CN210708025U - Novel probiotic powder automatic packaging machine - Google Patents

Abstract

The utility model provides a novel probiotic powder automatic packaging machine, which comprises a base, a control cabinet, an adjusting device, a packaging paper conveying mechanism, a sealing mechanism and a cutting mechanism, wherein the adjusting device comprises a supporting part and an adjusting part, the supporting part and the adjusting part realize longitudinal sliding connection through a screw rod structure, the upper end and the lower end of the adjusting part are provided with a hydraulic cylinder telescopic rod and a pneumatic hydraulic rod which are connected with a feeding hopper to realize transverse adjustment, the packaging paper conveying mechanism utilizes a structure which is arranged in a V shape among a first transition shaft, a second transition shaft and a first limiting shaft to tension packaging paper, the packaging paper is further conveyed through a driving wheel and a third transition shaft, carry out the processing of flattening to the wrapping paper through first auxiliary shaft and second auxiliary shaft in transportation process, the utility model discloses the wrapping bag that can prevent the transportation takes place the fold, has improved the packing effect, and equipment cost is low.

Description

Novel probiotic powder automatic packaging machine

Technical Field

The utility model belongs to the technical field of mechanical equipment, especially, relate to a novel powder automatic packaging machine of benefit fungus.

Background

An automatic powder packing machine is a general term for a packing apparatus that packs powder products. The powder product has various types, can relate to a plurality of industries such as food, agricultural and sideline products and the like, and relates to a plurality of products such as milk powder, probiotics, starch, pesticides, veterinary drugs, premix compounds, additives, seasonings, feeds, enzyme preparations and the like.

Powder automatic packaging machine is when packing the benefit fungus powder, because the benefit fungus packing is the strip, therefore the benefit fungus wrapping bag width before not sealing is narrower, takes place the fold easily in the wrapping bag transmission course in powder automatic packaging machine, influences final packing effect, and in addition, traditional powder automatic packaging machine is complicated to the structure of the position control of feeding hopper, has increased the manufacturing cost of whole equipment.

Disclosure of Invention

The to-be-solved problem of the utility model is to provide a novel living fungus powder automatic packaging machine of benefit that the wrapping bag that can prevent the transportation takes place the fold, improves packing effect, equipment cost low.

In order to solve the technical problem, the utility model discloses a technical scheme is: a novel probiotic powder automatic packaging machine comprises a base, a control cabinet fixedly arranged on the base, an adjusting device fixedly arranged at the top of the control cabinet, a feeding hopper connected with the adjusting device, a packaging paper conveying mechanism positioned at the front end of the feeding hopper and fixed on the control cabinet, a sealing mechanism arranged below the packaging paper conveying mechanism, a cutting mechanism arranged at the lower end of the sealing mechanism and a control panel arranged on the control cabinet, wherein the sealing mechanism and the cutting mechanism are fixedly arranged on the control cabinet, the adjusting device comprises a supporting part fixedly arranged at the top of the control cabinet and an adjusting part in sliding connection with the supporting part, the supporting part is of a cuboid structure, a cavity is arranged at one side of the supporting part close to the feeding hopper, and a bottom bearing of the cavity is connected with one end of a wire lever, the other end of the wire lever penetrates through the top of the cavity and is connected with a hand wheel, the wire lever is connected with a top bearing of the cavity, sliding grooves parallel to the wire lever are respectively formed in two side walls of the cavity, a sliding convex rail matched with the sliding grooves and a locking nut matched with the wire lever are arranged on one side, close to the supporting portion, of the adjusting portion, a hydraulic cylinder is fixedly arranged at the lower end of one side, close to the feeding hopper, of the adjusting portion, a telescopic rod is arranged on the hydraulic cylinder, the free end of the telescopic rod is fixedly connected with the lower end of the feeding hopper, a pneumatic hydraulic rod is arranged at the upper end of the adjusting portion and parallel to the telescopic rod, the free end of the pneumatic hydraulic rod is fixedly connected with the upper end of the feeding hopper, and a first compression spring is sleeved on the pneumatic hydraulic rod;

