CN203255382U - Fully-automatic filling vacuum package machine - Google Patents

Fully-automatic filling vacuum package machine Download PDF

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Publication number
CN203255382U
CN203255382U CN 201320275199 CN201320275199U CN203255382U CN 203255382 U CN203255382 U CN 203255382U CN 201320275199 CN201320275199 CN 201320275199 CN 201320275199 U CN201320275199 U CN 201320275199U CN 203255382 U CN203255382 U CN 203255382U
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rotating disk
automatic
full
transmission
fully
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CN 201320275199
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Chinese (zh)
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郑友林
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Chengdu Haike Mechanical Equipment Manufacturing Co Ltd
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Chengdu Haike Mechanical Equipment Manufacturing Co Ltd
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Abstract

The utility model discloses a fully-automatic filling vacuum package machine which comprises a fully-automatic filling machine, a fully-automatic bag-making machine and a fully-automatic continuous vacuum machine, wherein the discharge end of the fully-automatic filling machine corresponds to the bag making segment of the fully-automatic bag-making machine, and the output end of the fully-automatic bag-making machine is correspondingly connected with the conveying plate of the fully-automatic continuous vacuum machine through a fully-automatic distributing mechanism. The fully-automatic filling vacuum package machine realizes the continuous production of filling, putting-in bags and vacuum package steps of materials, changes the current manual operation or the production mode of automatic equipment only with independent steps, forms a fully-mechanical automatic production line mode, and realizes the process requirement of continuous production of products. The human, physical and financial resources are saved, and the working efficiency is high.

Description

A kind of full automaticity can vacuum packing machine
Technical field
The utility model belongs to the food processing equipment field, particularly a kind of full automaticity can vacuum packing machine.
Background technology
In the fields such as food processing, the can of material and packing are very common steps, and can is manually carried out in the many employings of traditional mode, then hand-filling, and its labour intensity is large, and production efficiency is low, and sanitary conditions can't be guaranteed.Although the automated production equipment for can or packing is arranged at present, but single equipment can not be realized the technological requirement that the product continous way is produced, it still needs manually to carry out complementary operation, therefore, although the existing mode of production increases to a certain extent before, but, still have in process of production corresponding problem.
The utility model content
Goal of the invention of the present utility model is, for the problem of above-mentioned existence, provides a kind of technological requirement that realizes that the product continous way is produced, and greatly saves human and material resources, financial resources, and the full automaticity can vacuum packing machine of high efficiency.
The technical solution of the utility model is achieved in that a kind of full automaticity can vacuum packing machine, comprise automatic filling machine, full automatic bag-making machine and Full-automatic continuous vacuum machine, the discharge end of described automatic filling machine is corresponding with the bag section of full automatic bag-making machine, it is characterized in that: the mouth of described full automatic bag-making machine is by the delivery board corresponding connection of full automaticity material-feeding mechanism with the Full-automatic continuous vacuum machine, described full automaticity material-feeding mechanism comprises frame and is arranged on transmitting device on the frame, feed end at described transmitting device is provided with for the manipulator of controlling the transmitting device charging, be provided with the cloth passage between the delivery board of described transmitting device and corresponding Full-automatic continuous vacuum machine, described cloth passage bottom is to away from heat-sealing bar lopsidedness on the delivery board.
Full automaticity can vacuum packing machine described in the utility model, its described transmitting device comprises two mutually correspondences, the belt conveyor that synchronous backward rotates, described belt conveyor is socketed in respectively on the corresponding drive wheel and flower wheel, described drive wheel is connected with synchronous drive mechanism, described flower wheel is connected with manipulator, two mutual counterparts of belt conveyor fit tightly and the synchronous backward rotation in transmission course, two belt conveyor are separated from each other in the blanking process, described cloth passage upper end inlet point is corresponding with two separated gap locations of belt conveyor, and its lower end discharging opening is corresponding with the delivery board of Full-automatic continuous vacuum machine.
