CN114870721A - Production process and automatic production equipment of antipruritic medicine - Google Patents

Abstract

The invention discloses a production process and automatic production equipment of an antipruritic drug, which comprise a general frame, a water phase heating pot, an oil phase heating pot, a mixing tank, a stirring mutual dissolver and an emulsifying machine, wherein the water phase heating pot and the oil phase heating pot are respectively provided with an independent shaking structure, the end parts of the water phase heating pot and the oil phase heating pot are respectively provided with a sealing structure, the upper end parts of the water phase heating pot, the oil phase heating pot and the general frame are provided with auxiliary structures, the water phase heating pot and the oil phase heating pot are respectively communicated with the mixing tank through a connecting component, the mixing tank is provided with a bearing frame, the bearing frame is provided with a moving structure, and the stirring mutual dissolver is positioned at one side of the general frame. Thereby achieving maximum mixing.

Description

Production process and automatic production equipment of antipruritic medicine

Technical Field

The invention relates to the field of medicine processing equipment, in particular to a production process and automatic production equipment of an antipruritic medicine.

Background

The antipruritic medicine is CN200410101002.6, and during the preparation process of the medicine, the water phase and the allantoin are heated to 60-100 ℃ in a water pot, the oil phase is heated to 60-100 ℃ in an oil pot, the medicinal oil is stirred to be mutually dissolved, the water phase and the oil phase are mixed and stirred uniformly, the medicinal oil is added to be mixed and stirred uniformly and emulsified, and the product is obtained after cooling to room temperature.

The water phase and the oil phase need to be mixed respectively by continuous manpower in the production process, and then the emulsification of the medicinal oil is carried out, so that a plurality of processing procedures are needed in the process, and the process is troublesome.

Disclosure of Invention

The invention aims to solve the problems and designs a production process and automatic production equipment of an antipruritic medicine.

The technical scheme of the invention is that the production process and the automatic production equipment of the antipruritic medicine comprise the following steps: the device comprises a pair of slide rails, a pair of slide bodies, a connecting seat, a rotary table, a rotary motor, a link rod and a connecting piece;

the pair of sliding rails are oppositely fixed on the general frame, the pair of sliding bodies are movably arranged on the pair of sliding rails, the connecting frame is connected with the pair of sliding bodies, the water phase heating pot is fixed on the connecting seat, the rotary motor is arranged on the outer wall of the general frame and is connected with the rotary table, the connecting piece is connected with the sliding bodies, one end of the connecting rod is connected with the connecting piece through a pin shaft, and the other end of the connecting rod is connected with the rotary table through a pin shaft;

the sealing structure includes: the sealing cover, the pair of fixed air cylinders, the pair of fixing pieces and the plurality of positioning columns;

the bottom of the sealing cover is provided with a sealing ring, the end part of the water phase heating pot is provided with an opening, the sealing cover can be sealed with the opening at the end part of the water phase heating pot, the fixed cylinder is arranged on the outer wall of the sealing cover, the piston end penetrates through the outer wall of the sealing cover and then is connected with the fixing part, the positioning columns are arranged on the outer wall of the fixing part, the outer wall of the water phase heating pot is provided with a plurality of positioning holes, and the positioning columns can be inserted into the positioning holes;

the auxiliary structure includes: the lifting cylinder, the upper connecting ring, the lower connecting ring, the plurality of telescopic rods and the plurality of reset springs;

the bottom of the lifting cylinder is connected with the main frame, the upper connecting ring is connected with the end of the main frame, the lower connecting ring is connected with the outer wall of the sealing cover in a refining mode, the plurality of telescopic rods are located between the upper connecting ring and the lower connecting ring, and the reset spring is sleeved on the telescopic rods.

Preferably, the connection assembly comprises: the pipe body fixing frame, the main telescopic pipe, the two auxiliary telescopic pipes, the two auxiliary connecting pipes, the main connecting pipe and the three-way pipe;

the pipe body fixing frame is arranged on one side of the general frame, the two auxiliary telescopic pipes are respectively communicated with the water phase heating pot and the oil phase heating pot, the other ends of the two auxiliary telescopic pipes are communicated with the two connecting ends of the three-way pipe through the two auxiliary connecting pipes, one end of the main connecting pipe is communicated with the other end of the three-way pipe, and the other end of the main connecting pipe is communicated with the main telescopic pipe.