the packaging paper conveying mechanism comprises two parallel supports vertically arranged at two ends of the control cabinet, a first supporting rod, a second supporting rod and a third supporting rod are sequentially arranged from top to bottom in a vertical mode on the two supports, a packaging paper placing shaft is rotatably arranged between the first supporting rods, a first transition shaft, a second transition shaft and a first limiting shaft are sequentially arranged on the supports between the first supporting rods and the second supporting rods from top to bottom, the first transition shaft, the second transition shaft and the first limiting shaft are arranged in a V-shaped mode, a first auxiliary shaft, a driving shaft, a second auxiliary shaft, a third transition shaft and a second limiting shaft are sequentially arranged on the second supporting rods from inside to outside, one side of the driving shaft is connected with a servo motor, limiting sleeves are arranged on the first limiting shaft and the second limiting shaft, and a vertical plate is arranged perpendicular to the second supporting rods, the riser is located the below of third transition axle, be provided with the slide opening on the riser, the lower extreme of slide opening is provided with pressure sensor, be provided with the slide bar in the slide opening, be provided with the fourth transition axle on the third bracing piece, be provided with photoelectric sensor on the fourth transition axle.

Furthermore, the adjustable setting of the spacing axle of second is in on the second bracing piece, be provided with the bar-type adjustment hole on the second bracing piece, the both ends of the spacing axle of second are provided with the regulation post, it is located in the bar-type adjustment hole to adjust the post, it is provided with the shank of bolt perpendicularly to its central axis fixed on the regulation post, the other end of shank of bolt runs through the lateral wall and the nut threaded connection of second bracing piece.

Further, the feeding hopper comprises a feeding bin and a feeding bin cover, a feeding port and a feeding rotating motor are arranged on the feeding bin cover, the output end of the feeding rotating motor penetrates through the feeding bin cover and is fixedly connected with the spiral feeding rod, the feeding bin is conical, and a feeding channel is arranged at the lower end of the feeding bin.

Furthermore, a former is arranged at the lower end of the feeding channel, the former is fixedly arranged on the control cabinet, and the former is positioned at the front end of the sealing mechanism.

Further, the sealing mechanism comprises a first fixing plate and a second fixing plate, the first fixing plate and the second fixing plate are fixed on the controller case, a first sliding rod is arranged between the first fixing plates, two first movable plates are arranged on the first sliding rod in a sliding mode, a first electric telescopic rod is arranged on the first fixing plate, the free end of the first electric telescopic rod is fixedly connected with the first movable plates, the free end of the first electric telescopic rod is connected with the first movable plates in a sliding mode, one side, opposite to the first movable plates, of the first movable plates is provided with.

Furthermore, the lower end of the sealing mechanism is provided with two pinch rollers, the outer surfaces of the two pinch rollers are in a sawtooth shape, and the two pinch rollers are connected with a driving motor.

Further, the cutting mechanism comprises a second fixed plate which is relatively fixed on the control cabinet, a second sliding rod is arranged between the two second fixed plates in parallel, a buffer plate, a second movable plate and a third movable plate are sequentially arranged on the second sliding rod in a sliding manner from left to right, a second electric telescopic rod is arranged on each of the two second fixed plates, the free end of each second electric telescopic rod is fixedly connected with the buffer plate and the third movable plate respectively, a second compression spring is arranged on the second sliding rod between the buffer plate and the second movable plate, a cutting table is arranged on each side of the second movable plate opposite to the third movable plate, a concave cutting opening is formed in each cutting table, a blade is arranged in each concave cutting opening in the second movable plate, two ends of each blade are respectively fixedly connected with one end of a guide rod, and the other end of each guide rod sequentially penetrates through the second movable plate and the buffer plate, the guide rod is fixedly connected with the buffer plate, and the guide rod is connected with the second movable plate in a sliding mode.

Furthermore, a finished product conveying rail is fixedly arranged below the cutting mechanism, and the finished product conveying rail is obliquely fixed on the control cabinet.

Compared with the prior art, the utility model has the advantages and beneficial effect be:

1. the utility model discloses on wrapping paper conveying mechanism, at first utilize first transition axle, the structure that is the V type between second transition axle and the first spacing axle to arrange takes up the wrapping paper, further carry the wrapping paper through action wheel and third transition axle, flatten the processing through first auxiliary shaft and second auxiliary shaft to the wrapping paper in transportation process, can effectively prevent the wrapping paper skew through first spacing epaxial stop collar of axle and second in addition, the effectual packing effect that has improved.