Full automaticity can vacuum packing machine described in the utility model, its described cloth passage is by forming along the some separate passages of transmitting device transmission direction well-distributed, described cloth passage is connected with frame by adjustable support, be respectively arranged with some pinch wheels in the both sides of described two mutual counterparts of belt conveyor, described pinch wheels connects with corresponding mounting bar respectively, wherein one group of mounting bar is captiveed joint with frame by bearing, and another group mounting bar is connected with driving cylinder on being fixedly connected on frame by bearing.
Full automaticity can vacuum packing machine described in the utility model, it is provided with to bilateral symmetry position-limited lever between described transmitting device and cloth passage upper end inlet point, form the limit channels that material falls between the described position-limited lever, described position-limited lever is connected with frame by corresponding adjustable support.
Full automaticity can vacuum packing machine described in the utility model, its described transmitting device is connected with reciprocating type driving cylinder on being fixedly installed on frame by mobile adapter plate, be provided with slide block at described mobile adapter plate two ends, be provided with the slide rail corresponding with described slide block in described frame, described cloth passage and position-limited lever are connected with mobile adapter plate by corresponding adjustable support respectively.
Full automaticity can vacuum packing machine described in the utility model, its described automatic filling machine comprises storage bin hopper, be arranged on the discharging mechanism in the storage bin hopper, be arranged on the rotating disk of storage bin hopper below and the actuating device that is used for driving turntable rotation, be provided with some through holes at described rotating disk, the discharging opening of described storage bin hopper is corresponding with through hole on the rotating disk, below described rotating disk, be provided with reaction plate, be provided with out material through hole at described reaction plate, above described rotating disk, the material through hole corresponding position that goes out of reaction plate is provided with cutting agency, above described rotating disk, be provided with shifting board, described actuating device comprises the drive motor that is arranged on the shifting board and the power transmission assembly that is connected with the driving of drive motor clutch end, be provided with transmission shaft at described power transmission assembly, described transmission shaft lower end is passed shifting board and disk axes successively, be connected with rotating disk by jam nut, described shifting board is connected with synchronously upper lower transmission mechanism.
Full automaticity can vacuum packing machine described in the utility model, its described power transmission assembly comprises the first transmission gear intermeshing and that diameter is identical, the second transmission gear and the 3rd transmission gear, described the first transmission gear drives with the clutch end of drive motor and is connected, described the 3rd transmission gear is connected with transmission shaft, described the second transmission gear is connected with transition axis, described transition axis is arranged on the shifting board by bearing, the power take-off shaft of described drive motor passes the first transmission gear, is provided with the detection head corresponding with photoelectric detection system in the power take-off shaft end of drive motor.
Full automaticity can vacuum packing machine described in the utility model, its described synchronously upper lower transmission mechanism comprises with the reducing motor driving and being connected and the turning cylinder of horizontal arrangement and the two rhizoid bars of vertically arranging, described turning cylinder drives with screw mandrel by Poewr transmission mechanism and is connected, correspondence is provided with the feed screw nut respectively on described screw mandrel, described feed screw nut is captiveed joint with shifting board, described Poewr transmission mechanism is comprised of two intermeshing and vertically arranged conical gears, wherein the conical gear of horizontal arrangement is socketed on the turning cylinder, and the conical gear of vertically arranging is socketed in corresponding screw mandrel lower end.
Full automaticity can vacuum packing machine described in the utility model, it is on the described rotating disk, be provided with the adjustable dosage cup between rotating disk and the reaction plate, between described rotating disk and reaction plate, the adjustable dosage cup is socketed with spring, adjusts spacing between rotating disk and the reaction plate by synchronously upper lower transmission mechanism.
Full automaticity can vacuum packing machine described in the utility model, its described adjustable dosage cup is socketed to form mutually by upper and lower two parts, the upper part of described adjustable dosage cup is connected on the rotating disk, the lower part of adjustable dosage cup is placed on the reaction plate, and described spring upper and lower side is resisted against respectively the upper and lower two-part boss place of adjustable dosage cup.
