CN215704392U - Forming device for solid medicine - Google Patents

Abstract

The utility model relates to the technical field of medical machinery, in particular to a forming device for solid medicines, which comprises a feeding box, a die holder, a blanking plate, a crushing assembly, a material guiding assembly, a material pushing assembly and a die assembly, wherein the feeding box is arranged at the top of the die holder and is communicated with the interior of the die holder, the crushing assembly and the material guiding assembly are arranged in the feeding box at intervals from top to bottom, the material pushing assembly and the die assembly are arranged in the die holder at intervals, the blanking plate is arranged on the side wall of the die holder, and the blanking plate is arranged in an inclined manner. The utility model has the advantages that: through crushing unit, guide subassembly, the setting of pushing away material subassembly and moulding-die assembly, can add powder automatically, make the powder of medicine add evenly simultaneously, improved pharmaceutical efficiency.

Description

Forming device for solid medicine

Technical Field

The utility model relates to the technical field of medical machinery, in particular to a forming device for solid medicines.

Background

Tablets are common articles in life and are generally prepared by a tabletting method. When tabletting, the medicinal powder is firstly placed in a forming die which is generally a round hole or a square hole, then a punch of an upper die moves downwards and presses the raw material powder into a sheet shape or a ring shape together with the punch on a lower die, and finally the punch on the lower die pushes the pressed tablet out of the forming hole, thus completing the sequential tabletting process; however, the existing medicine forming machine usually adopts a method of manually adding medicine powder, so that the pharmaceutical efficiency is greatly reduced, the working strength of workers is also increased, and meanwhile, the problems of uneven medicine powder addition and inaccurate medicine quantity addition are caused because the medicine powder needs to be manually added into the forming holes.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects that in the prior art, a method for manually adding medicinal powder is usually adopted by a medicine forming machine, the pharmaceutical efficiency is greatly reduced, the working strength of workers is increased, and meanwhile, the medicinal powder is required to be manually added into a forming hole, so that the medicinal powder is not uniformly added, and the medicine dose cannot be accurately added, and provides a forming device for solid medicines.

The purpose of the utility model is realized by the following technical scheme: the utility model provides a forming device for solid medicine, includes material loading case, die holder, flitch down, crushing unit, guide subassembly, pushes away material subassembly and moulding-die subassembly, the material loading case sets up at the top of die holder, and the inside of material loading case and die holder is linked together, crushing unit sets up in the material loading case with the guide subassembly at the interval about being, it is the interval setting in the die holder with moulding-die subassembly to push away the material subassembly, the flitch sets up on the lateral wall of die holder down, and the flitch is the slope setting down.

Preferably, crushing unit includes material loading frame, crushing motor, grinding piece and two crushing rollers, grind the piece and set up in the material loading case, the material loading frame sets up the top at the material loading case, and the bottom of material loading frame runs through the material loading case and grind the piece and be linked together, two crushing roller all rotates and sets up in the material loading frame, and two crushing roller mesh mutually, crushing motor sets up on the lateral wall of material loading frame, and crushing motor's output runs through material loading frame and one crushing roller fixed connection, the top of material loading frame is the slope setting.

Preferably, the grinding piece comprises a grinding frame, a bracket, a material guide cover, a rotating motor, a grinding disc, a filter screen and a material guide pipe, the grinding frame is arranged on the inner wall of the feeding box, the bottom of the feeding frame is communicated with the top of the grinding frame, the bracket is arranged in a concave structure, two ends of the bracket are fixedly connected with the inner top wall of the grinding frame, the material guide cover is arranged at the top of the bracket, and the rotating motor is positioned in the material guide cover, the rotating motor is arranged at the top of the bracket, the output end of the rotating motor penetrates through the top of the bracket and is fixedly connected with the top of the grinding disc, the filter screen is positioned below the grinding disc, two ends of the filter screen are fixedly connected with the inner walls of two sides of the grinding frame, and the two ends of the top of the filter screen are provided with the material guide blocks which are symmetrically arranged, the material guide pipes are arranged at the bottom of the grinding frame, and the top of the material guide pipes is communicated with the bottom of the grinding frame.