2. The utility model discloses on the adjusting device who adjusts the feeding hopper, only adjust on horizontal regulation through the hydraulic telescoping rod of feeding hopper below and the pneumatic hydraulic stem of top can, through the control pneumatic cylinder, realize the extension or the shortening of telescopic link, thereby directly drive shortening or the extension of pneumatic hydraulic stem, conveniently realize horizontal regulation, on vertical regulation, through mutually supporting of silk level and lock nut, the hand wheel rotates, realize the regulation portion along the slip recess up-and-down motion, adjust simple structure and practicality, low equipment cost, and convenient operation.

Drawings

Fig. 1 is a schematic view of the overall structure of the novel automatic probiotic powder packaging machine of the present invention.

Fig. 2 is a schematic view of a local structure of a transportation route of a packaging bag of the novel probiotic powder automatic packaging machine of the present invention.

Fig. 3 is a schematic view of the decomposition structure of the adjusting device of the novel probiotic powder automatic packaging machine of the present invention.

Fig. 4 is a right-side view schematically illustrating the adjusting part of fig. 3.

Fig. 5 is a schematic structural diagram of a sealing mechanism of the novel probiotic powder automatic packaging machine of the present invention.

Fig. 6 is a schematic structural diagram of the cutting mechanism of the novel automatic probiotic powder packaging machine of the present invention.

In the figure: 1-a base; 2-controlling the case; 3-a regulating device; 4-a feed hopper; 5-a packaging paper conveying mechanism; 6-sealing mechanism; 7-a cutting mechanism; 8-a control panel; 9-strip-shaped adjusting holes; 10-a conditioning column; 11-a bolt shank; 12-a nut; 13-a former; 14-a pinch roller; 15-finished product conveying track; 301-a support; 302-an adjustment section; 303-a cavity; 304-wire lever; 305-a hand wheel; 306-a sliding groove; 307-sliding convex rail; 308-a locking nut; 309-hydraulic cylinder; 310-a telescopic rod; 311-pneumatic hydraulic rod; 312-a first compression spring; 401-a feed bin; 402-feed bin cover; 403-a feed inlet; 404-a feeding rotating motor; 405-a feed channel; 501-a bracket; 502-a first support bar; 503-a second support bar; 504-a third support bar; 505-wrapping paper placing shaft; 506-a first transition axis; 507-a second transition axis; 508-a first restraint shaft; 509-first auxiliary shaft; 510-a drive shaft; 511-a second auxiliary shaft; 512-third transition axis; 513-a second restraint shaft; 514-servo motor; 515-a stop collar; 516-a riser; 517-sliding hole; 518-a pressure sensor; 519-a slide bar; 520-a fourth transition axis; 601-a first fixing plate; 602-a first slide bar; 603-a first movable plate; 604-a first electric telescopic rod; 605-vertical sealer; 606-a transverse sealer; 701-a second fixing plate; 702-a second slide bar; 703-a buffer plate; 704-a second movable plate; 705-a third movable plate; 706-a second electric telescopic rod; 707-a second compression spring; 708-a cutting station; 709-concave cutting opening; 710-a blade; 711-guide bar.

Detailed Description

The following detailed description of the embodiments of the present invention will be made with reference to the accompanying drawings.