The utility model realized material can, enter the bag, vacuum-packed step continous way production, changed existing manual operation or the production model of the automation equipment of independent process has only been arranged, form the manufacturing line pattern of complete mechanical automation, realized the technological requirement that the product continous way is produced, greatly save human and material resources, financial resources, and high efficiency.
Description of drawings
Fig. 1 is structural representation of the present utility model.
Fig. 2 and Fig. 3 are the structural representations of full automaticity material-feeding mechanism in the utility model.
Fig. 4 is the lateral plan of Fig. 2.
Fig. 5 is A section enlarged drawing among Fig. 3.
Fig. 6 is B section enlarged drawing among Fig. 3.
Fig. 7 is C section enlarged drawing among Fig. 3.
Fig. 8 is the structural representation that the full automaticity material-feeding mechanism cooperates with the Full-automatic continuous vacuum machine in the utility model.
Fig. 9 is the structural representation of automatic filling machine in the utility model.
Figure 10 is rotating element and the synchronous upward unitized construction scheme drawing of lower transmission mechanism in the automatic filling machine.
Figure 11 is the structural representation of rotating element among Figure 10.
Figure 12 is the birds-eye view of Figure 11.
Figure 13 is A-A section-drawing among Figure 12.
Figure 14 is the structural representation of synchronously upper lower transmission mechanism among Figure 10.
Figure 15 is the lateral plan of Figure 14.
Figure 16 is B-B section-drawing among Figure 15.
Figure 17 is the structural representation of adjustable dosage cup part in the automatic filling machine.
Figure 18 and Figure 19 are the structural representations of bucket elevator in the utility model.
Figure 20 is D section enlarged drawing among Figure 19.
Figure 21 is the structural representation of hopper in the bucket elevator.
Figure 22 is the structural representation of tensioning regulating mechanism in the bucket elevator.
Mark among the figure: 1 is automatic filling machine, and 2 is full automatic bag-making machine, and 3 is the Full-automatic continuous vacuum machine, 4 is the full automaticity material-feeding mechanism, and 5 is delivery board, and 6 is transmitting device, 7 is manipulator, and 8 is the cloth passage, and 9 are the heat-sealing bar, 10 is belt conveyor, and 11 is drive wheel, and 12 is flower wheel, 13 is synchronous drive mechanism, and 14 is bearing, and 15 is frame, 16 for driving cylinder, and 17 is pinch wheels, and 18 is mounting bar, 19 is position-limited lever, and 20 is adjustable support, and 21 is mobile adapter plate, 22 is reciprocating type driving cylinder, and 23 is storage bin hopper, and 24 is rotating disk, 25 is reaction plate, and 26 is shifting board, and 27 is drive motor, 28 is transmission shaft, and 29 is jam nut, and 30 is the adjustable dosage cup, 30a is the upper part of adjustable dosage cup, and 30b is the lower part of adjustable dosage cup, and 31a is the first transmission gear, 31b is the second transmission gear, 31c is the 3rd transmission gear, and 32 is transition axis, and 33 is detection head, 34 is reducing motor, 35 is turning cylinder, and 26 is screw mandrel, and 37 is the feed screw nut, 38 is conical gear, 39 is spring, and 40 is hopper, and 41 for transmitting support, 42 is driving chain wheel, 43 is the gig transmission shaft, and 44 is tension wheel, and 45 is pivot shaft, 46 is transmission chain, 47 is guide rail, and 48 is roller, and 49 is lower installation otic placode, 50 is adapter shaft A, 51 is contiguous block, and 52 is upper installation otic placode, and 53 is adapter shaft B, 54 is rotating nut, 55 is feeler lever, and 56 is the parallel motion groove, and 57 is postive stop baffle, 58 is the gig drive motor, 59 is driving gear, and 60 is driven gear, and 61 is fixed block, 62 is set screw, 63 is crossbeam, and 64 is support, and 65 is brace panel, 66 for supporting quarter bend, and 67 is bucket elevator.