Preferably, the guide assembly comprises a stacking frame, a fixed plate, a rotating motor, a disc, a striker plate, a fixed cylinder, a spring, a jacking circular cover and a guide block, the diameter length of the stacking frame is smaller than the inner diameter length of the feeding box, the stacking frame is positioned below the guide pipe, one side wall of the stacking frame is fixedly connected with the inner side wall of the feeding box, the other side wall of the stacking frame is obliquely arranged, two ends of the fixed plate are respectively fixedly connected with two inner side walls of the stacking frame, the rotating motor is arranged at the top of the fixed plate, the disc is positioned below the fixed plate, the output end of the rotating motor penetrates through the fixed plate and is fixedly connected with the disc, four convex blocks which are arranged at equal angles along the circumferential direction are arranged on the outer wall of the disc, the fixed cylinder is horizontally arranged on the inner side wall of the stacking frame, the jacking circular cover is sleeved on the fixed cylinder, and the top moves the dome and a lug is inconsistent, the spring is located the top and moves the dome fixed connection in, and the both ends of spring move dome fixed connection with fixed cylinder and top respectively, the striker plate is located the bottom of windrow frame, and the lateral wall of striker plate and the inner wall of last workbin laminate mutually, the interior bottom wall mounting of windrow frame has the guide block that slides the setting, and the bottom of guide block runs through windrow frame and striker plate fixed connection, dome fixed connection is moved on the top and the top of guide block, the guide block sets up on the interior diapire of last workbin, and the guide block is the slope setting.

Preferably, the material pushing assembly comprises a fixed seat, an electric cylinder and a material pushing plate, the fixed seat is arranged on the inner bottom wall of the die holder, the material pushing plate is located on the fixed seat, the electric cylinder is arranged on the outer wall of the die holder, the output end of the electric cylinder penetrates through the die holder and is fixedly connected with the material pushing plate, and a plurality of material distributing heads which are arranged at equal intervals are arranged on the side wall of the material pushing plate.

Preferably, the die assembly comprises a die base, a sliding plate, a handle, a lower pressing cylinder, a lower pressing plate, a jacking cylinder, a jacking plate and Jiong shaping plates, the die base is arranged on the inner bottom wall of the die base, the side wall of the die base is attached to the side wall of the fixed base, the sliding plate is slidably arranged on the side wall of the die base, the side wall of the sliding plate penetrates through the die base and extends outwards, the handle is arranged on the side wall of the sliding plate and is positioned above the lower material plate, a plurality of die holes are formed in the top of the die base and the top of the sliding plate at equal intervals, the lower pressing plate is positioned above the die base, the lower pressing cylinder is arranged at the top of the die base, the output end of the lower pressing cylinder penetrates through the die base and is fixedly connected with the lower pressing plate, Jiong is arranged at the bottom of the die base, the jacking plate is positioned in Jiong, the jacking cylinder is arranged at the bottom of Jiong shaping plates, and the output end of the jacking cylinder penetrates through the Jiong shaping plate and is fixedly connected with the jacking plate, a plurality of die punching columns which are matched with the plurality of die punching holes in an inserting manner are arranged on the lower pressing plate and the jacking plate, and the plurality of die punching columns on the jacking plate penetrate through the die punching seats and extend towards the insides of the die punching seats.

The utility model has the following advantages:

firstly, falling powdery medicinal materials can slide down to the material baffle plate along the outer wall of the material piling frame, after a proper amount of the powdery medicinal materials are piled up on the material baffle plate, the rotating motor drives the disc to rotate, so that the lug and the jacking circular cover are staggered, under the elastic potential energy of the spring, the jacking circular cover is pushed to move towards the disc direction, the guide block is driven to move with the material baffle plate, so that the material baffle plate and the inner wall of the material loading box form an opening, the powdery medicinal materials piled up on the material baffle plate can slide into the material loading box through the guide block, subsequent steps are carried out, after a proper amount of the powdery medicinal materials slide in the material loading box, the rotating motor drives the disc to rotate again, the lug is enabled to be abutted against the jacking circular cover, the spring is compressed, the guide block and the material baffle plate are driven to move, the material baffle plate is enabled to be jointed with the inner wall of the material loading box again, the quantity control work of the powdery medicinal materials is stopped, and the medicine powder can be automatically added into the material loading box, the labor intensity is reduced.

