CN218900220U

CN218900220U - Automatic pill forming machine

Info

Publication number: CN218900220U
Application number: CN202223494610.0U
Authority: CN
Inventors: 曾忠华; 杨奎; 曹鉴; 贾宁; 姚珍珍
Original assignee: Hangzhou Jingzhuo Equipment Co ltd
Current assignee: Hangzhou Jingzhuo Equipment Co ltd
Priority date: 2022-12-27
Filing date: 2022-12-27
Publication date: 2023-04-25
Anticipated expiration: 2032-12-27

Abstract

The utility model discloses an automatic pill forming machine which comprises a cabinet, wherein an electric cabinet, an air source station, a controller, a feeder, a pushing mechanism, a forming mechanism, a medicine removing mechanism and an air-cooling medicine discharging device are arranged on the cabinet; the utility model realizes automatic pushing of the medicine raw materials, automatic forming and falling of the medicine by arranging the pushing mechanism, the forming mechanism and the medicine removing mechanism.

Description

Automatic pill forming machine

Technical Field

The utility model relates to the technical field of medicine forming machines, in particular to an automatic pill forming machine.

Background

The tablet medicine is produced by wet extrusion, and can be produced into tablets and pills with various shapes such as round tablets, special-shaped tablets and the like and graphic marks according to the requirements. In the prior art, when feeding, the material is easy to attach in a hopper, a clamping stagnation phenomenon occurs, and manual intervention is needed; in addition, when the tablet is produced by extrusion, the pressure is a key factor of the drug molding, and because the pressure is generally difficult to effectively control, the mold is not completely filled with the drug raw material due to insufficient pressure, so that the tablet is inaccurate in metering, defective products appear, the quality and the efficiency of the tablet production are affected, and waste is caused; in addition, the pressure is too high, so that the related pressure-bearing members of the drug tablet forming machine are failed, and the continuity and stability of production are affected. Therefore, there is a need to develop an automatic pill forming machine that improves the quality and efficiency of tablet production, avoids wastage, and achieves production continuity and stability.

Disclosure of Invention

The utility model aims to provide an automatic pill forming machine which is used for solving the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the automatic pill forming machine comprises a machine cabinet, wherein an electric cabinet, an air source station, a controller, a feeder, a pushing mechanism, a forming mechanism, a medicine removing mechanism and an air-cooling medicine discharging device are arranged on the machine cabinet, the controller is arranged on the machine cabinet and is in communication connection with the electric cabinet, the air source station, the pushing mechanism, the forming mechanism and the medicine removing mechanism, the feeder is fixedly arranged right above the pushing mechanism, the pushing mechanism is fixedly arranged on the top surface of the machine cabinet, the forming mechanism is fixedly arranged on the machine cabinet and is fixedly connected with the rear end of the pushing mechanism and is respectively perpendicular to the pushing mechanism and the air-cooling medicine discharging device, the medicine removing mechanism is fixedly arranged on the pushing mechanism, the left end of the medicine removing mechanism is arranged right above the air-cooling medicine discharging device and is opposite to the forming mechanism, and the air-cooling medicine discharging device is fixedly arranged on the machine cabinet;

the pushing mechanism comprises a support plate, a bin, a second PCT heating plate, a double-shaft cylinder, a first hinge, an S-shaped pressure sensor, a push plate, a bin cover and a sleeve joint, wherein the support plate is vertically and fixedly arranged on a cabinet in opposite directions, the bin is fixedly arranged between the upper parts of the support plate and is used for receiving medicine raw materials sliding downwards from a feeding hopper, the second PCT heating plate is fixedly arranged on the bottom surface of the bin and is used for heating the medicine raw materials entering the bin again to improve the dryness of the medicine raw materials, the double-shaft cylinder is fixedly arranged between the pair of support plates and is fixedly connected with an air source station through a pipeline, an output shaft is horizontally forwards arranged below the second PCT heating plate, the first hinge is in an L shape and is fixedly connected with the output shaft of the double-shaft cylinder, the initial position is at the furthest end of the stroke of the double-shaft cylinder, the double-shaft cylinder is in an air suction state at the moment, the feeding hopper is directly opposite to the bin, the S-shaped pressure sensor is fixedly connected with the vertical section of the first hinge and directly above the horizontal section of the bin and is used for heating the medicine raw materials entering the bin again, the dryness of the medicine raw materials is improved, the double-shaft cylinder is fixedly arranged between the two support plates and is fixedly connected with the front end of the bin through a series of photoelectric signal conversion control, the double-shaft cylinder and is horizontally arranged at the front end of the double-shaft cylinder through the push plate, and is horizontally connected with the front end of the double-shaft cylinder and is fixedly arranged at the front end.