The specific embodiment
Below in conjunction with accompanying drawing, the utility model is described in detail.
In order to make the purpose of this utility model, technical scheme and advantage clearer, below in conjunction with drawings and Examples, the utility model is further elaborated.Should be appreciated that specific embodiment described herein only in order to explaining the utility model, and be not used in restriction the utility model.
As shown in Figure 1, a kind of full automaticity can vacuum packing machine, comprise automatic filling machine 1, full automatic bag-making machine 2 and Full-automatic continuous vacuum machine 3, the discharge end of described automatic filling machine 1 is corresponding with the bag section of full automatic bag-making machine 2, and the mouth of described full automatic bag-making machine 2 is by the delivery board 5 corresponding connections of full automaticity material-feeding mechanism 4 with Full-automatic continuous vacuum machine 3.
Shown in Fig. 2-8, described full automaticity material-feeding mechanism 4 comprises frame 15 and is arranged on transmitting device 6 on the frame 15, described transmitting device 6 is connected with reciprocating type driving cylinder 22 on being fixedly installed on frame 15 by mobile adapter plate 21, be provided with slide block at described mobile adapter plate 21 two ends, be provided with the slide rail corresponding with described slide block in described frame 15, feed end at described transmitting device 6 is provided with for the manipulator 7 of controlling transmitting device 6 chargings, between the delivery board 5 of described transmitting device 6 and corresponding Full-automatic continuous vacuum machine 3, be provided with cloth passage 8, described cloth passage 8 bottoms are to away from heat-sealing bar 9 lopsidedness on the delivery board 5, so that after material drops on the delivery board, guarantee that its open end drops on the heat-sealing bar corresponding position on the delivery board, so that follow-up vacuum packaging.Described cloth passage 8 is by forming along the some separate passages of transmitting device 6 transmission direction well-distributeds, described cloth passage 8 is connected with mobile adapter plate 21 by adjustable support 20, and the size of described single autonomous channel and material size to be packaged are complementary.Wherein, the structure of described manipulator is the disclosed content of Chinese utility model patent of ZL201120465956.0.
Wherein, described transmitting device 6 comprises two mutually correspondences, the belt conveyor 10 that synchronous backward rotates, described belt conveyor 10 is socketed in respectively on the corresponding drive wheel 11 and flower wheel 12, described drive wheel 11 is connected with synchronous drive mechanism 13, described flower wheel 12 is connected with manipulator 7, both sides at described two belt conveyor, 10 mutual counterparts are respectively arranged with some pinch wheels 17, described pinch wheels 17 connects with corresponding mounting bar 18 respectively, wherein one group of mounting bar 18 is captiveed joint with mobile adapter plate 21 by bearing 14, another group mounting bar 18 is connected with driving cylinder 16 on being fixedly connected on mobile adapter plate 21 by bearing 14, two belt conveyor 10 mutual counterpart under the effect of pinch wheels fits tightly and the synchronous backward rotation in transmission course, in the blanking process, pinch wheels is pushed open under the effect that drives cylinder 16, two belt conveyor 10 are separated from each other, namely no longer be in clamped condition, described cloth passage 8 upper end inlet points are corresponding with two belt conveyor, 10 separated gap locations, and its lower end discharging opening is corresponding with the delivery board 5 of Full-automatic continuous vacuum machine 3.Wherein, the structure of described synchronous drive mechanism is the disclosed content of Chinese utility model patent of ZL201120465976.8.
Between described transmitting device 6 and cloth passage 8 upper end inlet points, be provided with to bilateral symmetry position-limited lever 19, form the limit channels that material falls between the described position-limited lever 19, make material in transmission course, not occur rocking, guarantee the accurate blanking of material, described position-limited lever 19 is connected with mobile adapter plate 21 by corresponding adjustable support 20.