Preferably, the moving structure comprises: the device comprises a pair of guide rails, a pair of connecting frames, a pair of motors at two ends, a pair of gears, a pair of racks, a discharge pipe, a butt joint sleeve, a butt joint pipe, a propulsion motor and an electromagnetic valve;

the mixing tank is characterized in that the bearing frame is arranged on one side of the general frame, the pair of guide rails are assembled on the bearing frame, the pair of connecting frames are assembled on the pair of guide rails and connected with the mixing tank, the pair of motors at two ends are arranged on the general frame, the gear is connected with the motors at two ends, the pair of racks are fixed on the general tank, and the gear is meshed with the racks;

the discharge pipe is communicated with the bottom of the mixing tank, the butt joint sleeve is communicated with the butt joint pipe, the propulsion motor is arranged on the bearing frame, the telescopic end of the propulsion motor is connected with the butt joint pipe, the electromagnetic valve is arranged on the discharge pipe, and the butt joint pipe is communicated with the feed end of the emulsifying machine.

Preferably, the moving structure comprises: the device comprises a stabilizing frame, a pair of guide rails, a guide seat, a fixing frame, a telescopic channel, a valve body, a pair of lifting motors, a pair of meshing motors, meshing teeth and a pair of meshing columns;

the pair of guide rails are fixed on the stabilizing frame, the guide seat is assembled on the pair of guide rails, the main tank is arranged on the guide seat through the fixing frame, the telescopic channel is communicated with the rear end part of the mixing tank, the valve body is arranged on the telescopic channel, the telescopic channel is communicated with the feeding end of the emulsifying machine, the meshing teeth are arranged at the bottom of the mixing tank, the pair of lifting motors are arranged on the stabilizing frame, the meshing motor is connected with the telescopic end of the lifting motor, external threads are formed in the meshing column, and the meshing column is meshed with the meshing teeth.

Preferably, the bottom of the general frame is provided with a support table.

Preferably, a fixing seat is arranged between the pair of lifting motors and the stabilizing frame.

Preferably, the water phase heating pot and the oil phase heating pot are both rectangular structures.

Preferably, the bottom of the water phase heating pot and the bottom of the oil phase heating pot are both provided with heating components.

Preferably, the left end and the right end of the pair of slide rails are provided with limiting bodies.

A production process of an antipruritic medicine comprises the following steps:

s1, firstly, adding the water-phase raw materials and the oil-phase raw materials into a water-phase heating pot and an oil-phase heating pot;

s2, sealing the water phase heating pot and the oil phase heating pot through a sealing structure;

s3, shaking the water phase heating pot and the oil phase heating pot through a shaking structure, simultaneously heating to 60-100 ℃, and simultaneously carrying out auxiliary shaking by using an auxiliary structure to complete heating and mixing;

s4, adding the medicinal oil into a stirring mutual dissolver for mutual dissolution, and then feeding the medicinal oil, the water-phase raw material and the oil-phase raw material into a mixing tank;

s5, the mixing tank is shaken left and right through the moving structure, so that the water phase, the oil phase and the medicinal oil are fully mixed, and after the mixing is finished, the mixture can enter the emulsifying machine to be emulsified.

According to the technical scheme, the full-automatic heating and mixing structure is adopted, after the raw materials are added into the water phase heating pot and the oil phase heating pot, the water phase heating pot and the oil phase heating pot fully shake the raw materials while heating, so that the raw materials are mixed to the maximum degree, and the full-automatic production and processing mode is adopted, so that the processing efficiency is effectively improved, and the technical problems in the background art are solved.

