CN211024135U - Air-dry method medicine manufacturing device - Google Patents

Abstract

A gas dry method drug manufacturing device comprises a dryer, an explosion sprayer, an evaporation tower, a high-pressure pump and a granulation tower, and is characterized in that the dryer is provided with an air outlet pipe which is communicated with the explosion sprayer; the explosion sprayer is provided with a first gas pipe fixedly connected with the evaporation tower, and a drying assembly is arranged in the evaporation tower and fixedly connected with the first gas pipe; the evaporation tower is communicated with the high-pressure pump through a pipeline; the high-pressure pump is provided with a second infusion tube which is fixedly connected with the granulation tower, and the granulation tower is provided with a spray head which is fixedly connected with the second infusion tube; the blasting sprayer is provided with a second gas pipe which is fixedly connected with the granulating tower, and the granulating tower is provided with a nozzle which is fixedly connected with the second gas pipe; compared with the prior art, the device utilizes a method of avoiding heavy pressure to manufacture medicine particles, reduces high fiber in the medicine, and enables the medicine to be better absorbed; the liquid medicine is dried at low temperature, the solute in the liquid medicine is not removed, the medicinal effect in the liquid medicine is not reduced, no auxiliary material is added in the granulating process, and the method is purely by utilizing physical drying granulation and is healthier and safer.

Description

Air-dry method medicine manufacturing device

Technical Field

The utility model relates to a medicine preparation field specifically is a gas dry process medicine manufacturing installation.

Background

The existing methods for preparing medicinal powder or granules mostly add auxiliary materials, and the effect of some medicines doped with auxiliary materials can be possibly influenced; the method is similar to the method of crushing the medicines into powder by a wall breaking machine and then preparing the powder into particles, but most of the medicines belong to high-fiber plants, and the high-fiber plants cannot be well absorbed by a human body; the traditional Chinese medicine extract tablet concentrated solution is most easily absorbed by human bodies and is dried, but the existing drying is realized by hot drying, the concentrated solution is evaporated by the hot drying, and the solute dissolved in water of the medicine is also evaporated and taken away except for water evaporation, so that the quality of the remaining ointment for preparing the granules is reduced, and the medicinal effect of the medicine is reduced.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a gas dry method drug manufacturing device is provided, can effectively solve the problem of proposing among the above-mentioned background art.