As shown in fig. 1-6, a novel probiotic powder automatic packaging machine comprises a base 1, a control cabinet 2 fixedly disposed on the base 1, an adjusting device 3 fixedly disposed on the top of the control cabinet 2, a feeding hopper 4 connected to the adjusting device 3, a packing paper conveying mechanism 5 disposed at the front end of the feeding hopper 4 and fixed on the control cabinet 2, a sealing mechanism 6 disposed below the packing paper conveying mechanism 5, a cutting mechanism 7 disposed at the lower end of the sealing mechanism 6, and a control panel 8 disposed on the control cabinet 2, wherein the sealing mechanism 6 and the cutting mechanism 7 are both fixedly disposed on the control cabinet 2, the adjusting device 3 includes a supporting portion 301 fixedly disposed on the top of the control cabinet 2 and an adjusting portion 302 slidably connected to the supporting portion 301, the supporting portion 301 is in a rectangular parallelepiped structure, a cavity 303 is arranged on one side of the supporting part 301 close to the feeding hopper 4, one end of a wire lever 304 is connected to the bottom bearing of the cavity 303, the other end of the wire lever 304 penetrates through the top of the cavity 303 to be connected with a hand wheel 305, the wire lever 304 is connected with the top bearing of the cavity 303, two side walls of the cavity 303 are respectively provided with a sliding groove 306 parallel to the wire lever 304, one side of the adjusting part 302 close to the supporting part 301 is provided with a sliding convex rail 307 matched with the sliding groove 306 and a locking nut 308 matched with the wire lever 304, the lower end of one side of the adjusting part 302 close to the feeding hopper 4 is fixedly provided with a hydraulic cylinder 309, the hydraulic cylinder 309 is provided with an expansion link 310, the free end of the expansion link 310 is fixedly connected with the lower end of the feeding hopper 4, and the upper end of the adjusting part 302 is provided with a pneumatic hydraulic rod 311 parallel to the expansion, the free end of the pneumatic hydraulic rod 311 is fixedly connected with the upper end of the feeding hopper 4, and a first compression spring 312 is sleeved on the pneumatic hydraulic rod 311.

Only adjust through the pneumatic hydraulic stem of the hydraulic telescoping rod of feeding hopper below and top on horizontal adjustment can, through the control pneumatic cylinder, realize the extension of telescopic link or shorten, thereby directly drive shortening or the extension of pneumatic hydraulic stem, conveniently realize horizontal adjustment, first compression spring is established to the cover on pneumatic hydraulic stem simultaneously, can make first compression spring keep certain pressure to the feeding hopper all the time, make it can share the thrust of pneumatic hydraulic stem, the life of extension pneumatic hydraulic stem, on vertical regulation, through the mutually supporting of silk lever and lock nut, the hand wheel rotates, realize the lock nut in the regulating part along silk lever up-and-down motion, thereby drive regulating part along sliding groove up-and-down motion.

The wrapping paper conveying mechanism 5 comprises two parallel supports 501 vertically arranged at two ends of the control cabinet 2, a first support rod 502, a second support rod 503 and a third support rod 504 are sequentially arranged from top to bottom in a vertical manner on the two supports 501, a wrapping paper placing shaft 505 is rotatably arranged between the first support rods 502, a first transition shaft 506, a second transition shaft 507 and a first limit shaft 508 are sequentially arranged on the support 501 between the first support rod 502 and the second support rod 503 from top to bottom, a V-shaped arrangement is formed between the first transition shaft 506, the second transition shaft 507 and the first limit shaft 508, a first auxiliary shaft 509, a driving shaft 510, a second auxiliary shaft 511, a third transition shaft 512 and a second limit shaft 513 are sequentially arranged on the second support rod 503 from inside to outside, one side of the driving shaft 510 is connected with a servo motor 514, and limit sleeves 515 are respectively arranged on the first limit shaft 508 and the second limit shaft 513, a vertical plate 516 is arranged perpendicular to the second support rod 503, the vertical plate 516 is located below the third transition shaft 512, a sliding hole 517 is arranged on the vertical plate 516, a pressure sensor 518 is arranged at the lower end of the sliding hole 517, a sliding rod 519 is arranged in the sliding hole 517, a fourth transition shaft 520 is arranged on the third support rod 504, and a photoelectric sensor (not shown) is arranged on the fourth transition shaft 520.

Packaging paper enters a former after sequentially passing through a first transition shaft, a second transition shaft, a first limit shaft, a driving shaft, a third transition shaft, a sliding rod and a fourth transition shaft, the packaging paper is tensioned by a V-shaped arrangement structure between the first transition shaft, the second transition shaft and the first limit shaft, the packaging paper is further conveyed through a driving wheel and the third transition shaft, the packaging paper is flattened through a first auxiliary shaft and a second auxiliary shaft in the conveying process, in addition, the packaging paper can be effectively prevented from deviating through limit sleeves on the first limit shaft and the second limit shaft, the packaging effect is effectively improved, meanwhile, when the driving shaft is driven to rotate by a servo motor, the packaging bag gives upward force to the sliding rod, the sliding rod is pulled upwards, when a photoelectric sensor detects a black code on the packaging bag, the servo motor is controlled to stop rotating, feeding and sealing is carried out, meanwhile, the sliding rod slides downwards under the action of gravity, and after the gravity sensor senses the sliding rod, the servo motor is controlled to start again to reciprocate in sequence, so that the packaging paper conveying process is realized.