Drawings

FIG. 1 is a schematic diagram of the structure of the production process and the automated production equipment of the antipruritic according to the present invention;

FIG. 2 is a schematic structural view of the sloshing structure of the present invention;

FIG. 3 is a schematic front view of embodiment 1 of the present invention;

FIG. 4 is a schematic side view of embodiment 1 of the present invention;

FIG. 5 is a schematic side view of embodiment 2 of the present invention;

FIG. 6 is a schematic front view of embodiment 2 of the present invention;

FIG. 7 is a partial schematic view of the sloshing structure of the present invention;

FIG. 8 is a schematic view of the structure of the seal structure of the present invention;

FIG. 9 is a partially enlarged schematic view of the present invention;

in the figure, 1, the general shelf; 2. a water phase heating pot; 3. heating the oil phase in a pot; 4. a mixing tank; 5. stirring the mutual dissolver; 6. an emulsifying machine; 7. a carrier; 8. a slide rail; 9. a slider; 10. a connecting member; 11. a turntable; 12. a rotary motor; 13. a link rod; 14. a connecting member; 15. a sealing cover; 16. fixing the air cylinder; 17. a fixing member; 18. a positioning column; 19. a lifting cylinder; 20. an upper connecting ring; 21. a lower connecting ring; 22. a telescopic rod; 23. a return spring; 24. a pipe body fixing frame; 25. a main telescopic pipe; 26. an auxiliary telescopic pipe; 27. a secondary connecting pipe; 28. a main connection pipe; 29. a three-way pipe; 30. a guide rail; 31. a connecting frame; 32. a two-end motor; 33. a gear; 34. a rack; 35. a discharge pipe; 36. butting sleeves; 37. a propulsion motor; 38. an electromagnetic valve; 39. a guide rail; 40. a guide seat; 41. a fixed mount; 42. a telescoping passageway; 43. a valve body; 44. a lifting motor; 45. engaging the motor; 46. meshing teeth; 47. an engagement post; 48. a support table; 49. a fixed seat; 50. a limiting body; 51. a stabilizer frame; 52. and (4) butting the pipes.

Detailed Description

The invention is described in detail below with reference to the accompanying drawings, which show in fig. 1-9 a process for producing antipruritic drugs and an automated production apparatus.

Example 1

An automatic production device for antipruritic drugs comprises a main frame 1, a water phase heating pot 2, an oil phase heating pot 3, a mixing tank 4, a stirring mutual dissolver 5 and an emulsifying machine 6, wherein the water phase heating pot 2 and the oil phase heating pot 3 are respectively provided with an independent shaking structure, the end parts of the water phase heating pot 2 and the oil phase heating pot 3 are respectively provided with a sealing structure, the upper end parts of the water phase heating pot 2, the oil phase heating pot 3 and the main frame 1 are provided with an auxiliary structure, the water phase heating pot 2 and the oil phase heating pot 3 are both communicated with the mixing tank 4 through a connecting assembly, the mixing tank 4 is provided with a bearing frame 7, the bearing frame 7 is provided with a moving structure, the stirring mutual dissolver 5 is positioned at one side of the main frame 1, and the water phase heating pot 2, the oil phase heating pot 3, the mixing tank 4 and the stirring mutual dissolver 5 are all communicated with the emulsifying machine 6;

it is to be noted that 1, firstly, the water phase raw material and the oil phase raw material are added into a water phase heating pot 2 and an oil phase heating pot 3; 2. then the water phase heating pot 2 and the oil phase heating pot 3 are sealed through a sealing structure; 3. the water phase heating pot 2 and the oil phase heating pot 3 are shaken by a shaking structure, and are simultaneously heated to 60-100 ℃, and an auxiliary structure is utilized to carry out auxiliary shaking to complete heating and mixing; 4. adding the medicinal oil into a stirring mutual dissolver 5 for mutual dissolution, and then feeding the medicinal oil, the water-phase raw material and the oil-phase raw material into a mixing tank 4; 5. and the mixing tank 4 is shaken left and right through the moving structure, so that the water phase, the oil phase and the medicinal oil are fully mixed, and after the mixing is finished, the mixture can enter the emulsifying machine 6 for emulsification.