The feeder is used for feeding medicine raw materials and comprises an outer housing, a feeding hopper, a first PCT heating plate, a cover plate and a bottom plate, wherein the outer housing is fixedly connected with the upper end of the feeding hopper, the feeding hopper is arranged in the outer housing, is vertically communicated, the lower part of the feeding hopper is movably sleeved with the bottom plate and protrudes downwards, other three sides of the feeding hopper are provided with inclined downward shrinkage inclined planes except the rear bottom, and three groups of the first PCT heating plates are fixedly arranged on the bottom surfaces of the corresponding shrinkage inclined planes and are electrically connected with an electric cabinet.

Further, the outer edge of the lower end of the feeding hopper is sleeved with the sleeve joint.

The forming mechanism is used for extrusion forming of medicine raw materials and comprises a cylinder seat, a first thin cylinder, a second hinge, a forming template, a second thin cylinder, an extrusion seat, an extrusion head, a sealing seat and a sealing cover, wherein the cylinder seat is vertically arranged on a cabinet and is arranged outside the front end of a right support plate, the first thin cylinder is horizontally and fixedly arranged at the upper right end of the cylinder seat, an output shaft penetrates through the cylinder seat movably, one end of the second hinge is in threaded connection with the output end of the first thin cylinder, the forming template is horizontally and slidingly arranged between the sealing seat and the sealing cover, the right end is fixedly connected with the second hinge, a plurality of forming through holes are formed in the left section, the forming through holes are opposite to the extrusion head in an initial state, the first thin cylinder is in a deflation state at the moment, the second thin cylinder is fixedly arranged on the cabinet, the output shaft is upwards, the extrusion seat is fixedly connected with the output shaft of the second thin cylinder, the extrusion head is fixedly arranged on the extrusion seat, the quantity is the same as the forming through holes, the outer diameter is slightly larger than the forming through holes, the sealing seat is fixedly arranged on the rear end of a storage bin, is adjacent to the rear end of the storage bin cover, the storage bin cover and is directly communicated with the sealing cover, and the forming template is fixedly arranged at the upper end and is provided with a forming groove 74.

The medicine removing mechanism is used for jacking formed medicines from the forming through holes on the air cooling medicine discharging device and comprises a mounting plate, a baffle plate, a clamping groove, a sliding table cylinder and an abutting column, wherein the mounting plate is vertically arranged on a bin cover, is adjacent to a sealing seat and extends to the position right above the air cooling medicine discharging device, the baffle plate is vertically and fixedly arranged at the left end of the mounting plate, the clamping groove is arranged at the lower edge of the baffle plate, the clamping groove is opposite to and matched with the forming template, the left end of the forming template is clamped in the medicine removing process, deformation and bending of the forming template caused by abutting column stamping under the cantilever state are avoided, the sliding table cylinder is fixedly arranged at the front side of the mounting plate and is in a deflation state right above the air cooling medicine discharging device, a plurality of abutting columns are vertically and fixedly arranged at the output ends of the sliding table cylinder, the outer diameter and the number of the abutting columns are matched with the forming through holes, and the bottom end of the sliding table cylinder is higher than the top surface of the forming template in the initial state for ejecting medicines from the forming through holes.