In order to solve the above problems, the utility model adopts the following technical proposal: a gas dry method drug manufacturing device comprises a dryer, an explosion sprayer, an evaporation tower, a high-pressure pump and a granulation tower, and is characterized in that the dryer is provided with an air inlet box, and a first fan is fixedly connected in the air inlet box; the air inlet box is communicated with the drying box, and a dust removal filter screen is arranged between the air inlet box and the drying box; the drying box is provided with a drying rotating wheel shaft which is connected in a rotating manner, and the drying rotating wheel is provided with a gear which is fixedly connected; the drying rotating wheel is provided with a rotating motor gear for rotating connection, and the rotating motor is provided with a bracket for fixed connection; the support is fixedly connected with the drying box; the drying rotating wheel is provided with a heating box which is fixedly connected, and an electric heater is arranged in the heating box and is fixedly connected; the heating box is provided with a dust removal filter screen; the drying rotating wheel is provided with a condensing box which is fixedly connected; the condensing box and the heating box are mutually corresponding in position and are respectively positioned at two sides of the drying rotating wheel; a condenser is fixedly connected with the inside of the condensing box; a heat exchange box is arranged above the condensing box; the heat exchange box is provided with a compressor which is fixedly connected with the condenser through a pipeline; the compressor is provided with a heat exchange pipeline which extends to the heating box, and the heat exchange pipeline is positioned between the electric heater and the dust removal filter screen; the condensing box is provided with a second fan which is fixedly connected; the drying box is provided with an air outlet pipe which is communicated and connected with the blasting device; the explosion sprayer is provided with a first gas pipe which is communicated and connected, and the first gas pipe is provided with a valve which is fixedly sleeved; the first gas pipe is connected with the evaporation tower in a penetrating way; the first gas pipe is provided with a drying component which is communicated with the first gas pipe, and the evaporation component is positioned in the evaporation tower; the evaporation assembly is provided with a base which is communicated with the first gas pipe, and the base is provided with an inner cavity; a leak hole is formed in the side of the base; the top of the base is provided with a support column which is fixedly connected with the base, and the support column is provided with a support plate which is fixedly connected with the support column; the base is provided with an inner pipe which is communicated with the base, and the inner pipe is provided with a plurality of air outlet holes; the outer wall of the inner pipe is fixedly connected with a shielding ring, and the shielding ring is positioned above the air outlet; the supporting plate is provided with a through hole which is in through connection with the inner pipe, and the through hole is provided with an outer pipe which is in through connection; the top of the evaporation tower is provided with a feeding pipe which is communicated with the evaporation tower, and the feeding pipe is provided with a valve which is fixedly sleeved; the top end of the evaporation tower is fixedly connected with a dust removal filter screen; the lower end of the evaporation tower is provided with a first infusion tube which is communicated and connected, and the first infusion tube is provided with a valve which is fixedly sleeved; the first infusion tube is communicated with the high-pressure pump; the high-pressure pump is provided with a second infusion tube which is communicated and connected, and the second infusion tube is provided with a valve which is fixedly sleeved and connected; the second infusion tube is connected with the granulating tower in a penetrating way, and is provided with a spray head for fixed connection; the spray head is positioned above the inner cavity of the granulating tower; the explosion sprayer is provided with a second gas pipe which is communicated with the explosion sprayer, and the second gas pipe is provided with a valve which is fixedly sleeved; the second gas pipe is in through connection with the granulating tower and is provided with a nozzle for fixed connection; the nozzle is positioned below the granulating tower; the top of the granulation tower is fixedly connected with a dust removal filter screen; the lower end of the granulation tower is provided with a discharge pipe which is in through connection, and the discharge pipe is provided with a valve which is fixedly sleeved.

As a further preferred scheme of the utility model, the desiccator is connected by income bellows, drying cabinet, heating cabinet, condensing box, heat transfer case and is constituteed.

As a further preferred scheme of the utility model, be equipped with sealed wear-resisting glue between dry runner and the drying cabinet.

As a further preferred scheme of the utility model, the surface of the drying rotating wheel is in a wave structure to form a plurality of tiny air flow channels; the drying rotating wheel is made of ceramic fiber composite materials and is provided with a moisture absorbent.

As a further preferred aspect of the present invention, the blasting machine is a high-pressure blower.

As a further preferred aspect of the present invention, the valve is a check valve.

As a further preferred aspect of the present invention, the radius bar of the outer tube is larger than the radius of the shielding ring.

As a further preferred scheme of the utility model, the inner tube is the PVC pipe with the outer tube.

As a further preferred aspect of the present invention, the spray head is an atomizing spray head, and the spray direction of the spray head is downward.

As a further preferable aspect of the present invention, the nozzle is an air nozzle, and the injection direction of the nozzle is upward.

Compared with the prior art, the utility model provides a gas dry process drug manufacturing device possesses following beneficial effect:

the device utilizes a method of avoiding heavy pressure to manufacture medicine particles, reduces high fiber in the medicine, and enables the medicine to be better absorbed; the liquid medicine is dried at low temperature, the solute in the liquid medicine is not removed, the medicinal effect in the liquid medicine is not reduced, no auxiliary material is added in the granulating process, and the method is purely by utilizing physical drying granulation and is healthier and safer.