The shaking structure comprises: a pair of slide rails 8, a pair of slide bodies 9, a connecting seat, a rotary table 11, a rotary motor 12, a link rod 13 and a connecting piece 1410;

the pair of slide rails 8 are relatively fixed on the general frame 1, the pair of slide bodies 9 are movably arranged on the pair of slide rails 8, the connecting frame 31 is connected with the pair of slide bodies 9, the water phase heating pot 2 is fixed on the connecting frame 31, the rotary motor 12 is arranged on the outer wall of the general frame 1 and is connected with the rotary table 11, the connecting piece 1410 is connected with the slide bodies 9, one end of the link rod 13 is connected with the connecting piece 1410 through a pin shaft, and the other end of the link rod is connected with the rotary table 11 through a pin shaft;

it should be noted that, when the rotary motor 12 drives the rotary disk 11, the rotary disk 11 will drive the link rod 13 to move, the link rod 13 will drive the connecting piece 1410 to move up and down, and because the connecting piece 1410 is connected with a pair of sliding bodies 9, the water phase heating pot 2 is connected with the sliding bodies 9, the water phase heating pot 2 can move up and down, thereby realizing heating and mixing of the water phase raw materials in the water phase, and the oil phase heating pot 3 is also equipped with the structure, and the working principle is the same as the above-mentioned working principle;

the seal structure includes: a sealing cover 15, a pair of fixed air cylinders 16, a pair of fixing pieces 17 and a plurality of positioning columns 18;

the bottom of the sealing cover 15 is provided with a sealing ring, the end part of the water phase heating pot 2 is provided with an opening, the sealing cover 15 can be sealed with the opening at the end part of the water phase heating pot 2, the fixed cylinder 16 is arranged on the outer wall of the sealing cover 15, the piston end penetrates through the outer wall of the sealing cover 15 and then is connected with the fixed part 17, the plurality of positioning columns 18 are arranged on the outer wall of the fixed part 17, the outer wall of the water phase heating pot 2 is provided with a plurality of positioning holes, and the positioning columns 18 can be inserted into the positioning holes;

it should be noted that, after the sealing cover 15 is attached to the end of the aqueous phase heating pan 2, the pair of fixing cylinders 16 is controlled to push the fixing member 17 to move forward, so that the positioning posts 18 on the fixing member 17 are inserted into the positioning holes on the outer wall of the aqueous phase heating pan 2, thereby fixing the sealing cover 15.

The auxiliary structure includes: a lifting cylinder 19, an upper connecting ring 20, a lower connecting ring 21, a plurality of telescopic rods 22 and a plurality of return springs 23;

the bottom of the lifting cylinder 19 is connected with the main frame 1, the upper connecting ring 20 is connected with the end of the main frame 1, the lower connecting ring 21 is connected with the outer wall of the sealing cover 15 for scouring, the plurality of telescopic rods 22 are positioned between the upper connecting ring 20 and the lower connecting ring 21, and the reset spring 23 is sleeved on the telescopic rods 22.

In the above, the lifting cylinder 19 is used to push the sealing cover 15 to contact with the end of the aqueous phase heating pan 2, the telescopic rod 22 between the upper connecting ring 20 and the lower connecting ring 21 is used to assist the lifting and lowering of the sealing cover 15, and the return spring 23 is provided to facilitate the return of the pair of sealing covers 15 and the pair of sliding bodies 9;

specifically, the connecting assembly includes: a pipe body fixing frame 4124, a main extension pipe 25, two auxiliary extension pipes 26, two auxiliary connecting pipes 27, a main connecting pipe 28 and a three-way pipe 29;

the pipe fixing frame 4124 is arranged on one side of the general frame 1, the two auxiliary extension pipes 26 are respectively communicated with the water phase heating pot 2 and the oil phase heating pot 3, the other ends of the two auxiliary extension pipes are communicated with two connecting ends of the three-way pipe 29 through two auxiliary connecting pipes 27, one end of the main connecting pipe 28 is communicated with the other end of the three-way pipe 29, and the other end of the main connecting pipe 28 is communicated with the main extension pipe 25.

The part mainly utilizes the expansion elastic action of the main extension pipe 25 and the auxiliary extension pipe 26 to match the up-and-down shaking of the water phase heating pot 2 and the oil phase heating pot 3.

