 4 and Fig. 5, as a kind of optimal way 432 of the present utility model, the described mechanism 432 that supports comprises the mount pad 4321 be fixed in described frame 1 and the guiding piece 4323 be arranged on mount pad 4321, mount pad 4321 is provided with mounting hole 4322, guiding piece 4323 is erected in mounting hole 4322, guide wheel 4324 is provided with at the inwall of mounting hole 4322, the gap passed for described film 713 is formed between the outer wall of guide wheel 4324 and guiding piece 4323, the lower end of guiding piece 4323 is the guide portion 43231 guiding described film 713 to strut, the upper end of guiding piece 4323 is provided with to make described film 713 form the supporting blade 43232 of opening, supporting blade 43232 is positioned at immediately below the discharging opening of described inner bag charge mechanism 41.Supporting blade 43232 is two pieces, divides the both sides being located at guiding piece 4323 upper end.Adopt this structure, the free end of film 713 is inserted in guide portion 43231 in use, and along with film 713 moves up, film 713 passes from above-mentioned gap, and fully struts formation opening at supporting blade 713 place for tealeaves feeding.And the power driving film 713 to move up will describe the second cylinder 414 arrived below being.

With reference to Fig. 1, Fig. 4 and Fig. 5, as a kind of optimal way of the present utility model, described inner bag bag-making organization 41 comprises enclosed mechanism and cutting mechanism, described mount pad 4321 is vertically installed with working plate 424, working plate 424 has sealing bar-shaped trough 425 and cutting bar-shaped trough 426, enclosed mechanism is provided with the sealing cutter head 421 corresponding with sealing bar-shaped trough 425, cutting mechanism is provided with the cutting blade 422 corresponding with described cutting bar-shaped trough 426, also comprise the first cylinder 423 in order to drive sealing cutter head 421 and cutting blade 422 to move to working plate 424, first cylinder 423 is fixed in described frame 1.Above-mentioned this enclosed mechanism and cutting mechanism are existing in existing automatic packaging machine of tea to be introduced, and is no longer described in detail here.

With reference to Fig. 4 and Fig. 6, as a kind of optimal way of the present utility model, described inner bag charge mechanism 41 comprises the undertaking hopper 411 corresponding with the discharging opening of described switching mechanism and accepts the second cylinder 414, second cylinder 414 that hopper 411 moves up and down be fixed in described frame 1 in order to drive.Described detent mechanism is the 3rd cylinder 412 and the four-cylinder 413 being fixed on the outer wall accepting hopper 414, the piston rod of the 3rd cylinder 412 is provided with the first jacking block 416 of corresponding described support portion 415 setting, the piston rod of four-cylinder 413 is provided with the second jacking block that corresponding described support portion 415 arranges and (is blocked in figure, not shown), the first jacking block 416 and the second jacking block divide the both sides being located at described support portion 415.Adopt this structure, the free end of film 713 support strut in mechanism 432 time, undertaking hopper 411 is driven to decline by the second cylinder 414, support portion 415 is made to be inserted in the opening of film 713, the effect of the 3rd cylinder 412 and four-cylinder 413, make the first jacking block 416 and the second jacking block support film 713, drive undertaking hopper 41 to move up by the second cylinder 414 afterwards, thus pull film 713 to move up.