Drawings

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

FIG. 2 is a schematic view of a drying part of the dryer of the present invention;

FIG. 3 is a schematic view of a heating part of the dryer of the present invention;

FIG. 4 is a schematic view of the evaporation tower according to the present invention;

fig. 5 is a schematic anatomical view of the drying assembly of the present invention;

fig. 6 is an anatomical schematic diagram of the granulation tower of the present invention;

wherein: 1. the device comprises a dryer, 2, an explosion sprayer, 3, an evaporation tower, 4, a high-pressure pump, 5, a granulation tower, 6, a first fan, 7, a dust removal filter screen, 8, a drying rotating wheel, 9, an electric heater, 10, a compressor, 11, a heat exchange pipeline, 12, a second fan, 13, an air outlet pipe, 14, a first air delivery pipe, 15, a valve, 16, a leakage hole, 17, an inner pipe, 18, a shielding ring, 19, an outer pipe, 20, a feeding pipe, 21, a first infusion pipe, 22, a second infusion pipe, 23, a spray head, 24, a second air delivery pipe, 25, a spray nozzle, 26 and a discharge pipe.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Referring to fig. 1-6, the utility model provides a gas dry method drug manufacturing device, which comprises a dryer 1, an explosion sprayer 2, an evaporation tower 3, a high pressure pump 4 and a granulation tower 5, and is characterized in that the dryer 1 is provided with an air inlet box, and a first fan 6 is fixedly connected in the air inlet box; the air inlet box is communicated with the drying box, and a dust removal filter screen 7 is arranged between the air inlet box and the drying box; the drying box is provided with a drying rotating wheel 8 shaft for rotating connection, and the drying rotating wheel 8 is provided with a gear for fixed connection; the drying rotating wheel 8 is provided with a rotating motor gear for rotating connection, and the rotating motor is provided with a bracket for fixed connection; the support is fixedly connected with the drying box; the drying rotating wheel 8 is fixedly connected with a heating box, and an electric heater 9 is fixedly connected in the heating box; the heating box is provided with a dust removal filter screen 7; the drying rotating wheel 8 is provided with a condensing box which is fixedly connected; the condensing box and the heating box are mutually corresponding in position and are respectively positioned at two sides of the drying rotating wheel 8; a condenser is fixedly connected with the inside of the condensing box; a heat exchange box is arranged above the condensing box; the heat exchange box is provided with a compressor 10 which is fixedly connected, and the compressor 10 is connected with a condenser pipeline; the compressor 10 is provided with a heat exchange pipeline 11 which extends to the heating box, and the heat exchange pipeline 11 is positioned between the electric heater 9 and the dust removal filter screen 7; the condensing box is provided with a second fan 12 which is fixedly connected; the drying box is provided with an air outlet pipe 13 which is communicated and connected, and the air outlet pipe 13 is communicated and connected with the blasting sprayer 2; the explosion sprayer 2 is provided with a first gas pipe 14 which is communicated with the first gas pipe 14, and the first gas pipe 14 is provided with a valve 15 which is fixedly sleeved; the first gas pipe 14 is connected with the evaporation tower 3 in a penetrating way; the first gas pipe 14 is provided with a drying component which is communicated with the first gas pipe, and the evaporation component is positioned in the evaporation tower 3; the evaporation component is provided with a base which is communicated with the first gas pipe 14 and is provided with an inner cavity; a leakage hole 16 is formed in the side of the base; the top of the base is provided with a support column which is fixedly connected with the base, and the support column is provided with a support plate which is fixedly connected with the support column; the base is provided with an inner tube 17 which is communicated with the base, and the inner tube 17 is provided with a plurality of air outlet holes; the outer wall of the inner pipe 17 is provided with a shielding ring 18 which is fixedly connected, and the shielding ring 18 is positioned above the air outlet; the supporting plate is provided with a through hole which is connected with the inner pipe 17 in a penetrating way, and the through hole is provided with an outer pipe 19 which is connected in a penetrating way; the top of the evaporation tower 3 is provided with a feeding pipe 20 which is communicated, and the feeding pipe 20 is provided with a valve 15 which is fixedly sleeved; the top end of the evaporation tower 3 is fixedly connected with a dust removal filter screen 7; the lower end of the evaporation tower 3 is provided with a first infusion tube 21 which is communicated, and the first infusion tube 21 is provided with a valve 15 which is fixedly sleeved; the first infusion tube 21 is communicated with the high-pressure pump 4; the high-pressure pump 4 is provided with a second infusion tube 22 which is communicated with the high-pressure pump, and the second infusion tube 22 is provided with a valve 15 which is fixedly sleeved; the second infusion tube 22 is connected with the granulation tower 5 in a penetrating way, and the second infusion tube 22 is provided with a spray head 23 which is fixedly connected; the spray head 23 is positioned above the inner cavity of the granulation tower 5; the explosion sprayer 2 is provided with a second gas pipe 24 which is communicated with the first gas pipe 24, and the second gas pipe 24 is provided with a valve 15 which is fixedly sleeved; the second air delivery pipe 24 is in through connection with the granulation tower 5, and the second air delivery pipe 24 is provided with a nozzle 25 for fixed connection; the nozzle 25 is positioned below the granulation tower 5; the top of the granulation tower 5 is provided with a dust removal filter screen 7 which is fixedly connected; the lower end of the granulation tower 5 is provided with a discharge pipe 26 which is in through connection, and the discharge pipe 26 is provided with a valve 15 which is fixedly sleeved.