Specifically, the moving structure includes: a pair of guide rails 30, a pair of connecting frames 31, a pair of two-end motors 32, a pair of gears 33, a pair of racks 34, a bearing frame 7, a discharge pipe 35, a butt joint sleeve 36, a butt joint pipe, a propulsion motor 37 and an electromagnetic valve 38;

the bearing frame 7 is arranged on one side of the general frame 1, the pair of guide rails 30 are assembled on the bearing frame 7, the pair of connecting frames 31 are assembled on the pair of guide rails 30, the pair of connecting frames 31 are connected with the mixing tank 4, the pair of two-end motors 32 are arranged on the general frame 1, the gear 33 is connected with the two-end motors 32, the pair of racks 34 are fixed on the general frame, and the gear 33 is meshed with the racks 34;

the discharge pipe 35 is communicated with the bottom of the mixing tank 4, the butt joint sleeve 36 is communicated with a butt joint pipe, the propulsion motor 37 is arranged on the bearing frame 7, the telescopic end of the propulsion motor 37 is connected with the butt joint pipe, the electromagnetic valve 38 is arranged on the discharge pipe 35, and the butt joint pipe is communicated with the feed end of the emulsifying machine 6.

It should be noted that when the materials in the water phase heating kettle 2 and the oil phase heating kettle 3 enter the mixing tank 4, one of the two-end motors 32 is controlled to work, the gear 33 is engaged with the rack 34, and assists the mixing tank 4 on the connecting frame 31 to move smoothly through the pair of guide rails 30, the mixing tank 4 moves to one side, and after a certain position is reached, the other two-end motor 32 is controlled to engage the gear 33 connected with the driving end thereof with the rack 34, so that the mixing tank 4 moves to the other side, the above-mentioned working process is repeated, thereby realizing the mixing of the materials, controlling the propulsion motor 37 to push the butt joint pipe to ascend after the mixing is finished, and the discharge pipe 35 is inserted into the butt joint sleeve 36 and then communicated with the butt joint pipe, and then the electromagnetic valve 38 is controlled to be opened, so that the mixed materials enter the butt joint pipe and then enter the emulsifying machine 6.

Preferably, a support stand 48 is further provided at the bottom of the general frame 1.

Preferably, the water phase heating pot 2 and the oil phase heating pot 3 are both rectangular.

Preferably, the bottom of the water phase heating pot 2 and the bottom of the oil phase heating pot 3 are both provided with heating components.

Preferably, the pair of slide rails 8 are provided with stoppers 50 at both left and right ends.

Example 2

The moving structure includes: a stabilizing frame 51, a pair of guide rails 39, a guide seat 40, a fixed frame 41, a telescopic channel 42, a valve body 43, a pair of lifting motors 44, a pair of meshing motors 45, meshing teeth 46 and a pair of meshing columns 47;

the pair of guide rails 39 are fixed on a stabilizing frame 51, the guide base 40 is assembled on the pair of guide rails 39, the main tank is arranged on the guide base 40 through a fixing frame 41, the telescopic channel 42 is communicated with the rear end part of the mixing tank 4, the valve body 43 is arranged on the telescopic channel 42, the telescopic channel 42 is communicated with the feeding end of the emulsifying machine 6, the meshing teeth 46 are arranged at the bottom of the mixing tank 4, the pair of lifting motors 44 are arranged on the stabilizing frame 51, the meshing motor 45 is connected with the telescopic end of the lifting motor 44, external threads are arranged on the meshing column 47, and the meshing column 47 is meshed with the meshing teeth 46.

It should be noted that, firstly, one of the lifting motors 44 is controlled to push the engaging motor 45 to ascend, so that the engaging column 47 is in contact with the engaging teeth 46, then the engaging motor 45 is controlled to drive the engaging column 47, after the engaging column 47 is engaged with the engaging teeth 46, since the engaging teeth 46 are fixed on the mixing tank 4, the mixing tank 4 is moved, when the mixing tank 4 moves to one side, the other lifting motor 44 is controlled to drive the engaging motor 45, so that the engaging column 47 is in contact with the engaging teeth 46 on the mixing tank 4, and after the engaging motor 45 drives the engaging column 47 to be engaged with the engaging teeth 46, the mixing tank 4 is moved to the other side, the above working process is repeated, so as to mix the materials, and after the mixing is completed, the valve body 43 is opened, and the materials flow out from the telescopic pipeline and enter the emulsifying machine 6 for emulsification.