Shown in Fig. 9-13, described automatic filling machine 1 comprises storage bin hopper 23, be arranged on the discharging mechanism in the storage bin hopper 23, be arranged on the rotating disk 24 of storage bin hopper 23 belows and the actuating device that is used for driving rotating disk 24 rotations, be provided with some through holes at described rotating disk 24, the discharging opening of described storage bin hopper 23 is corresponding with through hole on the rotating disk 24, below described rotating disk 24, be provided with reaction plate 25, be provided with out material through hole at described reaction plate 25, above described rotating disk 24, the material through hole corresponding position that goes out of reaction plate 25 is provided with cutting agency, above described rotating disk 24, be provided with shifting board 26, described actuating device comprises the drive motor 27 that is arranged on the shifting board 26 and the power transmission assembly that is connected with the driving of drive motor 27 clutch ends, be provided with transmission shaft 28 at described power transmission assembly, described power transmission assembly comprises the first transmission gear 31a intermeshing and that diameter is identical, the second transmission gear 31b and the 3rd transmission gear 31c, described the first transmission gear 31a drives with the clutch end of drive motor 27 and is connected, the power take-off shaft of described drive motor 27 passes the first transmission gear 31a, power take-off shaft end at drive motor 27 is provided with the detection head corresponding with photoelectric detection system 33, described the 3rd transmission gear 31c is connected with transmission shaft 28, described the second transmission gear 31b is connected with transition axis 32, described transition axis 32 is arranged on the shifting board 26 by bearing, described transmission shaft 28 lower ends are passed shifting board 26 and rotating disk 24 axle center successively, be connected with rotating disk 24 by jam nut 29, described shifting board 26 is connected with synchronously upper lower transmission mechanism.
Such as Figure 14, shown in 15 and 16, described synchronously upper lower transmission mechanism comprises with reducing motor 34 drivings and being connected and the turning cylinder 35 of horizontal arrangement and the two rhizoid bars 36 of vertically arranging, described turning cylinder 35 drives with screw mandrel 36 by Poewr transmission mechanism and is connected, correspondence is provided with feed screw nut 37 respectively on described screw mandrel 36, described feed screw nut 37 is captiveed joint with shifting board 26, described Poewr transmission mechanism is comprised of two intermeshing and vertically arranged conical gears 38, wherein the conical gear 38 of horizontal arrangement is socketed on the turning cylinder 35, and the conical gear 38 of vertically arranging is socketed in corresponding screw mandrel 36 lower ends.
As shown in figure 17, on described rotating disk 24, be provided with adjustable dosage cup 30 between rotating disk 24 and the reaction plate 25, between described rotating disk 24 and reaction plate 25, be socketed with spring 39 on the adjustable dosage cup 30, by the spacing between synchronously upper lower transmission mechanism adjustment rotating disk 24 and the reaction plate 25, wherein, described adjustable dosage cup 30 is socketed to form mutually by upper part 30a and lower part 30b, the upper part 30a of described adjustable dosage cup 30 is connected on the rotating disk 24, the lower part 30b of adjustable dosage cup 30 is placed on the reaction plate 25, and described spring 39 upper and lower sides are resisted against respectively the upper of adjustable dosage cup 30, lower two-part boss place.
Shown in Figure 18-22, described automatic filling machine 1 carries out feeding by bucket elevator 67, described bucket elevator 67 comprises hopper 40, described hopper 40 bilateral symmetry be provided with and transmit support 41, described transmission support 41 both sides of the edge form flange to hopper one lateral buckling, described two transmission support 41 upper ends connect by crossbeam 63, be respectively arranged with driving chain wheel 42 in described transmission support 41 lower ends, described driving chain wheel 42 connects by gig transmission shaft 43, described transmission shaft 43 two ends are connected to by bearing and transmit on the support 41, described gig transmission shaft 43 drives rotation by driver train, be respectively arranged with tension wheel 44 in described transmission support 41 upper ends, described tension wheel 44 is connected with pivot shaft 45 by bearing, described pivot shaft 45 two ends are connected to by the tensioning regulating mechanism and transmit on the support 41, solderless wrapped connection has transmission chain 46 on described driving chain wheel 42 and the tension wheel 44, on described transmission support 41, be provided with guide rail 47 along transmitting support 41, extend to discharge end is crooked described guide rail 47 upper ends, described guide rail 47 upper ends connect with corresponding transmission support 41 by brace panel 65 to the crooked extension of discharge end, be provided with support quarter bend 66 in described two guide rail 47 upper ends to downside between the discharge end bending extension, described transmission support 41 and guide rail 47 support by support 64, and described transmission support 41 is perpendicular to the horizontal surface layout or horizontal by certain angle.