Secondly, the powdery medicinal materials fall into the die holder and are accumulated on the fixed seat, when the powdery medicinal materials fall down completely, the electric cylinder pushes the material pushing plate to move, the material pushing plate pushes the powdery medicinal materials to move, so that the powdery medicinal materials are moved to the die holder and fall into the plurality of die holes, the powdery medicinal materials can be concentrated in batches through the arrangement of the plurality of material distributing heads on the material pushing plate, the powdery medicinal materials are prevented from staying between the die holes and the adjacent die holes, after the medicinal materials are filled in the plurality of die holes, the lower pressing cylinder and the jacking cylinder simultaneously drive the lower pressing plate and the jacking plate to drive the plurality of die posts to move into the plurality of die holes, so that the powdery medicinal materials in the plurality of die holes are pressed into tablets, then the lower pressing plate and the jacking plate are respectively far away from the die holder, the tablets in the die holes stay on the die posts on the jacking plate and are positioned in the sliding plate, the handle is pulled to drive the sliding plate to move, when the die hole on the sliding plate is separated from the die seat, the tablet in the hole of the sliding plate can fall onto the blanking plate, the blanking work of the tablet is completed, and the pharmaceutical efficiency is improved.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic cross-sectional view of the three-dimensional structure of the present invention;

FIG. 3 is a schematic perspective view of a portion of the shredder assembly of the present invention;

FIG. 4 is a schematic sectional view of a portion of the size reduction assembly of the present invention in a perspective view;

FIG. 5 is an exploded perspective view of the material guiding assembly of the present invention;

FIG. 6 is an exploded perspective view of the pusher assembly and the die assembly of the present invention.

In the figure: 1-feeding box, 2-die holder, 3-discharging plate, 4-crushing component, 41-feeding frame, 42-crushing motor, 43-grinding piece, 431-grinding frame, 432-bracket, 433-guide cover, 434-rotating motor, 435-grinding disc, 436-filter screen, 437-guide pipe, 438-guide block, 44-grinding roller, 5-guide component, 51-stacking frame, 52-fixing plate, 53-rotating motor, 54-disc, 55-guide plate, 56-fixing cylinder, 57-spring, 58-pushing circular cover, 59-guide block, 510-lug, 511-guide block, 6-pushing component, 61-fixing seat, 62-electric cylinder, 63-pushing plate, 64-material distributing head, 7-die assembly, 71-die base, 72-sliding plate, 73-handle, 74-lower pressing cylinder, 75-lower pressing plate, 76-jacking cylinder, 77-jacking plate, 78-Jiong shaping plate, 79-die hole and 710-die column.

Detailed Description

The utility model will be further described with reference to the accompanying drawings, but the scope of the utility model is not limited to the following.

As shown in fig. 1 to 6, a molding device for solid drugs comprises a feeding box 1, a die holder 2, a blanking plate 3, a crushing assembly 4, a material guiding assembly 5, a material pushing assembly 6 and a die assembly 7, wherein the feeding box 1 is arranged at the top of the die holder 2, the feeding box 1 is communicated with the inside of the die holder 2, the crushing assembly 4 and the material guiding assembly 5 are arranged in the feeding box 1 at an upper-lower interval, the material pushing assembly 6 and the die assembly 7 are arranged in the die holder 2 at an interval, the blanking plate 3 is arranged on the side wall of the die holder 2, and the blanking plate 3 is arranged in an inclined manner.

Specifically, the crushing assembly 4 comprises a feeding frame 41, a crushing motor 42, a grinding part 43 and two crushing rollers 44, the grinding part 43 is arranged in the feeding box 1, the feeding frame 41 is arranged at the top of the feeding box 1, the bottom of the feeding frame 41 penetrates through the feeding box 1 and is communicated with the grinding part 43, the two crushing rollers 44 are all rotatably arranged in the feeding frame 41 and are meshed with each other, the crushing motor 42 is arranged on the side wall of the feeding frame 41, the output end of the crushing motor 42 penetrates through the feeding frame 41 and is fixedly connected with one crushing roller 44, the top of the feeding frame 41 is obliquely arranged, solid medicinal materials are placed in the feeding frame 41, the crushing motor 42 drives one crushing roller 44 to rotate, and through the meshed arrangement of the two crushing rollers 44, the other crushing roller 44 synchronously rotates oppositely, so that the medicinal materials in the feeding frame 41 are preliminarily crushed, and the medicine is dropped into the grinding member 43 for the subsequent steps.