The air-cooled medicine discharging device is used for conveying formed medicines to the next process after air cooling and comprises a conveying belt, fans and a right-angle gear motor, wherein the conveying belt is horizontally and fixedly arranged on a cabinet, the fans are obliquely and upwardly arranged on the conveying belt, the right-angle gear motor is fixedly arranged on the left side of the conveying belt, and an output shaft is in transmission connection with the conveying belt.

Compared with the prior art, the utility model has the following beneficial effects:

1. according to the utility model, the first PCT heating plate and the second PCT heating plate are respectively arranged in the feeding hopper and the pushing mechanism, so that the medicine raw materials are heated at constant temperature in advance, the dryness of the medicine raw materials is enhanced while the activity and the efficacy of the medicine raw materials are maintained, the medicine raw materials are prevented from being blocked in the storage bin, and the medicine forming efficiency and the extrusion forming quality are improved;

2. according to the utility model, the S-shaped pressure sensor is arranged in the pushing mechanism, so that the accurate control of pressure in the processes of pushing and extrusion forming of the medicine raw materials is realized, and the defect of medicine forming quality caused by insufficient pressure of the medicine raw materials and insufficient filling of forming through holes is effectively avoided; in addition, damage to corresponding pressure-bearing members of the pushing mechanism and the forming mechanism due to overlarge pressure is avoided, normal and efficient operation of the corresponding mechanisms is ensured, more than 6 parts are formed at one time, and the weight error of finished products is small; the modification of the product specification is realized by replacing the molding template, so that the method is convenient and quick;

3. the utility model realizes the automatic pushing of the medicine raw materials alternately and circularly, the automatic extrusion molding of the medicine and the automatic falling of the medicine by arranging the pushing mechanism, the molding mechanism and the medicine removing mechanism, has high automation degree, high speed of 10-35 times/min and high molding efficiency.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic perspective view of a feeder according to the present utility model;

FIG. 3 is a schematic diagram showing the relative positions of the pushing mechanism, the molding mechanism and the medicine removing mechanism when molding;

FIG. 4 is a schematic diagram of a pushing mechanism of the present utility model;

FIG. 5 is a schematic diagram showing the relative positions of the pushing mechanism, the molding mechanism and the medicine removing mechanism when the medicine is removed;

fig. 6 is a schematic diagram of a position relationship of the pushing mechanism of the present utility model when pushing.

In the figure: 1 cabinet, 2 electric cabinet, 3 air source station, 4 controller, 5 feeder, 51 housing, 52 feeding hopper, 52a shrink inclined plane, 53 first PCT heating plate, 54 cover plate, 55 bottom plate, 6 pushing mechanism, 61 support plate, 62 feed bin, 63 double-shaft cylinder, 64 second PCT heating plate, 65 first articulation, 66S type pressure sensor, 67 push plate, 68 feed bin cover, 68a sleeve interface, 7 forming mechanism, 71 cylinder seat, 72 first thin cylinder, 73 second articulation, 74 forming template, 74a forming through hole, 75 second thin cylinder, 76 extrusion seat, 77 extrusion head, 78 sealing seat, 79 sealing cover, 8 medicine removing mechanism, 81 mounting plate, 82 baffle plate, 82a clamping groove, 83 sliding table cylinder, 84 resisting column, 9 air cooling medicine removing device, 91 conveyer belt, 92 fan, 93 right angle speed reducing motor.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1, an automatic pill forming machine comprises a cabinet 1, wherein an electric cabinet 2, an air source station 3, a controller 4, a feeder 5, a pushing mechanism 6, a forming mechanism 7, a medicine removing mechanism 8 and an air cooling medicine removing device 9 are arranged on the cabinet 1, the controller 4 is arranged on the cabinet 1 and is in communication connection with the electric cabinet 2, the air source station 3, the feeding mechanism 6, the forming mechanism 7 and the medicine removing mechanism 8, the feeder 5 is fixedly arranged right above the pushing mechanism 6, the feeding mechanism 6 is fixedly arranged on the top surface of the cabinet 1, the forming mechanism 7 is fixedly arranged on the cabinet 1 and is fixedly connected with the rear end of the pushing mechanism 6 and is perpendicular to the air cooling medicine removing device 9, the medicine removing mechanism 8 is fixedly arranged on the pushing mechanism 6, the left end is right above the air cooling medicine removing device 9 and opposite to the forming mechanism 7, and the air cooling medicine removing device 9 is fixedly arranged on the cabinet 1.