With reference to Fig. 6, Fig. 7 and Fig. 8, as a kind of optimal way of the present utility model, described connecting gear comprise corresponding with the feeding mouth 604 of described outer bag charge mechanism turn to hopper 501, in order to drive turn to hopper 501 parallel motion the 5th cylinder 502, in order to drive turn to hopper 501 from horizontality turn to vertical state steering driving mechanism, in order to the inner bag that tealeaves is housed is carried out bag folding pocket creasing mechanism and in order to turn to the pusher of hopper 501 described in being pushed to by tea inner bag.Hopper 501 is turned to have the first entrance 505 towards described pusher and the first outlet 506 towards described outer bag charge mechanism 60,5th cylinder 502 is fixed on described outer bag charge mechanism 60, is driven turn to hopper 501 to move towards pusher by the 5th cylinder 502.Described steering driving mechanism comprises the 6th cylinder 507, the piston rod of the 6th cylinder 507 is fixedly connected with the first toothholder 508, be provided with the first rotating shaft 509 described frame 1 is added, one end that first rotating shaft 509 is provided with the first gear 510, first rotating shaft 509 coordinated with the first toothholder 508 is fixed with the first steering block 511.The piston rod of described 5th cylinder 502 is fixedly connected with pedestal 512, the second rotating shaft 513 is equipped with in pedestal 512, the described one end of hopper 501 that turns to is fixed in the second rotating shaft 513, one end that second rotating shaft 513 passes pedestal 512 is fixed with the second steering block 514, interlock plate 515 is provided with between the first steering block 511 and the second steering block 514, first steering block 511 is provided with the accommodating groove 516 extended in the horizontal direction, one end of interlock plate 515 is mounted slidably in this accommodating groove 516, the other end is fixed on the second steering block 514, the groove of this accommodating groove 516 is high suitable with the thickness of interlock plate 515, interlock plate 515 can move in accommodating groove 516, simultaneously when the first steering block 511 rotates, first steering block 511 can drive interlock plate 515 to rotate.Described pocket creasing mechanism comprises the 7th cylinder 517, 8th cylinder 519, 9th cylinder 503 and the tenth cylinder 521, the piston rod of the 7th cylinder 517 is provided with locating plate 518, on described pedestal 512, corresponding locating plate 518 is provided with the positioning groove 523 coordinated with locating plate 518, the piston rod of the 8th cylinder 519 is connected with the promotion flat board 520 that can stretch into described first entrance, the piston rod of the 9th cylinder 503 is provided with the pushing block 504 in order to the inner bag that tealeaves is housed to be pushed described first entrance 505, 7th cylinder 517, 8th cylinder 519 and the 9th cylinder 503 are all fixed in described frame 1.Tenth cylinder 521 is fixed on described pedestal 512, the piston rod of the tenth cylinder 521 is connected with sub barrier 522 moving up and down, corresponding described first entrance 505 of sub barrier 522 is arranged, drive sub barrier 522 to move up and down by the tenth cylinder 521, make sub barrier 522 part keep out at the first entrance 505 or make sub barrier 522 move apart the first entrance 505 completely.5th cylinder 502, the 6th cylinder 507, the 7th cylinder 517, the 8th cylinder 519, the 9th cylinder 503 and the tenth cylinder 521 are all electrically connected to described PLC control setup.

With reference to Fig. 7, Fig. 8, Fig. 9 and Figure 10, as optimal way of the present utility model, described outer bag charge mechanism 60 comprises the first stringer board 601 and the second stringer board 602, first stringer board 601 that are oppositely arranged and the second stringer board 602 is fixed in frame 1.Be provided with in order to receive from the described material receiving mechanism turning to the inner bag sent hopper 501 between first stringer board 601 and the second stringer board 602, the first stringer board 601 is provided with the 11 cylinder 607 that this material receiving mechanism can be driven to move up and down.Described material receiving mechanism comprises two pieces of elastic connecting flitch 605 be oppositely arranged, distance between two blocks of splicing plates 605 reduces gradually from top to bottom and lower end between two blocks of splicing plates 605 is formed in order to receive the portion that gets stuck of inner bag (to be blocked in figure, not shown), when the inner bag that tealeaves is housed drops down onto between two blocks of splicing plates 605, temporarily tea inner bag is supported by this portion of getting stuck.The utility model also comprises the push pedal 606 be arranged between two blocks of splicing plates 605, described first stringer board 601 is provided with the 12 cylinder 603 driving push pedal 606 to move up and down, by push pedal 606, the inner bag in the portion of getting stuck is pushed vacuum seal 80, the 11 cylinder the 607 and the 12 cylinder 603 is all electrically connected to described PLC control setup.