Specifically, the grinding member 43 includes a grinding frame 431, a support 432, a material guide cover 433, a rotating motor 434, a grinding disc 435, a filter screen 436 and a material guide pipe 437, the grinding frame 431 is installed on the inner wall of the feeding box 1, the bottom of the feeding frame 41 is communicated with the top of the grinding frame 431, the support 432 is arranged in a concave structure, two ends of the support 432 are fixedly connected with the inner top wall of the grinding frame 431, the material guide cover 433 is installed on the top of the support 432, the rotating motor 434 is located in the material guide cover 433, the rotating motor 434 is installed on the top of the support 432, the output end of the rotating motor 434 penetrates through the top of the support 432 and the top of the grinding disc 435, the filter screen 436 is located below the grinding disc 435, two ends of the filter screen 436 are fixedly connected with the inner walls on two sides of the grinding frame 431, and material guide blocks 438 which are symmetrically arranged are installed at two ends of the top of the filter screen 436, guide tube 437 is installed in the bottom of grinding frame 431, and the top of guide tube 437 is linked together with the bottom of grinding frame 431, and when preliminary kibbling medicinal material dropped in last workbin 1, can slide to filter screen 436 through the outer wall of guide cover 433 and two guide blocks 438, and rotating electrical machines 434 drive mill 435 was rotatory, grinds the medicinal material to on the filter screen 436 and grinds into powder, and later likepowder medicinal material can drop downwards through filter screen 436 and guide tube 437, carries out subsequent step.

Specifically, the material guiding assembly 5 includes a material stacking frame 51, a fixing plate 52, a rotating motor 53, a disc 54, a material blocking plate 55, a fixing cylinder 56, a spring 57, a top moving circular cover 58 and a material guiding block 59, wherein the diameter length of the material stacking frame 51 is smaller than the inner diameter length of the material feeding box 1, the material stacking frame 51 is located below the material guiding pipe 437, one side wall of the material stacking frame 51 is fixedly connected with the inner side wall of the material feeding box 1, the other side wall of the material stacking frame 51 is obliquely arranged, two ends of the fixing plate 52 are respectively fixedly connected with two inner side walls of the material stacking frame 51, the rotating motor 53 is installed at the top of the fixing plate 52, the disc 54 is located below the fixing plate 52, an output end of the rotating motor 53 penetrates through the fixing plate 52 and the disc 54, four convex blocks 510 which are arranged at equal angles along the circumferential direction of the disc 54 are arranged on the outer wall of the disc 54, the fixing cylinder 56 is horizontally arranged on the inner side wall of the material stacking frame 51, the top moving circular cover 58 is sleeved on the fixed cylinder 56, the top moving circular cover 58 is abutted against a bump 510, the spring 57 is located in the top moving circular cover 58, two ends of the spring 57 are respectively fixedly connected with the fixed cylinder 56 and the top moving circular cover 58, the striker plate 55 is located at the bottom of the material stacking frame 51, the side wall of the striker plate 55 is attached to the inner wall of the material loading box 1, a guide block 511 which is arranged in a sliding mode is installed on the inner bottom wall of the material stacking frame 51, the bottom of the guide block 511 penetrates through the material stacking frame 51 and is fixedly connected with the striker plate 55, the top of the guide block 511 is fixedly connected with the top moving circular cover 58, the guide block 59 is arranged on the inner bottom wall of the material loading box 1, the guide block 59 is arranged in an inclined mode, falling powdery medicinal materials can slide onto the striker plate 55 along the outer wall of the material stacking frame 51, and after a proper amount of the powdery medicinal materials are accumulated on the striker plate 55, the motor 53 is rotated to drive the disc 54 to rotate, make lug 510 stagger with top move dome 58, under the elastic potential energy of spring 57, promote top move dome 58 and move to disc 54 direction, drive guide block 511 and striker plate 55 and remove, make striker plate 55 and the inner wall of last workbin 1 form the opening, thereby make the powdery medicinal material of piling up on striker plate 55 can slide to die holder 2 in through guide block 59, carry out subsequent step, after the landing has the appropriate amount of powdery medicinal material in die holder 2, rotation motor 53 goes drive disc 54 to rotate again, make lug 510 and top move dome 58 inconsistent, and compression spring 57, drive guide block 511 and striker plate 55 and remove, make striker plate 55 laminate with last workbin 1 inner wall once more, stop the blanking, realized the accuse volume work to powdery medicinal material.