Referring to fig. 2, the feeder 5 is configured to feed a pharmaceutical raw material, and includes an outer casing 51, a feeding hopper 52, a first PCT heating sheet 53, a cover plate 54, and a bottom plate 55, where the outer casing 51 is fixedly connected with the upper end of the feeding hopper 52, the feeding hopper 52 is disposed in the outer casing 51, is vertically through, and the lower portion is movably sleeved with the bottom plate 55, and protrudes downwards, and except for the bottom of the rear surface, three sides of the feeding hopper are provided with inclined downward shrinkage inclined planes 52a, so that the feeding hopper can collect materials and increase the feeding speed, and three groups of the first PCT heating sheets 53 are fixedly disposed on the bottom surfaces of the corresponding shrinkage inclined planes 52a and are electrically connected with the electric cabinet 2.

By arranging the feeder 5, after the medicine raw materials are put into the hopper 52 from the upper opening, the medicine raw materials slide down along the inner wall of the hopper 52 and are heated by the three groups of first PCT heating plates 53 in the sliding process, so that the sliding flow efficiency of the medicine raw materials is improved, and the medicine raw materials are not blocked in the hopper 52.

Referring to fig. 3, 4 and 6, the pushing mechanism 6 comprises a support plate 61, a bin 62, a second PCT heating plate 63, a dual-shaft cylinder 64, a first hinge 65, an S-type pressure sensor 66, a push plate 67, a bin cover 68 and a socket 68a, wherein a pair of support plates 61 are vertically and oppositely arranged on the cabinet 1, the bin 62 is fixedly arranged between the upper parts of the pair of support plates 61 and is used for receiving the medicine raw materials sliding down from the feeding hopper 52, the second PCT heating plate 63 is fixedly arranged on the bottom surface of the bin 62 and is used for heating the medicine raw materials entering the bin 62 again, the dryness of the medicine raw materials is improved, the dual-shaft cylinder 64 is fixedly arranged between the pair of support plates 61 and is fixedly connected with the air source station 3 through a pipeline, the output shaft is horizontally forward, the first hinge 65 is in an L shape under the second PCT heating plate 63, the automatic feeding device is fixedly connected with an output shaft of the double-shaft air cylinder 64, the initial position is at the furthest end of the stroke of the automatic feeding device, the double-shaft air cylinder 64 is in an air suction state at the moment, the feeding hopper 52 is directly opposite to the bin 62, the S-shaped pressure sensor 66 is fixedly connected with the vertical section of the first hinge 65 and is directly above the horizontal section of the first hinge 65, when the set pressure value is reached, the S-shaped pressure sensor 66 is converted through a series of photoelectric signals, the double-shaft air cylinder 64 stops air discharge, the push plate 67 is horizontally and slidingly arranged in the bin 62, the front end of the push plate is fixedly connected with the S-shaped pressure sensor 66, the medicine raw materials are conveyed to the rear end of the bin 62 under the action of the double-shaft air cylinder 64, the bin cover 68 is fixedly arranged on the top surface of the bin 62, the front end of the feed hopper 62 is aligned with the front end of the bin 62, an opening is reserved at the rear end of the bin 62, and a sleeve joint 68a is arranged in the middle of the feed hopper 52, and the outer edge of the lower end of the feeding hopper 52 is sleeved at the sleeve joint 68 a.