Wherein, be respectively arranged with lower installation otic placode 49 in both sides, described hopper 40 bottom, be provided with adapter shaft A50 described two lower installations between the otic placode 49, described adapter shaft A50 passes respectively at two ends corresponding lower installation otic placode 49 and is connected on the lower installation otic placode 49 by bearing, be fixedly connected with contiguous block 51 at institute adapter shaft A50 two ends, described contiguous block 51 is captiveed joint with transmission chain 46; Be respectively arranged with installation otic placode 52 in both sides, described hopper 40 top, between described two installation otic placodes 52, be provided with adapter shaft B53, described adapter shaft B53 passes respectively at two ends corresponding upper installation otic placode 52 and is connected on the upper installation otic placode 52 by bearing, be fixedly connected with roller 48 at described adapter shaft B53 two ends, described roller 48 places in the guide rail 47.
Described gig transmission shaft 43 surfaces are shape of threads, be provided with the with it rotating nut 54 of screw thread fit at described gig transmission shaft 43, be fixedly connected with feeler lever 55 at described rotating nut 54, the postive stop baffle 57 that is provided with parallel motion groove 56 is passed in described feeler lever 55 ends, described postive stop baffle 57 be provided with can be corresponding with feeler lever 55 ends inductor, described inductor is arranged on feeler lever 55 both sides, when feeler lever 55 and one of them inductor at once, hopper 40 is in the discharging station, when feeler lever 55 and another inductor at once, hopper 40 is in feed station.
Wherein, described driver train comprises gig drive motor 58, the gig driving gear 59 that is connected with gig drive motor 58 clutch ends and is fixedly connected on driven gear 60 on the gig transmission shaft 43 that described driving gear 59 is connected with driven gear 60 by chain; Described tensioning regulating mechanism comprises that being fixedly connected on the fixed block 61 that transmits on the support 41 and end passes successively crossbeam 63 and pivot shaft 45 and place rotationally set screw 62 in the fixed block 61, described set screw 62 and pivot shaft 45 screws thread fit.
The principle of work of this bucket elevator: as shown in figure 18, this moment, hopper was in feed station, feeler lever end on the rotating nut is corresponding with the inductor of a side, after charging is finished, the drive motor action drives transmission shaft and rotates, the hopper bottom upwards promotes under the effect of transmission chain, hopper top also moves up along guide rail by roller, when the hopper upper roller enters the guide rail upper end to the crooked extension of discharge end, hopper top is along moving to the crooked extension of discharge end, and continue to move up under the effect of transmission chain in the hopper bottom, thereby make hopper form upset discharging action, this moment, hopper was in the discharging station, and the detection end on the rotating nut moves to the inductor correspondence position with opposite side; After finishing discharging, the drive motor upset, driving chain drives hopper and moves down, and is returned to initial position.Wherein by the distance between the inductor is arranged, can adjust the height and position of hopper when feed station.
The above only is preferred embodiment of the present utility model; not in order to limit the utility model; all any modifications of within spirit of the present utility model and principle, doing, be equal to and replace and improvement etc., all should be included within the protection domain of the present utility model.