Specifically, the pushing assembly 6 includes a fixing seat 61, an electric cylinder 62 and a pushing plate 63, the fixing seat 61 is disposed on the inner bottom wall of the die holder 2, the pushing plate 63 is located on the fixing seat 61, the electric cylinder 62 is disposed on the outer wall of the die holder 2, the output end of the electric cylinder 62 penetrates through the die holder 2 and the pushing plate 63 to be fixedly connected, a plurality of distributing heads 64 arranged at equal intervals are mounted on the side wall of the pushing plate 63, the powdery medicinal material falls into the die holder 2 and can be accumulated on the fixing seat 61, and after the powdery medicinal material falls down completely, the electric cylinder 62 pushes the pushing plate 63 to move, so that the pushing plate 63 pushes the powdery medicinal material to the die assembly 7.

Specifically, the die assembly 7 includes a die base 71, a sliding plate 72, a handle 73, a lower pressing cylinder 74, a lower pressing plate 75, a jacking cylinder 76, a jacking plate 77, a lifting plate 20866and a template 78, the die base 71 is disposed on the inner bottom wall of the die base 2, the side wall of the die base 71 is attached to the side wall of the fixed base 61, the sliding plate 72 is slidably disposed on the side wall of the die base 71, the side wall of the sliding plate 72 penetrates through the die base 2 and extends outward, the handle 73 is disposed on the side wall of the sliding plate 72, the handle 73 is disposed above the lower plate 3, a plurality of die holes 79 are disposed at equal intervals on the top of the die base 71 and the sliding plate 72, the lower pressing plate 75 is disposed above the die base 71, the lower pressing cylinder 74 is disposed on the top of the die base 2, the output end of the lower pressing cylinder 74 penetrates through the die base 2 and is fixedly connected to the lower pressing plate 75, the Jiong is disposed on the bottom of the die base 2, the jacking plate 77 is positioned in the Jiong template 78, the jacking cylinder 76 is arranged at the bottom of the 20866;, the output end of the jacking cylinder 76 penetrates Jiong the template 78 and is fixedly connected with the jacking plate 77, the lower pressing plate 75 and the jacking plate 77 are both provided with a plurality of stamping columns 710 which are in inserted fit with the plurality of stamping holes 79, the plurality of stamping columns 710 on the jacking plate 77 penetrate through the stamping die holder 2 and extend towards the interior of the stamping die holder, the material pushing plate 63 pushes the powdery medicinal material to move, so that the powdery medicinal material moves to the die holder 71 and falls into the plurality of stamping holes 79, the powdery medicinal material can be concentrated in batches by the arrangement of the plurality of material distributing heads 64 on the material pushing plate 63, the powdery medicinal material is prevented from staying between the stamping holes 79 and the adjacent stamping holes 79, after the plurality of stamping holes 79 are filled with the medicinal material, the lower pressing cylinder 74 and the jacking cylinder 76 simultaneously drive the lower pressing plate 75 and the jacking plate 77 to drive the plurality of stamping columns 710 to move towards the plurality of stamping holes 79, the powder medicinal materials in the punching holes 79 are pressed into tablets, then the lower pressing plate 75 and the jacking plate 77 are respectively far away from the punching die holder 2, the tablets in the punching holes 79 can stay on the punching posts 710 on the jacking plate 77 and are located in the sliding plate 72, the handle 73 is pulled to enable the sliding plate 72 to drive the tablets to move, when the punching holes 79 in the sliding plate 72 are separated from the punching die holder 2, the tablets in the holes of the sliding plate 72 can fall onto the blanking plate 3, the blanking work of the tablets is completed, the labor amount is reduced, and the pharmaceutical efficiency is improved.