With reference to Fig. 9, Figure 10 and Figure 12 a, 12b, as optimal way of the present utility model, described outer bag feed mechanism 70 comprise stacking outer bag outer bag standing groove 710 (not shown in figure 9 and in figure 10), in order to the first suction nozzle 701 by outer bag sucking-off from outer bag standing groove 710 and the second suction nozzle 702 of coordinating with the first suction nozzle 701.Described frame 1 is provided with the 13 cylinder 703, the piston rod of the 13 cylinder 703 is provided with the second toothholder 704, the 3rd rotating shaft 705 is provided with in described frame 1, the second gear 706 coordinated with the second toothholder 704 is provided with in 3rd rotating shaft 705,3rd rotating shaft 705 is connected with the tenth four-cylinder 707, the piston rod of the tenth four-cylinder 707 is provided with the first stay bearing plate 708, and described first suction nozzle 701 is arranged on the first stay bearing plate 708.The second stay bearing plate 709 is provided with between described first stringer board 601 and the second stringer board 602, described second suction nozzle 702 is arranged on the second stay bearing plate 709, described first suction nozzle 701 and the second suction nozzle 702 are all connected to suction mechanism, and the 13 cylinder 703 and the tenth four-cylinder 707 are all electrically connected to described PLC control setup.In the utility model, with reference to Figure 12 a, 12b, it is the structure diagram of the utility model outer bag standing groove 710, this outer bag standing groove 710 to be arranged in frame 1 and to be positioned at the top of the first suction nozzle 701, the bottom of outer bag standing groove 710 has outer bag discharging opening 711, multiple tealeaves outer bag 12 is stacked in outer bag standing groove 710, by the first suction nozzle 701, the side of tealeaves outer bag 712 is held, and by the tenth four-cylinder 708, tealeaves outer bag 712 is pulled out from outer bag discharging opening 711, drive the second gear 706 to rotate by the 13 cylinder 703 and then drive the tenth four-cylinder 707 to rotate, the first stay bearing plate 708 on tenth four-cylinder 707 drives tealeaves outer bag 712 to turn to vertical direction from horizontal direction, and tealeaves outer bag 712 is opening up, and pass through the effect of the tenth four-cylinder 707, make the opposite side of tealeaves outer bag 712 near the second suction nozzle 702, tealeaves outer bag 712 is held by the second suction nozzle 702, pull tealeaves outer bag 712 that tealeaves outer bag 712 is strutted by the tenth four-cylinder 707 effect, in order to receive tea inner bag or to receive tealeaves.

With reference to Figure 11, as optimal way of the present utility model, described vacuum seal 80 comprises extraction sector, be arranged on extraction sector in order to accept the support structure 95 of tealeaves outer bag and the heat sealing mechanism (not shown) in order to seal tealeaves outer bag.Described extraction sector comprises left shell 803, right shell body 802 and in order to guide the guide rod 804 of left shell 803 and right shell body 802 relative movement, when left shell 803 cooperatively interacts with right shell body 802, form chamber resettling between left shell 803 and right shell body 802, this chamber resettling is communicated with vacuum extractor.In an embodiment, right shell body 802 is fixedly connected with guide rod 804, and left shell 803 is slidably arranged on guide rod 804, and is moved on guide rod 804 by the action of the 16 cylinder 87.Described support structure 95 is arranged in this chamber resettling, the utility model also comprises the knock-out mechanism in order to tealeaves outer bag 712 to be pushed to from described support structure 95 described extraction sector, described knock-out mechanism is the 15 cylinder 805,15 cylinder 805 is fixedly connected with described right shell body 802, and on the piston rod of the 15 cylinder 805, corresponding described support structure 95 is provided with sweeping through the material block 806.Vacuum seal 80 is in the existing introduction of existing tea packaging mechanism, in traditional vacuum seal, after tea packaging is complete, tealeaves outer bag 712 falls under gravity automatically, the special character of vacuum seal of the present utility model is to be got from extraction sector by packaged tealeaves with knock-out mechanism, improve discharging speed, the production efficiency of whole tea packaging machine is improved.