Further, the second limiting shaft 513 is adjustably disposed on the second supporting rod 503, a bar-shaped adjusting hole 9 is disposed on the second supporting rod 503, adjusting posts 10 are disposed at two ends of the second limiting shaft 513, the adjusting posts 10 are disposed in the bar-shaped adjusting holes 9, a bolt rod 11 is fixedly disposed on the adjusting posts 10 and perpendicular to a central axis thereof, the other end of the bolt rod 11 penetrates through a side wall of the second supporting rod 503 and is in threaded connection with a nut 12, when the second limiting shaft 513 is adjusted, the nut 12 is firstly rotated outwards, the bolt rod 11 is pulled to adjust the second limiting shaft 513 in the bar-shaped adjusting hole 9, after the second limiting shaft 513 is adjusted in place, the nut 12 is screwed to be tightly attached to the side wall of the second supporting rod 503, so as to fix the second limiting shaft 513, because a certain interference fit exists between the adjusting posts 10 and the bar-shaped adjusting holes 9, and a certain friction effect exists between the bolt rod 11 and the second supporting rod 503, therefore, the second limiting shaft 513 can be effectively fixed, the distance between the second limiting shaft 513 and the third transition shaft 512 can be adjusted through fine adjustment of the second limiting shaft 513, and a good limiting effect is guaranteed.

Further, the feeding hopper 4 comprises a feeding bin 401 and a feeding bin cover 402, a feeding port 403 and a feeding rotary motor 404 are arranged on the feeding bin cover 402, an output end of the feeding rotary motor 404 penetrates through the feeding bin cover 402 and is fixedly connected with a spiral feeding rod (not shown), the feeding bin 401 is conical, a feeding channel 405 is arranged at the lower end of the feeding bin 401, materials enter the feeding bin 401 at the feeding port 403, and the materials are quantitatively fed into the feeding channel 405 through the spiral feeding rod.

Further, the lower extreme of pay-off passageway 405 is provided with former 13, former 13 is fixed to be set up on the control box 2, former 13 is located seal the front end of mechanism 6, and the wrapping paper is the cylinder structure after passing through former 13, seals mechanism 6 and seals it and handle, because the wrapping paper is located between former 13 and the pay-off passageway 405, consequently, the material in the material passageway 405 can enter into the wrapping bag smoothly.

Further, the sealing mechanism 6 includes first fixed plates 601 relatively fixedly disposed on the control cabinet 2, a first sliding rod 602 is disposed between the two first fixed plates 601, two first movable plates 603 are slidably disposed on the first sliding rod 602, a first electric telescopic rod 604 is disposed on the first fixed plate 601, a free end of the first electric telescopic rod 604 is fixedly connected to the first movable plates 603, and a vertical sealer 605 and a horizontal sealer 606 disposed at a lower end of the vertical sealer 605 are disposed on opposite sides of the two first movable plates 603.

After the wrapping bag passed through the former, first electric telescopic handle promoted first fly leaf relative motion to make horizontal sealer and vertical sealer on the first fly leaf seal the processing to the wrapping bag, can set up the time of sealing simultaneously on control panel, seal the completion back first electric telescopic handle shrink, reciprocating motion in proper order.

Further, the lower extreme of mechanism 6 seals is provided with two pinch rollers 14, two the surface of pinch roller 14 is the cockscomb structure, two pinch roller 14 is connected with driving motor (not shown), and through the packing finished product that mechanism 6 accomplished seals, the edge of sealing is compressed tightly the operation through pinch roller 14 once more, further guarantees the fastness of sealing, and pinch roller 14 controls through driving motor simultaneously, can give the power of packing finished product downstream.