The working process of the utility model is as follows: putting solid medicinal materials into the material loading frame 41, the grinding motor 42 drives one grinding roller 44 to rotate, and through the meshed arrangement of the two grinding rollers 44, the other grinding roller 44 synchronously rotates oppositely to preliminarily grind the medicinal materials in the material loading frame 41 and make the medicinal materials fall into the material loading box 1, when the preliminarily ground medicinal materials fall in the material loading box 1, the medicinal materials can slide to the filter screen 436 through the outer wall of the material guiding cover 433 and the two material guiding blocks 438, the rotary motor 434 drives the grinding disc 435 to rotate, the medicinal materials on the filter screen 436 are ground and ground into powder, the powdery medicinal materials can then fall downwards through the filter screen 436 and the material guiding pipes 437, the falling powdery medicinal materials can slide to the material baffle plate 55 along the outer wall of the material loading frame 51, after a proper amount of powdery medicinal materials are accumulated on the material baffle plate 55, the rotary motor 53 drives the disc 54 to rotate, so that the convex blocks 510 and the top moving circular cover 58 are staggered, under the elastic potential energy of the spring 57, the pushing circular cover 58 is pushed to move towards the direction of the disc 54, the guide block 511 and the striker plate 55 are driven to move, so that the striker plate 55 and the inner wall of the feeding box 1 form an opening, the powdery medicinal material accumulated on the striker plate 55 can slide into the die holder 2 through the guide block 59, the subsequent steps are carried out, when a proper amount of powdery medicinal material slides in the die holder 2, the rotating motor 53 drives the disc 54 to rotate again, the bump 510 is abutted against the pushing circular cover 58 and compresses the spring 57, the guide block 511 and the striker plate 55 are driven to move, the striker plate 55 is attached to the inner wall of the feeding box 1 again, the blanking is stopped, the quantity control work of the powdery medicinal material is realized, the powdery medicinal material falls into the die holder 2 and is accumulated on the fixed seat 61, when the powdery medicinal material completely falls down, the electric cylinder 62 pushes the pusher plate 63 to move, and the pusher plate 63 pushes the powdery medicinal material to move, the powdery medicinal material is moved to the die base 71 and falls into the plurality of die holes 79, the powdery medicinal material can be concentrated in batches by the arrangement of the plurality of distributing heads 64 on the material pushing plate 63, the powdery medicinal material is prevented from staying between the die holes 79 and the adjacent die holes 79, after the medicinal material is filled in the plurality of die holes 79, the lower pressing cylinder 74 and the jacking cylinder 76 simultaneously drive the lower pressing plate 75 and the jacking plate 77 to drive the plurality of die posts 710 to move towards the plurality of die holes 79, so that the powdery medicinal material in the plurality of die holes 79 is pressed into tablets, then the lower pressing plate 75 and the jacking plate 77 are respectively far away from the die base 2, the tablets in the die holes 79 stay on the die posts 710 on the jacking plate 77 and are positioned in the sliding plate 72, the handle 73 is pulled to drive the sliding plate 72 to move with the tablets, and when the die holes 79 on the sliding plate 72 are separated from the die base 2, the tablets in the holes 72 can fall onto the blanking plate 3, and finishing the blanking work of the tablets.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. A solid is forming device for medicine which characterized in that: including last workbin (1), die holder (2), unloading board (3), crushing unit (4), guide subassembly (5), push away material subassembly (6) and moulding-die subassembly (7), it sets up at the top of die holder (2) to go up workbin (1), and goes up workbin (1) and the inside of die holder (2) and be linked together, crushing unit (4) and guide subassembly (5) are interval setting about in last workbin (1), it is the interval setting in die holder (2) to push away material subassembly (6) and moulding-die subassembly (7), flitch (3) set up on the lateral wall of die holder (2) down, and flitch (3) are the slope setting down.

2. The molding apparatus for solid medicine as set forth in claim 1, wherein: crushing unit (4) are including material loading frame (41), crushing motor (42), grinding (43) and two crushing roller (44), grinding (43) set up in last workbin (1), material loading frame (41) sets up the top in last workbin (1), and the bottom of material loading frame (41) runs through material loading frame (1) and is linked together with grinding (43), two crushing roller (44) all rotate and set up in material loading frame (41), and two crushing roller (44) mesh mutually, crushing motor (42) set up on the lateral wall of material loading frame (41), and the output of crushing motor (42) runs through material loading frame (41) and one crushing roller (44) fixed connection, the top of material loading frame (41) is the slope setting.

3. The molding apparatus for solid medicine as set forth in claim 2, wherein: the grinding piece (43) comprises a grinding frame (431), a support (432), a material guide cover (433), a rotating motor (434), a grinding disc (435), a filter screen (436) and a material guide pipe (437), wherein the grinding frame (431) is installed on the inner wall of the feeding box (1), the bottom of the feeding frame (41) is communicated with the top of the grinding frame (431), the support (432) is arranged in a concave structure, two ends of the support (432) are fixedly connected with the inner top wall of the grinding frame (431), the material guide cover (433) is installed at the top of the support (432), the rotating motor (434) is positioned in the material guide cover (433), the rotating motor (434) is installed at the top of the support (432), the output end of the rotating motor (434) penetrates through the top of the support (432) and is fixedly connected with the top of the grinding disc (435), the filter screen (436) is positioned below the grinding disc (435), the both ends of filter screen (436) and the both sides inner wall fixed connection who grinds frame (431), and the both ends at filter screen (436) top install and be the guide block (438) of symmetry setting, install the bottom at grinding frame (431) guide pipe (437), and the top of guide pipe (437) and the bottom of grinding frame (431) are linked together.