To make the tealeaves bag with interior outer bag, specific works process of the present utility model is as follows: be placed in film take-up by film 713, pull film 713, by the opening sleeve of the free end of film 713 being through in the guide portion 43231 of guiding piece 4323 after the guiding of the first deflector roll 4311 and the second deflector roll 4312, by the supporting role of supporting blade 43232, the free end of film 713 is fully opened; Second cylinder 414 drives undertaking hopper 41 to move down, the support portion 415 of accepting hopper 41 is stretched in the opening of film 713,3rd cylinder 412 and four-cylinder 413 work and drive the first jacking block 416 and the second jacking block to support on support portion 415 by the corresponding site of film 713 respectively, drive undertaking hopper 41 to move up by the effect of the second cylinder 414, accept when hopper 41 moves up and pull film 713 to move up.When undertaking hopper 41 moves to vertex, inner bag bag-making organization 42 action, seal and cut off to the corresponding of film 713 inner bag forming upper end open by enclosed mechanism and cutting mechanism, this inner bag is now temporarily positioned on support portion 415;

First switching groove 91 is arranged on position corresponding in frame 1, tealeaves is poured in hopper 10, start drive motor 231, feed belt 232 starts to carry tealeaves to the first spiral vibrating device 21 or the second spiral vibrating device 22, tealeaves is delivered to the first gauging device 31 or the second gauging device 32 by the first spiral vibrating device 21 or the second spiral vibrating device 22, when the tealeaves weight in the first gauging device 31 or the second gauging device 32 reaches pre-timing, tealeaves is discharged in the first splicing groove 91 by the first gauging device 31 and the second gauging device 32, tealeaves enters inner bag after falling into undertaking hopper 41 by the first switching groove 91.Inner bag pocket creasing mechanism is started working, 5th cylinder 502 action, band moving base 512 moves integrally, hopper 501 is turned to move to accepting corresponding position below hopper 41, tenth cylinder 521 action, sub barrier 522 is driven to move up, sub barrier 522 part covers the first entrance 505 turning to hopper 501, 7th cylinder 517 action, locating plate 518 is driven to move, locating plate 518 pushes up the corresponding site (specifically the top of tea inner bag) of inner bag, and drive the corresponding site of inner bag to move to support to in positioning groove 523, 8th cylinder 519 drives locating plate 518 to roll in the first entrance 505 by the corresponding site (specifically the middle part of tea inner bag) of inner bag, the bottom that the inner bag of tealeaves is now housed is resisted against sub barrier 522, tenth cylinder 521 action afterwards, sub barrier 522 is driven to move down, then the 9th cylinder 503 action, driving pushing block 504 to be pushed by tea inner bag turns in hopper 501,

5th cylinder 502 action, band moving base 512 return, 6th cylinder 507 action, by the effect of the first toothholder 508, first rotating shaft 509, first gear 510, first steering block 511, interlock plate 515, second steering block 514 and the second rotating shaft 513, drive and turn to hopper 501 to turn to vertical state from horizontality, meanwhile, the 12 cylinder 607 drives material receiving mechanism to move down, and after turning to hopper 501 to turn to, what the inner bag that tealeaves is housed dropped down onto material receiving mechanism from the first outlet 506 gets stuck portion, meanwhile, outer bag feed mechanism 70 action, by the 13 cylinder 703, second toothholder 704, 3rd rotating shaft 705, second gear 706, tenth four-cylinder 707, the effect of the first stay bearing plate 708 and the first suction nozzle 701, from drawing a tealeaves outer bag 712 and send into outer bag charge mechanism 60 from outer bag standing groove 710, first suction nozzle 701 holds the one side of tealeaves, by the effect of the tenth four-cylinder 707, make tealeaves outer bag 712 near the second suction nozzle 702, the another side of tealeaves is held by the second suction nozzle 702, by the movement of the tenth four-cylinder 707, tealeaves outer bag is made fully to open to accept the tea inner bag turning to hopper 501 to send here, , 11 cylinder 603 action, push pedal 606 is driven to move downward, push pedal 606 drives tea inner bag to enter in tealeaves outer bag 713, first suction nozzle 701 and the second suction nozzle 702 remove the effect to tealeaves outer bag afterwards, tealeaves outer bag enters the support structure 95 of vacuum seal 80, undertaken vacuumizing and heat-seal process by vacuum seal 80, drive sweeping through the material block 806 to move by the 15 cylinder 805, thus tealeaves bag is got from support structure 95.