As a further preferred embodiment of the present invention, the drying machine 1 is formed by connecting an air inlet box, a drying box, a heating box, a condensing box and a heat exchange box.

As a further preferred scheme of the utility model, be equipped with sealed wear-resisting glue between dry runner 8 and the drying cabinet, in order to increase the gas tightness of device.

As a further preferable scheme of the utility model, the surface of the drying rotating wheel 8 is in a wave structure to form a plurality of tiny air flow channels; the drying rotating wheel 8 is made of ceramic fiber composite materials, the drying rotating wheel 8 is provided with a moisture absorbent, and the air can be better adsorbed by the moisture absorbent, so that the air can achieve a drier effect.

As a further preferred aspect of the present invention, the blowout preventer 2 is a high-pressure blower.

As a further preferred scheme of the utility model, valve 15 is the check valve, prevents that liquid medicine from getting into to explode and spout ware 2 and high-pressure pump 4.

As a further preferred embodiment of the present invention, the radius of the outer tube 19 is larger than the radius of the shielding ring 18, so that the liquid medicine can be better dried by entering from the outer tube 19.

As a further preferred scheme of the present invention, the inner tube 17 and the outer tube 19 are PVC tubes.

As a further preferable embodiment of the present invention, the nozzle 23 is an atomizing nozzle, and the spraying direction of the nozzle 23 is downward.

As a further preferable embodiment of the present invention, the nozzle 25 is an air nozzle, and the injection direction of the nozzle 25 is upward.

As a specific embodiment of the present invention:

when the device starts to operate, the second fan 12 sucks air outside the device into the dryer 1, the outside air enters the heating box through the dust removal filter screen 7, absorbs partial heat through the heat exchange pipeline 11, is heated to 120 ℃ through the electric heater 9 and then is blown on the drying rotating wheel 8; the moisture that dry runner 8 adsorbs is rotatory to the heating cabinet in through the rotation of dry runner 8, is heated by outer air and evaporates to in taking away vapor by outer air and passing dry runner 8 and entering the condensing box, when outer air and condenser contact, the vapor that outer air carried is condensed into the drop of water, and the outer air that loses vapor blows to the device outside through second fan 12.