Preferably, a fixing frame 41 is disposed between the pair of lift motors 44 and the stabilizing frame 51.

Example 3

A production process of an antipruritic medicine comprises the following steps:

s1, firstly, adding the water-phase raw materials and the oil-phase raw materials into a water-phase heating pot and an oil-phase heating pot; s2, sealing the water phase heating pot and the oil phase heating pot through a sealing structure;

s3, shaking the water phase heating pot and the oil phase heating pot through a shaking structure, simultaneously heating to 60-100 ℃, and simultaneously carrying out auxiliary shaking by using an auxiliary structure to complete heating and mixing;

s4, adding the medicinal oil into a stirring mutual dissolver for mutual dissolution, and then feeding the medicinal oil, the water-phase raw material and the oil-phase raw material into a mixing tank;

s5, the mixing tank is shaken left and right through the moving structure, so that the water phase, the oil phase and the medicinal oil are fully mixed, and after the mixing is finished, the mixture can enter the emulsifying machine to be emulsified.

The technical solutions described above only represent the preferred technical solutions of the present invention, and some possible modifications to some parts of the technical solutions by those skilled in the art all represent the principles of the present invention, and fall within the protection scope of the present invention.

Claims (10)

1. An automatic production device for antipruritic drugs comprises a main frame, a water phase heating pot, an oil phase heating pot, a mixing tank, a stirring mutual dissolver and an emulsifying machine, and is characterized in that the water phase heating pot and the oil phase heating pot are respectively provided with independent shaking structures, the end parts of the water phase heating pot and the oil phase heating pot are respectively provided with a sealing structure, the upper end parts of the water phase heating pot, the oil phase heating pot and the main frame are provided with auxiliary structures, the water phase heating pot and the oil phase heating pot are respectively communicated with the mixing tank through a connecting assembly, the mixing tank is provided with a bearing frame, the bearing frame is provided with a moving structure, the stirring mutual dissolver is positioned on one side of the main frame, and the water phase heating pot, the oil phase heating pot, the mixing tank and the stirring mutual dissolver are all communicated with the emulsifying machine;

the sloshing structure comprises: the device comprises a pair of slide rails, a pair of slide bodies, a connecting seat, a rotary table, a rotary motor, a link rod and a connecting piece;

the pair of sliding rails are oppositely fixed on the general frame, the pair of sliding bodies are movably arranged on the pair of sliding rails, the connecting frame is connected with the pair of sliding bodies, the water phase heating pot is fixed on the connecting seat, the rotary motor is arranged on the outer wall of the general frame and is connected with the rotary table, the connecting piece is connected with the sliding bodies, one end of the connecting rod is connected with the connecting piece through a pin shaft, and the other end of the connecting rod is connected with the rotary table through a pin shaft;

the sealing structure includes: the sealing cover, the pair of fixed air cylinders, the pair of fixing pieces and the plurality of positioning columns;

the bottom of the sealing cover is provided with a sealing ring, the end part of the water phase heating pot is provided with an opening, the sealing cover can be sealed with the opening at the end part of the water phase heating pot, the fixed cylinder is arranged on the outer wall of the sealing cover, the piston end penetrates through the outer wall of the sealing cover and then is connected with the fixing part, the positioning columns are arranged on the outer wall of the fixing part, the outer wall of the water phase heating pot is provided with a plurality of positioning holes, and the positioning columns can be inserted into the positioning holes;

the auxiliary structure includes: the lifting cylinder, the upper connecting ring, the lower connecting ring, the plurality of telescopic rods and the plurality of reset springs;

the bottom of the lifting cylinder is connected with the main frame, the upper connecting ring is connected with the end of the main frame, the lower connecting ring is connected with the outer wall of the sealing cover in a refining mode, the plurality of telescopic rods are located between the upper connecting ring and the lower connecting ring, and the reset spring is sleeved on the telescopic rods.