Through setting up pushing equipment 6, after the medicine raw materials gets into feed bin 62 from throwing hopper 52, biax cylinder 64 gassing, drive push pedal 67 through first articulated ware 65 and push the medicine raw materials that gets into feed bin 62 to feed bin 62 rear end, push pedal 67 is connected with S type pressure sensor 66, respond to push pedal 67 pressure size through S type pressure sensor 66, thereby control biax cylinder 64 action, when the medicine raw materials that send into feed bin 62 inside reaches a certain quantity, the pressure value that push pedal 67 received reaches P2, S type pressure sensor 66 controls biax cylinder 64 gassing, push pedal 67 pushes medicine raw materials to feed bin 62 rear end, medicine raw materials is pressed because of the pressure, be pushed into shaping through-hole 74a, when the pressure value that push pedal 67 received reaches set pressure value P1, S type pressure sensor 66 controls biax cylinder 64 inspiration, drive push pedal 67 and roll back.

Referring to fig. 3, 4 and 5, the forming mechanism 7 is configured to extrude and form a pharmaceutical raw material, and includes a cylinder seat 71, a first thin cylinder 72, a second hinge 73, a forming template 74, a second thin cylinder 75, a pressing seat 76, a pressing head 77, a sealing seat 78 and a sealing cover 79, wherein the cylinder seat 71 is vertically installed on the cabinet 1 and is located outside the front end of the right support plate 61, the first thin cylinder 72 is horizontally and fixedly installed at the upper right end of the cylinder seat 71, the output shaft movably penetrates through the cylinder seat 71, one end of the second hinge 73 is in threaded connection with the output end of the first thin cylinder 72, the forming template 74 is horizontally and slidably installed between the sealing seat 78 and the sealing cover 79, the right end is fixedly connected with the second hinge 73, a plurality of forming through holes 74a are formed at the left end, the forming through holes 74a are opposite to the pressing head 77 in an initial state, the first thin cylinder 72 is in a gas releasing state, the second thin cylinder 75 is fixedly installed on the top surface of the cabinet 1, the output shaft is upward, the pressing seat 76 is fixedly connected with the output shaft of the second thin cylinder 75, the output shaft is fixedly installed at the upper right end of the cylinder seat 75, the output shaft is movably penetrates through the cylinder seat 71, one end of the second hinge 73 is fixedly installed at the sealing cover 74a plurality of through holes 74a corresponding to the sealing cover 74a, the number of the forming through holes 74a corresponding grooves are formed at the left end, and are slightly, the sealing cover is fixedly installed at the sealing cover 74a corresponding to the sealing cover is located at the sealing cover, and is located at the right end is slightly opposite to the sealing cover, and is fixedly installed, and is located at the sealing cover and is in a position, and close to the sealing cover is in a position, and is in shape.

By arranging the forming mechanism 7, when the medicine raw material is pushed into the rear end of the bin 62, after the dual-shaft air cylinder 64 stops air release, the second thin air cylinder 75 sucks air, the extrusion head 77 is driven by the extrusion seat 76 to fully extrude the medicine raw material into the forming through hole 74a, the medicine raw material is extruded and formed, and then the second thin air cylinder 75 discharges air to drive the extrusion head 77 to reset downwards.

Referring to fig. 5, the medicine removing mechanism 8 is configured to push a formed medicine onto the air-cooled medicine discharging device 9 from the forming through hole 74a, and comprises a mounting plate 81, a baffle plate 82, a clamping groove 82a, a sliding table cylinder 83, and an abutting column 84, wherein the mounting plate 81 is vertically mounted on the bin cover 68, is adjacent to the sealing seat 78, and extends to a position right above the air-cooled medicine discharging device 9, the baffle plate 82 is vertically and fixedly mounted at the left end of the mounting plate 81, the clamping groove 82a is arranged at the lower edge, the clamping groove 82a is opposite to and matched with the forming template 74, during the medicine removing process, the left end of the forming template 74 is clamped and connected, deformation and bending of the forming template 74 caused by punching of the abutting column 84 in a cantilever state are avoided, the sliding table cylinder 83 is fixedly mounted in front of the mounting plate 81, and is in a deflation state right above the air-cooled medicine discharging device 9, a plurality of abutting columns 84 are vertically and fixedly mounted at the output ends of the sliding table cylinder 83 in number and outer diameter, and are all matched with the forming through hole 74a, and the bottom end of the forming template is higher than the top surface of the forming template 74 in an initial state, and is used for ejecting the medicine from the forming template 74a through hole.