When needing to make the tealeaves bag only containing outer bag, first switching groove 91 is disassembled, load the second switching groove 92 and transfer hopper 93, now tealeaves out directly enters in the tealeaves outer bag strutted outer bag charge mechanism 60 by the second switching groove 92 and transfer hopper 93 from the first gauging device 31 or the second gauging device 32 afterwards, send into vacuum seal 80 afterwards and carry out respective handling, detailed process no longer describes in detail here.

Product form of the present utility model is not limited to this case diagram and embodiment, and anyone carries out suitable change or the modification of similar thinking to it, all should be considered as not departing from patent category of the present utility model.

Claims (10)

1. an automatic packaging machine of tea, comprise frame and be arranged on the hopper in frame, the below of hopper is provided with feed mechanism, gauging device, inner bag charge mechanism, inner bag bag-making organization, inner bag membrane supplying mechanism, outer bag charge mechanism, outer bag feed mechanism, in order to will the connecting gear of inner bag from inner bag charge mechanism feeding outer bag charge mechanism of tealeaves be installed, vacuum seal and PLC control setup, described inner bag membrane supplying mechanism comprises film take-up and supports mechanism in order to what make the opening of film strut, it is characterized in that: described in support the below of organization establishes at described inner bag charge mechanism, described inner bag bag-making organization is arranged on described inner bag charge mechanism and describedly supports between mechanism, the corresponding described inner bag bag-making organization of described connecting gear is arranged on described inner bag charge mechanism and describedly supports between mechanism, the discharge end of described inner bag charge mechanism be provided with strut after support portion corresponding to film, the detent mechanism of this support portion is positioned at when also comprising in order to be accounted for by the film after strutting, be the first feeding style with the inlet point that tealeaves is delivered to described inner bag charge mechanism from the discharging opening of described gauging device, be the second feeding style with the inlet point that tealeaves is delivered to described outer bag charge mechanism from the discharging opening of described gauging device, also comprise the switching mechanism realizing the first feeding style and the switching of the second feeding style, switching mechanism is arranged in described frame.

2. automatic packaging machine of tea as claimed in claim 1, it is characterized in that: the secondary feed mechanism that described feed mechanism comprises one-level feed mechanism and coordinates with one-level feed mechanism, described one-level feed mechanism is the belt transmission agency that the discharging opening of corresponding described hopper is arranged, belt transmission agency comprises feed belt and drives the driver train of feed belt motion, feed belt has the first feeding end and the second feeding end along throughput direction, described secondary feed mechanism comprises the first spiral vibrating device and the second spiral vibrating device, described gauging device comprises the first gauging device and the second gauging device, the feeding mouth of the first spiral vibrating device is corresponding with the first feeding end to be arranged, the discharging opening of the first spiral vibrating device is corresponding with the feeding mouth of the first gauging device to be arranged, the feeding mouth of the second spiral vibrating device is corresponding with the second feeding end to be arranged, the discharging opening of the second spiral vibrating device is corresponding with the feeding mouth of the second gauging device to be arranged, the discharging opening of the first gauging device and the discharging opening of the second gauging device are all corresponding with the feeding mouth of described switching mechanism to be arranged, also comprise the second sensor that the first corresponding spiral vibrating device arranges first sensor and corresponding second spiral vibrating device setting, first sensor and the second sensor are all electrically connected to described PLC control setup, first detecting means corresponding with first sensor is provided with at the inner bottom part of the first spiral vibrating device, second detecting means corresponding with the second sensor is provided with at the inner bottom part of the second spiral vibrating device.