2. The automated antipruritic agent manufacturing apparatus according to claim 1, wherein the connecting assembly comprises: the pipe body fixing frame, the main telescopic pipe, the two auxiliary telescopic pipes, the two auxiliary connecting pipes, the main connecting pipe and the three-way pipe;

the pipe body fixing frame is arranged on one side of the general frame, the two auxiliary telescopic pipes are respectively communicated with the water phase heating pot and the oil phase heating pot, the other ends of the two auxiliary telescopic pipes are communicated with the two connecting ends of the three-way pipe through the two auxiliary connecting pipes, one end of the main connecting pipe is communicated with the other end of the three-way pipe, and the other end of the main connecting pipe is communicated with the main telescopic pipe.

3. The automated antipruritic agent manufacturing apparatus according to claim 1, wherein the moving structure comprises: the device comprises a pair of guide rails, a pair of connecting frames, a pair of motors at two ends, a pair of gears, a pair of racks, a discharge pipe, a butt joint sleeve, a butt joint pipe, a propulsion motor and an electromagnetic valve;

the mixing tank is characterized in that the bearing frame is arranged on one side of the general frame, the pair of guide rails are assembled on the bearing frame, the pair of connecting frames are assembled on the pair of guide rails and connected with the mixing tank, the pair of motors at two ends are arranged on the general frame, the gear is connected with the motors at two ends, the pair of racks are fixed on the general tank, and the gear is meshed with the racks;

the discharge pipe is communicated with the bottom of the mixing tank, the butt joint sleeve is communicated with the butt joint pipe, the propulsion motor is arranged on the bearing frame, the telescopic end of the propulsion motor is connected with the butt joint pipe, the electromagnetic valve is arranged on the discharge pipe, and the butt joint pipe is communicated with the feed end of the emulsifying machine.

4. The automated antipruritic agent manufacturing apparatus according to claim 1, wherein the moving mechanism comprises: the device comprises a stabilizing frame, a pair of guide rails, a guide seat, a fixing frame, a telescopic channel, a valve body, a pair of lifting motors, a pair of meshing motors, meshing teeth and a pair of meshing columns;

the pair of guide rails are fixed on the stabilizing frame, the guide seat is assembled on the pair of guide rails, the main tank is arranged on the guide seat through the fixing frame, the telescopic channel is communicated with the rear end part of the mixing tank, the valve body is arranged on the telescopic channel, the telescopic channel is communicated with the feeding end of the emulsifying machine, the meshing teeth are arranged at the bottom of the mixing tank, the pair of lifting motors are arranged on the stabilizing frame, the meshing motor is connected with the telescopic end of the lifting motor, external threads are formed in the meshing column, and the meshing column is meshed with the meshing teeth.

5. The automated antipruritic agent manufacturing apparatus according to claim 1, wherein a support platform is provided at the bottom of the main frame.

6. The automated antipruritic device according to claim 4, wherein a fixing seat is disposed between the pair of lifting motors and the stabilizing frame.

7. The automated antipruritic device of claim 1, wherein the water phase heating pot and the oil phase heating pot are rectangular.

8. The automated antipruritic drug manufacturing apparatus according to claim 1, wherein the water phase heating pan and the oil phase heating pan are provided with heating elements at the bottom.

9. The automated antipruritic device according to claim 1, wherein the left and right ends of the pair of slide rails are provided with a stopper.

10. The process for preparing antipruritic according to claim 1, comprising the steps of:

s1, firstly, adding the water-phase raw materials and the oil-phase raw materials into a water-phase heating pot and an oil-phase heating pot;

s2, sealing the water phase heating pot and the oil phase heating pot through a sealing structure;

s3, shaking the water phase heating pot and the oil phase heating pot through a shaking structure, simultaneously heating to 60-100 ℃, and simultaneously carrying out auxiliary shaking by using an auxiliary structure to complete heating and mixing;

s4, adding the medicinal oil into a stirring mutual dissolver for mutual dissolution, and then feeding the medicinal oil, the water-phase raw material and the oil-phase raw material into a mixing tank;

s5, the mixing tank is shaken left and right through the moving structure, so that the water phase, the oil phase and the medicinal oil are fully mixed, and after the mixing is finished, the mixture can enter the emulsifying machine to be emulsified.

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