By arranging the medicine removing mechanism 8, when the extrusion head 77 fully extrudes medicine raw materials into the forming through hole 74a, the first thin air cylinder 72 sucks air to push the forming template 74 horizontally leftwards, the front end of the forming template 74 enters the clamping groove 82a, at the moment, the forming through hole 74a is just opposite to the resisting column 84, then the sliding table air cylinder 83 sucks air to drive the resisting column 84 to move downwards, medicine is ejected from the forming through hole 74a to slide on the air-cooled medicine unloading device 9, then the sliding table air cylinder 83 discharges air to drive the resisting column 84 to reset, and the first thin air cylinder 72 discharges air to drive the forming template 74 horizontally rightwards to move to reset.

Referring to fig. 1, the air-cooling medicine unloading device 9 is configured to convey a formed medicine to a next process after being air-cooled, and includes a conveying belt 91, a fan 92, and a right-angle gear motor 93, where the conveying belt 91 is horizontally and fixedly mounted on the cabinet 1, a plurality of fans 92 are obliquely disposed above the conveying belt 91, the right-angle gear motor 93 is fixedly mounted on the left side of the conveying belt 91, and an output shaft is in transmission connection with the conveying belt 91.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present utility model may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. An automatic pill forming machine comprising a cabinet (1), characterized in that: the automatic medicine discharging device is characterized in that an electric cabinet (2), an air source station (3), a controller (4), a feeder (5), a pushing mechanism (6), a forming mechanism (7), a medicine discharging mechanism (8) and an air cooling medicine discharging device (9) are arranged on the cabinet (1), the controller (4) is arranged on the cabinet (1) and is in communication connection with the electric cabinet (2), the air source station (3), the pushing mechanism (6), the forming mechanism (7) and the medicine discharging mechanism (8), the feeder (5) is fixedly arranged right above the pushing mechanism (6), the pushing mechanism (6) is fixedly arranged on the top surface of the cabinet (1), the forming mechanism (7) is fixedly arranged on the cabinet (1) and is fixedly connected with the rear end of the pushing mechanism (6) and the air cooling medicine discharging device (9) respectively, the medicine discharging mechanism (8) is fixedly arranged on the pushing mechanism (6), the left end of the cabinet is directly above the air cooling medicine discharging device (9) and is opposite to the forming mechanism (7), and the air cooling device (9) is fixedly arranged on the cabinet (1);

the pushing mechanism (6) comprises a support plate (61), a bin (62), a second PCT heating plate (63), a double-shaft air cylinder (64), a first hinge (65), an S-shaped pressure sensor (66), a push plate (67), a bin cover (68) and a sleeve joint (68 a), wherein the pair of support plates (61) are vertically and oppositely arranged on a cabinet (1), the bin (62) is fixedly arranged between the upper parts of the pair of support plates (61), the second PCT heating plate (63) is fixedly arranged on the bottom surface of the bin (62), the double-shaft air cylinder (64) is fixedly arranged between the pair of support plates (61), the output shaft is horizontally and forwards connected with an air source station (3) through a pipeline, the first hinge (65) is fixedly connected with the output shaft of the double-shaft air cylinder (64), the S-shaped pressure sensor (66) is fixedly connected with the vertical section of the first hinge (65), the double-shaft air cylinder (64) is arranged right above the horizontal section of the first hinge (61), the double-shaft air cylinder (64) is fixedly connected with the push plate (62) at the front end of the feed bin (62) in a sliding mode, the double-shaft air cylinder (64) is arranged at the front end of the feed mechanism (62), the front end is aligned with the front end of the storage bin (62), the rear end is provided with an opening with the rear end of the storage bin (62), and the middle part is provided with a sleeve joint (68 a).