4. The molding apparatus for solid medicine as set forth in claim 1, wherein: the material guiding assembly (5) comprises a material stacking frame (51), a fixing plate (52), a rotating motor (53), a disc (54), a material baffle plate (55), a fixed cylinder (56), a spring (57), a top moving circular cover (58) and a material guiding block (59), wherein the diameter length of the material stacking frame (51) is smaller than the inner diameter length of the upper material box (1), the material stacking frame (51) is positioned below a material guiding pipe (437), one side wall of the material stacking frame (51) is fixedly connected with the inner side wall of the upper material box (1), the other side wall of the material stacking frame (51) is obliquely arranged, two ends of the fixing plate (52) are respectively fixedly connected with two inner side walls of the material stacking frame (51), the rotating motor (53) is arranged at the top of the fixing plate (52), the disc (54) is positioned below the fixing plate (52), the output end of the rotating motor (53) penetrates through the fixing plate (52) and is fixedly connected with the disc (54), be equipped with four lugs (510) that angle setting such as its circumference was followed on the outer wall of disc (54), stationary cylinder (56) are the level form and set up on the inside wall of windrow frame (51), the top is moved dome (58) cover and is established on stationary cylinder (56), and the top moves dome (58) and offsets with a lug (510), spring (57) are located the top and move dome (58) in, and the both ends of spring (57) move dome (58) fixed connection with stationary cylinder (56) and top respectively, striker plate (55) are located the bottom of windrow frame (51), and the lateral wall of striker plate (55) is laminated with the inner wall of last workbin (1) mutually, install guide block (511) that slide to set up on the inner bottom wall of windrow frame (51), and the bottom of guide block (511) runs through windrow frame (51) and striker plate (55) fixed connection, the top and the top of guide block (511) move dome (58) fixed connection, the material guiding block (59) is arranged on the inner bottom wall of the material loading box (1), and the material guiding block (59) is obliquely arranged.

5. The molding apparatus for solid medicine as set forth in claim 1, wherein: the material pushing assembly (6) comprises a fixing seat (61), an electric cylinder (62) and a material pushing plate (63), the fixing seat (61) is arranged on the inner bottom wall of the die holder (2), the material pushing plate (63) is located on the fixing seat (61), the electric cylinder (62) is arranged on the outer wall of the die holder (2), the output end of the electric cylinder (62) penetrates through the die holder (2) and the material pushing plate (63) and is fixedly connected with the output end of the electric cylinder (62), and a plurality of material distributing heads (64) which are arranged at equal intervals are installed on the side wall of the material pushing plate (63).

6. The molding apparatus for solid medicine as set forth in claim 5, wherein: the die assembly (7) comprises a die base (71), a sliding plate (72), a handle (73), a lower pressing cylinder (74), a lower pressing plate (75), a jacking cylinder (76), a jacking plate (77) and a 20866and a template (78), wherein the die base (71) is arranged on the inner bottom wall of the die base (2), the side wall of the die base (71) is attached to the side wall of the fixed base (61), the sliding plate (72) is arranged on the side wall of the die base (71) in a sliding mode, the side wall of the sliding plate (72) penetrates through the die base (2) and extends outwards, the handle (73) is arranged on the side wall of the sliding plate (72), the handle (73) is arranged above the lower material plate (3), a plurality of die holes (79) which are arranged at equal intervals are formed in the tops of the die base (71) and the sliding plate (72), and the lower pressing plate (75) is arranged above the die base (71), the utility model discloses a set up at the top of die holder (2) down air cylinder (74), and the output of air cylinder (74) runs through die holder (2) and holding down plate (75) fixed connection down, Jiong template (78) set up the bottom at die holder (2) down, jacking plate (77) are located Jiong template (78), jacking cylinder (76) set up the bottom at Jiong template (78), and the output of jacking cylinder (76) runs through Jiong template (78) and jacking plate (77) fixed connection, all be equipped with on holding down plate (75) and jacking plate (77) with a plurality of die holes (79) a plurality of die post (710) of grafting complex mutually, and a plurality of die post (710) on jacking plate (77) all run through die holder (2) and extend to its inside.

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