The drying rotating wheel 8 is heated by outside air, the temperature of the drying rotating wheel 8 is increased, but the drying rotating wheel 8 rotates through the gear transmission of the rotating motor, the heated part of the drying rotating wheel 8 leaves the heating box and enters the drying box, the heated part begins to radiate heat to the drying box, and the temperature in the drying box is correspondingly increased; the first fan 6 blows the outside air to the dust removal filter screen 7, the outside air enters the drying box after passing through the dust removal filter screen 7, the temperature of the outside air begins to rise and is contacted with the drying runner 8, most of moisture in the outside air is absorbed by utilizing the wave structure of the composite material of the drying runner 8 and the air flow channel and the property of the absorbent, and the place where the moisture is absorbed enters the heating box along with the rotation to be heated in the rotation process of the drying runner 8; the heat of the drying wheel 8 raises the temperature of the outside air again, and the outside air becomes dry air after passing through the drying wheel 8; in dry air goes into to explode sprayer 2 through air-out pipe 13, utilizes the high pressure to compress dry air in exploding sprayer 2, through first gas-supply pipe 14 and valve 15, to dry subassembly department through the gas pocket blowout, dry air erupts in evaporating tower 3, and the dry air that erupts contacts with liquid medicine in evaporating tower 3, takes away the moisture of liquid medicine and becomes humid air, and the humid air leaves the device from dust removal filter screen 7 on evaporating tower 3 top.

The liquid medicine enters the evaporation tower 3 from the feeding pipe 20, the liquid medicine enters the outer pipe 19 from the upper part, the liquid medicine is left from a gap between the outer pipe 19 and the shielding ring 18 due to the blocking of the shielding ring 18, the moisture is taken away by the dry air blown out from the air outlet, the liquid medicine with the moisture taken away slowly becomes a concentrated liquid medicine, the concentrated liquid medicine flows out of the evaporation assembly from the gap between the supporting plate and the base, and finally flows out of the device through the discharging pipe 26 and the valve 15; the shielding ring 18 is used for preventing the liquid medicine from entering the air outlet, but if the liquid medicine is splashed into the inner tube 17, the liquid medicine is changed into liquid medicine concentrated solution or separated powder particles after the moisture is taken away by the inner tube 17, and the liquid medicine is blown out from the air outlet by dry air or is discharged from a leakage hole 16 at the side of the base; the concentrated liquid medicine enters the high-pressure pump 4 from the first liquid conveying pipe 21 and the valve 15 for pressurization, the pressurized concentrated liquid medicine passes through the second liquid conveying pipe 22 and the valve 15 and is sprayed downwards to the spray head 23 in the granulation tower 5 in a mist shape, dry air passes through the second gas conveying pipe 24 and the valve 15 by the explosion sprayer 2 and is sprayed upwards to the spray nozzle 25 in the granulation tower 5, the mist concentrated liquid medicine collides with dry air, moisture of the concentrated liquid is taken away by the dry air and gradually changed into fine paste particles and then into small particles, the small particles are blown up and combined with the small paste particles to form large paste particles, the large paste particles are dried to form large particles, the large particles have enough weight and fall off, and the large particles are discharged from the discharge pipe 26 at the lower end of the granulation tower 5 and the valve 15.

The compressor 10 compresses the refrigerant into the high-temperature and high-pressure state and then transmits the refrigerant to the heat exchange pipeline 11 to dissipate heat, the heat dissipated by the heat exchange pipeline 11 is supplied to the outer air to be preheated, when the outer air is preheated and is heated by the electric heater 9, the electric heater 9 can consume less power, the ideal effect is achieved, and the burden of the electric heater 9 is relieved.

The air heat part of electric heater 9 heating is used for evaporating moisture, and some stays on dry runner 8, including dry runner 8's heat dissipation, the temperature that the inner loop gas obtained from dry runner 8 is not enough to evaporate moisture, so can not make the liquid medicine evaporate, and liquid medicine can not evaporate just can not evaporate the solute of liquid medicine, remains more medicine essences, and dry air carries out the drying to liquid medicine through the moisture content difference completely.

The above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the embodiments of the present invention.