Further, the cutting mechanism 7 includes a second fixed plate 701 relatively fixedly disposed on the control cabinet 2, a second sliding rod 702 is disposed between the two second fixed plates 701 in parallel, a buffer plate 703, a second movable plate 704 and a third movable plate 705 are sequentially slidably disposed on the second sliding rod 702 from left to right, a second electric telescopic rod 706 is disposed on each of the two second fixed plates 701, a free end of the second electric telescopic rod 706 is fixedly connected to the buffer plate 703 and the third movable plate 705 respectively, a second compression spring 707 is disposed on the second sliding rod 702 between the buffer plate 703 and the second movable plate 704, a cutting table 708 is disposed on one side of the second movable plate 704 opposite to the third movable plate 705, a concave cutting opening 709 is disposed on the cutting table 708, and a blade 710 is disposed in the concave cutting opening 709 on the second movable plate 704, two ends of the blade 710 are respectively fixedly connected with one end of a guide rod 711, the other end of the guide rod 711 sequentially penetrates through the second movable plate 704 and the buffer plate 703, the guide rod 711 is fixedly connected with the buffer plate 703, and the guide rod 711 is slidably connected with the second movable plate 704.

The packing finished product that accomplishes behind the mechanism that seals all links together, need cut it separately through cutting mechanism, form final packing product, when the packing finished product passes through cutting mechanism, control second electric telescopic handle extension, thereby promote second fly leaf and third fly leaf and be close to, seal the department with the packing product and press from both sides in concave type cutting opening department, the buffer board is further forward, thereby it is forward to promote the guide bar, further promote the blade forward to cutting the department of sealing, after the cutting is accomplished, second electric telescopic handle shrink, reciprocating motion in proper order, set up second compression spring between buffer board and second fly leaf, all play the effect of buffering cutting and withdrawing the in-process, make the cutting process more stable.

Further, a finished product conveying rail 15 is fixedly arranged below the cutting mechanism 7, the finished product conveying rail 15 is obliquely fixed on the control cabinet 2, and the cut packaged products are collected after being transported by the finished product conveying rail 15.

The utility model discloses a working process does: the wrapping bag is in proper order through first transition axle, the second axle that passes through, first spacing axle, the driving shaft, the third axle that passes through, behind slide bar and the fourth axle that passes through, enter into in the former, the wrapping bag seals the processing through sealing the mechanism behind the former, the simultaneous control pay-off rotates the motor and drives the spiral feed rod and carry out the pay-off, continue downstream in the effect through the pinch roller after the material gets into the wrapping bag, cut the processing to it when the packing finished product enters into cutting mechanism, the packing product of final formation collects after through the transportation of finished product delivery track, the utility model discloses well control box and control panel control and parameter setting to whole device process, this aspect is not the utility model discloses a improve the point, do not give unnecessary details.

While one embodiment of the present invention has been described in detail, the description is only a preferred embodiment of the present invention, and should not be considered as limiting the scope of the present invention. All the equivalent changes and improvements made according to the application scope of the present invention should still fall within the patent coverage of the present invention.

Claims (8)

1. The utility model provides a novel probiotic powder automatic packaging machine, is in including base, fixed setting control machine case, the fixed setting on the base are in the adjusting device at control machine case top, with feeding hopper that adjusting device connects, be located feeding hopper front end just fixes wrapping paper conveying mechanism, setting on the control machine case are in the mechanism, the setting of sealing of wrapping paper conveying mechanism below are in the cutting mechanism and the setting of sealing the mechanism lower extreme are in control panel on the control machine case, it all fixes the setting with cutting mechanism to seal the mechanism on the control machine case, its characterized in that: the adjusting device comprises a supporting part fixedly arranged at the top of the control cabinet and an adjusting part in sliding connection with the supporting part, the supporting part is of a cuboid structure, one side of the supporting part, which is close to the feeding hopper, is provided with a cavity, the bottom of the cavity is in bearing connection with one end of a wire lever, the other end of the wire lever penetrates through the top of the cavity and is connected with a hand wheel, the wire lever is in bearing connection with the top of the cavity, two side walls of the cavity are respectively provided with a sliding groove parallel to the wire lever, one side of the adjusting part, which is close to the supporting part, is provided with a sliding convex rail matched with the sliding groove and a locking nut matched with the wire lever, the lower end of one side of the adjusting part, which is close to the feeding hopper, is fixedly provided with a hydraulic cylinder, the hydraulic cylinder is provided with an expansion link, and the, a pneumatic hydraulic rod is arranged at the upper end of the adjusting part and is parallel to the telescopic rod, the free end of the pneumatic hydraulic rod is fixedly connected with the upper end of the feeding hopper, and a first compression spring is sleeved on the pneumatic hydraulic rod;