3. automatic packaging machine of tea manner of packing switching mechanism as claimed in claim 1, it is characterized in that: described switching mechanism comprise select one be arranged in described frame first switching groove and second switching groove, described gauging device is arranged on the top being positioned at the inlet point of described outer bag charge mechanism of described inner bag charge mechanism, first switching groove has the inlet point corresponding with the discharging opening of described gauging device and the discharging opening corresponding with the feeding mouth of described inner bag charge mechanism, second switching groove has the inlet point corresponding with the discharging opening of described gauging device and the discharging opening corresponding with the inlet point of described outer bag charge mechanism, also comprise the transfer hopper being arranged on described outer bag charge mechanism, the inlet point and described second of transfer hopper is transferred, and the discharging opening of groove is corresponding to be arranged, the discharging opening of transfer hopper is corresponding with the inlet point of described outer bag charge mechanism to be arranged.

4. automatic packaging machine of tea manner of packing switching mechanism as claimed in claim 1, it is characterized in that: described in support mechanism and comprise the guiding piece being fixed on mount pad in described frame and being arranged on mount pad, mount pad is provided with mounting hole, guiding piece is erected in mounting hole, guide wheel is provided with at the inwall of mounting hole, the gap passed for described film is formed between guide wheel and the outer wall of guiding piece, the lower end of guiding piece is the guide portion guiding described film to strut, the upper end of guiding piece is provided with to make described film form the supporting blade of opening, supporting blade is positioned at immediately below the discharging opening of described inner bag charge mechanism.

5. automatic packaging machine of tea manner of packing switching mechanism as claimed in claim 4, it is characterized in that: described inner bag bag-making organization comprises enclosed mechanism and cutting mechanism, described mount pad is vertically installed with working plate, working plate has sealing bar-shaped trough and cutting bar-shaped trough, enclosed mechanism is provided with the sealing cutter head corresponding with sealing bar-shaped trough, cutting mechanism is provided with the cutting blade corresponding with described cutting bar-shaped trough, also comprise the first cylinder in order to drive sealing cutter head and cutting blade to move to working plate, the first cylinder is fixed in described frame.

6. automatic packaging machine of tea manner of packing switching mechanism as claimed in claim 1, it is characterized in that: described inner bag charge mechanism comprises the undertaking hopper corresponding with the discharging opening of described switching mechanism and in order to drive the second cylinder accepted hopper and move up and down, second cylinder is fixed in described frame, described detent mechanism is the 3rd cylinder and the four-cylinder being fixed on the outer wall accepting hopper, the piston rod of the 3rd cylinder is provided with the first jacking block of corresponding described support portion setting, the piston rod of four-cylinder is provided with the second jacking block of corresponding described support portion setting, first jacking block and the second jacking block divide the both sides being located at described support portion.