Claims (10)

1. full automaticity can vacuum packing machine, comprise automatic filling machine (1), full automatic bag-making machine (2) and Full-automatic continuous vacuum machine (3), the discharge end of described automatic filling machine (1) is corresponding with the bag section of full automatic bag-making machine (2), it is characterized in that: the mouth of described full automatic bag-making machine (2) is by delivery board (5) the corresponding connection of full automaticity material-feeding mechanism (4) with Full-automatic continuous vacuum machine (3), described full automaticity material-feeding mechanism (4) comprises frame (15) and is arranged on transmitting device (6) on the frame (15), feed end at described transmitting device (6) is provided with for the manipulator (7) of controlling transmitting device (6) charging, be provided with cloth passage (8) between the delivery board (5) of described transmitting device (6) and corresponding Full-automatic continuous vacuum machine (3), described cloth passage (8) bottom is to away from the upper heat-sealing of delivery board (5) bar (9) lopsidedness.
2. full automaticity can vacuum packing machine according to claim 1, it is characterized in that: described transmitting device (6) comprises two mutually correspondences, the belt conveyor (10) that synchronous backward rotates, described belt conveyor (10) is socketed in respectively on the corresponding drive wheel (11) and flower wheel (12), described drive wheel (11) is connected with synchronous drive mechanism (13), described flower wheel (12) is connected with manipulator (7), the mutual counterpart of two belt conveyor (10) fits tightly and the synchronous backward rotation in transmission course, two belt conveyor (10) are separated from each other in the blanking process, described cloth passage (8) upper end inlet point is corresponding with the separated gap location of two belt conveyor (10), and its lower end discharging opening is corresponding with the delivery board (5) of Full-automatic continuous vacuum machine (3).
3. full automaticity can vacuum packing machine according to claim 2, it is characterized in that: described cloth passage (8) is by forming along the some separate passages of transmitting device (6) transmission direction well-distributed, described cloth passage (8) is connected with frame (15) by adjustable support (20), mutually be respectively arranged with some pinch wheels (17) in the both sides of counterpart at described two belt conveyor (10), described pinch wheels (17) connects with corresponding mounting bar (18) respectively, wherein one group of mounting bar (18) is captiveed joint with frame (15) by bearing (14), and another is organized mounting bar (18) and is connected with driving cylinder (16) on being fixedly connected on frame (15) by bearing (14).
4. full automaticity can vacuum packing machine according to claim 3, it is characterized in that: between described transmitting device (6) and cloth passage (8) upper end inlet point, be provided with to bilateral symmetry position-limited lever (19), form the limit channels that material falls between the described position-limited lever (19), described position-limited lever (19) is connected with frame (15) by corresponding adjustable support (20).
5. full automaticity can vacuum packing machine according to claim 4, it is characterized in that: described transmitting device (6) is connected with reciprocating type driving cylinder (22) on being fixedly installed on frame (15) by mobile adapter plate (21), be provided with slide block at described mobile adapter plate (21) two ends, be provided with the slide rail corresponding with described slide block in described frame (15), described cloth passage (8) is connected 19 with position-limited lever) be connected with mobile adapter plate (21) by corresponding adjustable support (20) respectively.
6. the described full automaticity can of any one vacuum packing machine in 5 according to claim 1, it is characterized in that: described automatic filling machine (1) comprises storage bin hopper (23), be arranged on the discharging mechanism in the storage bin hopper (23), be arranged on the rotating disk (24) of storage bin hopper (23) below and the actuating device that is used for driving rotating disk (24) rotation, be provided with some through holes at described rotating disk (24), the discharging opening of described storage bin hopper (23) is corresponding with through hole on the rotating disk (24), be provided with reaction plate (25) in described rotating disk (24) below, be provided with out material through hole at described reaction plate (25), in described rotating disk (24) top, the material through hole corresponding position that goes out of reaction plate (25) is provided with cutting agency, be provided with shifting board (26) in described rotating disk (24) top, described actuating device comprises the drive motor (27) that is arranged on the shifting board (26) and the power transmission assembly that is connected with the driving of drive motor (27) clutch end, be provided with transmission shaft (28) at described power transmission assembly, described transmission shaft (28) lower end is passed shifting board (26) and rotating disk (24) axle center successively, be connected with rotating disk (24) by jam nut (29), described shifting board (26) is connected with synchronously upper lower transmission mechanism.