the packaging paper conveying mechanism comprises two parallel supports vertically arranged at two ends of the control cabinet, a first supporting rod, a second supporting rod and a third supporting rod are sequentially arranged from top to bottom in a vertical mode on the two supports, a packaging paper placing shaft is rotatably arranged between the first supporting rods, a first transition shaft, a second transition shaft and a first limiting shaft are sequentially arranged on the supports between the first supporting rods and the second supporting rods from top to bottom, the first transition shaft, the second transition shaft and the first limiting shaft are arranged in a V-shaped mode, a first auxiliary shaft, a driving shaft, a second auxiliary shaft, a third transition shaft and a second limiting shaft are sequentially arranged on the second supporting rods from inside to outside, one side of the driving shaft is connected with a servo motor, limiting sleeves are arranged on the first limiting shaft and the second limiting shaft, and a vertical plate is arranged perpendicular to the second supporting rods, the riser is located the below of third transition axle, be provided with the slide opening on the riser, the lower extreme of slide opening is provided with pressure sensor, be provided with the slide bar in the slide opening, be provided with the fourth transition axle on the third bracing piece, be provided with photoelectric sensor on the fourth transition axle.

2. The novel probiotic powder automatic packaging machine according to claim 1, characterized in that: the adjustable setting of the spacing axle of second is in on the second bracing piece, be provided with the bar regulation hole on the second bracing piece, the both ends of the spacing axle of second are provided with the regulation post, it is located in the bar regulation hole to adjust the post, it is provided with the shank of bolt to adjust the fixed perpendicular its central axis on the post, the other end of shank of bolt runs through the lateral wall and the nut threaded connection of second bracing piece.

3. The novel probiotic powder automatic packaging machine according to claim 1, characterized in that: the feeding hopper comprises a feeding bin and a feeding bin cover, a feeding port and a feeding rotating motor are arranged on the feeding bin cover, the output end of the feeding rotating motor penetrates through the feeding bin cover and is fixedly connected with the spiral feeding rod, the feeding bin is conical, and a feeding channel is arranged at the lower end of the feeding bin.

4. The novel probiotic powder automatic packaging machine according to claim 3, characterized in that: the lower end of the feeding channel is provided with a former which is fixedly arranged on the control cabinet and is positioned at the front end of the sealing mechanism.

5. The novel probiotic powder automatic packaging machine according to claim 4, characterized in that: the mechanism of sealing sets up including the relatively fixed first fixed plate on the controller case, two be provided with first slide bar between the first fixed plate, it is provided with two first fly leafs to slide on the first slide bar, be provided with first electric telescopic handle on the first fixed plate, first electric telescopic handle's free end with first fly leaf fixed connection, two one side that first fly leaf is relative all is provided with vertical sealer and is located the horizontal sealer of vertical sealer lower extreme.

6. The novel probiotic powder automatic packaging machine according to claim 5, characterized in that: the lower end of the sealing mechanism is provided with two pinch rollers, the outer surfaces of the two pinch rollers are in a sawtooth shape, and the two pinch rollers are connected with a driving motor.

7. The novel probiotic powder automatic packaging machine according to claim 1, characterized in that: the cutting mechanism comprises second fixed plates which are relatively and fixedly arranged on the control cabinet, a second sliding rod is arranged between the two second fixed plates in parallel, a buffer plate, a second movable plate and a third movable plate are sequentially arranged on the second sliding rod in a sliding manner from left to right, a second electric telescopic rod is arranged on each of the two second fixed plates, the free end of each second electric telescopic rod is respectively and fixedly connected with the buffer plate and the third movable plate, a second compression spring is arranged on each second sliding rod between the buffer plate and the second movable plate, cutting tables are arranged on the opposite sides of the second movable plate and the third movable plate, a concave cutting opening is formed in each cutting table, a blade is arranged in each concave cutting opening in each second movable plate, two ends of each blade are respectively and fixedly connected with one end of a guide rod, and the other end of each guide rod sequentially penetrates through the second movable plate and the buffer plate, the guide rod is fixedly connected with the buffer plate, and the guide rod is connected with the second movable plate in a sliding mode.

8. The novel probiotic powder automatic packaging machine according to claim 7, characterized in that: and a finished product conveying track is fixedly arranged below the cutting mechanism, and the finished product conveying track is obliquely fixed on the control cabinet.

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