7. automatic packaging machine of tea manner of packing switching mechanism as claimed in claim 1, it is characterized in that: described connecting gear comprises and corresponding with the feeding mouth of described outer bag charge mechanism turns to hopper, in order to drive the 5th cylinder turning to hopper parallel motion, hopper is turned to turn to the steering driving mechanism of vertical state from horizontality in order to drive, in order to the inner bag that tealeaves is housed is carried out bag folding pocket creasing mechanism and in order to turn to the pusher of hopper described in being pushed to by tea inner bag, hopper is turned to have towards the first entrance of described pusher and the first outlet towards described outer bag charge mechanism, 5th cylinder is fixed on described outer bag charge mechanism, described steering driving mechanism comprises the 6th cylinder, the piston rod of the 6th cylinder is fixedly connected with the first toothholder, be provided with the first rotating shaft described frame is added, first rotating shaft is provided with the first gear coordinated with the first toothholder, one end of first rotating shaft is fixed with the first steering block, the piston rod of described 5th cylinder is fixedly connected with pedestal, the second rotating shaft is equipped with in pedestal, the described one end of hopper that turns to is fixed in the second rotating shaft, one end that second rotating shaft passes pedestal is fixed with the second steering block, interlock plate is provided with between the first steering block and the second steering block, first steering block is provided with the accommodating groove extended in the horizontal direction, one end of interlock plate is mounted slidably in this accommodating groove, the other end is fixed on the second steering block, described pocket creasing mechanism comprises the 7th cylinder, 8th cylinder, 9th cylinder and the tenth cylinder, the piston rod of the 7th cylinder is provided with locating plate, on described pedestal, corresponding locating plate is provided with the positioning groove coordinated with locating plate, the piston rod of the 8th cylinder is connected with the promotion can stretching into described first entrance dull and stereotyped, the piston rod of the 9th cylinder is provided with the pushing block in order to the inner bag that tealeaves is housed to be pushed described first entrance, 7th cylinder, 8th cylinder and the 9th cylinder are all fixed in described frame, tenth cylinder is fixed on described pedestal, the piston rod of the tenth cylinder is connected with sub barrier moving up and down, corresponding described first entrance of sub barrier is arranged, 5th cylinder, 6th cylinder, 7th cylinder, 8th cylinder, 9th cylinder and the tenth cylinder are all electrically connected to described PLC control setup.

8. automatic packaging machine of tea manner of packing switching mechanism as claimed in claim 7, it is characterized in that: described outer bag charge mechanism comprises the first stringer board and the second stringer board that are oppositely arranged, be provided with in order to receive from the described material receiving mechanism turning to the inner bag sent hopper between first stringer board and the second stringer board, first stringer board is provided with the 11 cylinder that this material receiving mechanism can be driven to move up and down, described material receiving mechanism comprises two pieces of elastic connecting flitch be oppositely arranged, distance between two blocks of splicing plates reduces from top to bottom gradually and lower end between two blocks of splicing plates forms the portion that gets stuck in order to receive inner bag, also comprise the push pedal be arranged between two blocks of splicing plates, described first stringer board is provided with the 12 cylinder driving push pedal to move up and down, 11 cylinder and the 12 cylinder are all electrically connected to described PLC control setup.

9. automatic packaging machine of tea manner of packing switching mechanism as claimed in claim 8, it is characterized in that: described outer bag feed mechanism comprises stacking the outer bag standing groove of outer bag, in order to the first suction nozzle by outer bag sucking-off from outer bag standing groove and the second suction nozzle of coordinating with the first suction nozzle, described frame is provided with the 13 cylinder, the piston rod of the 13 cylinder is provided with the second toothholder, the 3rd rotating shaft is provided with in described frame, the second gear coordinated with the second toothholder is provided with in 3rd rotating shaft, 3rd rotating shaft is connected with the tenth four-cylinder, the piston rod of the tenth four-cylinder is provided with the first stay bearing plate, described first suction nozzle is arranged on the first stay bearing plate, the second stay bearing plate is provided with between described first stringer board and the second stringer board, described second suction nozzle is arranged on the second stay bearing plate, described first suction nozzle and the second suction nozzle are all connected to suction mechanism, 13 cylinder and the tenth four-cylinder are all electrically connected to described PLC control setup.

10. automatic packaging machine of tea manner of packing switching mechanism as claimed in claim 1, it is characterized in that: described vacuum seal comprises extraction sector, be arranged in extraction sector in order to accept the support structure of tealeaves outer bag and the heat sealing mechanism in order to seal tealeaves outer bag, described extraction sector comprises left shell, right shell body and in order to guide the guide rod of left shell and right shell body relative movement, when left shell and right shell body cooperatively interact, chamber resettling is formed between left shell and right shell body, this chamber resettling is communicated with vacuum extractor, described support structure is arranged in this chamber resettling, also comprise the knock-out mechanism in order to tealeaves outer bag to be pushed to from described support structure described extraction sector, described knock-out mechanism is the 15 cylinder, 15 cylinder is fixedly connected with described right shell body, on the piston rod of the 15 cylinder, corresponding described support structure is provided with sweeping through the material block.