7. full automaticity can vacuum packing machine according to claim 6, it is characterized in that: described power transmission assembly comprises the first transmission gear (31a) intermeshing and that diameter is identical, the second transmission gear (31b) and the 3rd transmission gear (31c), described the first transmission gear (31a) drives with the clutch end of drive motor (27) and is connected, described the 3rd transmission gear (31c) is connected with transmission shaft (28), described the second transmission gear (31b) is connected with transition axis (32), described transition axis (32) is arranged on the shifting board (26) by bearing, the power take-off shaft of described drive motor (27) passes the first transmission gear (31a), is provided with the detection head corresponding with photoelectric detection system (33) in the power take-off shaft end of drive motor (27).
8. full automaticity can vacuum packing machine according to claim 6, it is characterized in that: described synchronously upper lower transmission mechanism comprises with reducing motor (34) driving and being connected and the turning cylinder (35) of horizontal arrangement and the two rhizoid bars (36) of vertically arranging, described turning cylinder (35) drives with screw mandrel (36) by Poewr transmission mechanism and is connected, correspondence is provided with feed screw nut (37) respectively on described screw mandrel (36), described feed screw nut (37) is captiveed joint with shifting board (26), described Poewr transmission mechanism is comprised of two intermeshing and vertically arranged conical gears (38), wherein the conical gear of horizontal arrangement (38) is socketed on the turning cylinder (35), and the conical gear (38) of vertically arranging is socketed in corresponding screw mandrel (36) lower end.
9. full automaticity can vacuum packing machine according to claim 8, it is characterized in that: be provided with adjustable dosage cup (30) between, rotating disk (24) upper at described rotating disk (24) and the reaction plate (25), between described rotating disk (24) and reaction plate (25), adjustable dosage cup (30) is socketed with spring (39), adjusts spacing between rotating disk (24) and the reaction plate (25) by synchronously upper lower transmission mechanism.
10. full automaticity can vacuum packing machine according to claim 9, it is characterized in that: described adjustable dosage cup (30) is socketed to form mutually by upper and lower two parts (30a, 30b), the upper part (30a) of described adjustable dosage cup (30) is connected on the rotating disk (24), the lower part (30b) of adjustable dosage cup (30) is placed on the reaction plate (25), and described spring (39) upper and lower side is resisted against respectively the boss place of upper and lower two parts (30a, 30b) of adjustable dosage cup (30).
CN 201320275199 2013-05-20 2013-05-20 Fully-automatic filling vacuum package machine Withdrawn - After Issue CN203255382U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN 201320275199 CN203255382U (en) 2013-05-20 2013-05-20 Fully-automatic filling vacuum package machine

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Application Number Priority Date Filing Date Title
CN 201320275199 CN203255382U (en) 2013-05-20 2013-05-20 Fully-automatic filling vacuum package machine

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Publication Number Publication Date
CN203255382U true CN203255382U (en) 2013-10-30

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Application Number Title Priority Date Filing Date
CN 201320275199 Withdrawn - After Issue CN203255382U (en) 2013-05-20 2013-05-20 Fully-automatic filling vacuum package machine

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103253398A (en) * 2013-05-20 2013-08-21 成都海科机械设备制造有限公司 Full automatic filling vacuum package machine
CN105947299A (en) * 2015-12-04 2016-09-21 天津风范科技有限公司 Rotation discharging device

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103253398A (en) * 2013-05-20 2013-08-21 成都海科机械设备制造有限公司 Full automatic filling vacuum package machine
CN105947299A (en) * 2015-12-04 2016-09-21 天津风范科技有限公司 Rotation discharging device

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