2. An automatic pill forming machine according to claim 1, wherein: the utility model provides a throw material ware (5), includes dustcoat (51), throws hopper (52), first PCT heating plate (53), apron (54), bottom plate (55), dustcoat (51) and throw hopper (52) upper end fixed connection, throw hopper (52) setting in dustcoat (51), link up from top to bottom, lower part and bottom plate (55) activity are cup jointed the back and are downwards outstanding, except the back bottom, other trilateral shrink inclined plane (52 a) that are equipped with oblique decurrent, three sets of first PCT heating plate (53) are fixed to be installed in the bottom surface of corresponding shrink inclined plane (52 a), with electric cabinet (2) electric connection.

3. An automatic pill forming machine according to claim 2, wherein: the outer edge of the lower end of the charging hopper (52) is sleeved with a sleeve joint (68 a).

4. An automatic pill forming machine according to claim 1, wherein: the forming mechanism (7) comprises a cylinder seat (71), a first thin cylinder (72), a second hinge (73), a forming template (74), a second thin cylinder (75), an extrusion seat (76), an extrusion head (77), a sealing seat (78) and a sealing cover (79), wherein the cylinder seat (71) is vertically arranged on a cabinet (1) and is arranged outside the front end of a right support plate (61), the first thin cylinder (72) is horizontally and fixedly arranged at the upper right end of the cylinder seat (71), the output shaft movably penetrates through the cylinder seat (71), one end of the second hinge (73) is in threaded connection with the output end of the first thin cylinder (72), the forming template (74) is horizontally and slidably arranged between the sealing seat (78) and the sealing cover (79), the right end of the second hinge (73) is fixedly connected with the second hinge (73), a plurality of forming through holes (74 a) are formed in the left section, the second thin cylinder (75) is fixedly arranged on the top surface of the cabinet (1), the extrusion seat (76) is fixedly connected with the output shaft of the second thin cylinder (75) at the outer diameter of the same as the extrusion seat (74 a), the extrusion head (77) is fixedly arranged on the outer diameter of the cabinet (74 a) and the outer diameter of the sealing seat (74) is slightly equal to the number of the forming through holes (74 a), is adjacent to the rear end of the bin cover (68) and is directly communicated with the bin (62), the sealing cover (79) is fixedly arranged on the sealing seat (78), and the lower end is provided with a groove for the penetration of the forming template (74).

5. An automatic pill forming machine according to claim 4, wherein: the utility model provides a take off medicine mechanism (8), includes mounting panel (81), baffle (82), draw-in groove (82 a), slip table cylinder (83), supports and takes off post (84), mounting panel (81) are vertical installs on feed bin lid (68), are adjacent with sealing seat (78), and extend to forced air cooling and unload medicine device (9) directly over, the left end at mounting panel (81) is installed to vertical fixed of baffle (82), and the lower limb is equipped with draw-in groove (82 a), draw-in groove (82 a) and shaping template (74) are in opposite directions and match, slip table cylinder (83) are fixed to be installed in the front side of mounting panel (81), and directly over forced air cooling unloads medicine device (9), a plurality of support and take off post (84) are vertical downward fixed to be installed in the output of slip table cylinder (83), external diameter, quantity all match with shaping through-hole (74 a).

6. An automatic pill forming machine according to claim 1, wherein: the air-cooled medicine discharging device (9) comprises a conveying belt (91), a fan (92) and a right-angle speed reducing motor (93), wherein the conveying belt (91) is horizontally and fixedly arranged on a cabinet (1), a plurality of fans (92) are obliquely arranged on the conveying belt (91), the right-angle speed reducing motor (93) is fixedly arranged on the left side of the conveying belt (91), and an output shaft is in transmission connection with the conveying belt (91).