Claims (10)

1. An air-dry method drug manufacturing device comprises a dryer (1), an explosion sprayer (2), an evaporation tower (3), a high-pressure pump (4) and a granulation tower (5), and is characterized in that the dryer (1) is provided with an air inlet box, and a first fan (6) is fixedly connected in the air inlet box; the air inlet box is communicated with the drying box, and a dust removal filter screen (7) is arranged between the air inlet box and the drying box; the drying box is provided with a drying rotating wheel (8) in shaft rotating connection, and the drying rotating wheel (8) is provided with a gear in fixed connection; the drying rotating wheel (8) is provided with a rotating motor gear for rotating connection, and the rotating motor is provided with a bracket for fixed connection; the support is fixedly connected with the drying box; the drying rotating wheel (8) is fixedly connected with a heating box, and an electric heater (9) is fixedly connected in the heating box; the heating box is provided with a dust removal filter screen (7); the drying rotating wheel (8) is provided with a condensing box which is fixedly connected; the condensing box and the heating box are mutually corresponding in position and are respectively positioned at two sides of the drying rotating wheel (8); a condenser is fixedly connected with the inside of the condensing box; a heat exchange box is arranged above the condensing box; the heat exchange box is provided with a compressor (10) which is fixedly connected, and the compressor (10) is connected with a condenser pipeline; the compressor (10) is provided with a heat exchange pipeline (11) which extends to the heating box, and the heat exchange pipeline (11) is positioned between the electric heater (9) and the dust removal filter screen (7); the condensing box is provided with a second fan (12) which is fixedly connected; the drying box is provided with an air outlet pipe (13) which is communicated and connected, and the air outlet pipe (13) is communicated and connected with the blasting machine (2); the explosion sprayer (2) is provided with a first gas pipe (14) which is communicated, and the first gas pipe (14) is provided with a valve (15) which is fixedly sleeved; the first gas pipe (14) is in through connection with the evaporation tower (3); the first gas pipe (14) is provided with a drying component which is communicated with the first gas pipe, and the evaporation component is positioned in the evaporation tower (3); the evaporation assembly is provided with a base which is communicated with the first gas pipe (14), and the base is provided with an inner cavity; a leak hole (16) is formed in the side of the base; the top of the base is provided with a support column which is fixedly connected with the base, and the support column is provided with a support plate which is fixedly connected with the support column; the base is provided with an inner pipe (17) which is communicated with the base, and the inner pipe (17) is provided with a plurality of air outlet holes; the outer wall of the inner pipe (17) is provided with a shielding ring (18) which is fixedly connected, and the shielding ring (18) is positioned above the air outlet; the supporting plate is provided with a through hole which is in through connection with the inner pipe (17), and the through hole is provided with an outer pipe (19) which is in through connection; the top of the evaporation tower (3) is provided with a feeding pipe (20) which is communicated, and the feeding pipe (20) is provided with a valve (15) which is fixedly sleeved; the top end of the evaporation tower (3) is provided with a dust removal filter screen (7) which is fixedly connected; a first infusion tube (21) is arranged at the lower end of the evaporation tower (3) and communicated with the evaporation tower, and the first infusion tube (21) is provided with a valve (15) which is fixedly sleeved; the first infusion tube (21) is communicated with the high-pressure pump (4); the high-pressure pump (4) is provided with a second infusion tube (22) which is communicated with the high-pressure pump, and the second infusion tube (22) is provided with a valve (15) which is fixedly sleeved; the second infusion tube (22) is in through connection with the granulation tower (5), and the second infusion tube (22) is provided with a spray head (23) which is fixedly connected; the spray head (23) is positioned above the inner cavity of the granulating tower (5); the explosion sprayer (2) is provided with a second gas pipe (24) which is communicated with the explosion sprayer, and the second gas pipe (24) is provided with a valve (15) which is fixedly sleeved; the second air delivery pipe (24) is in through connection with the granulating tower (5), and the second air delivery pipe (24) is provided with a nozzle (25) for fixed connection; the nozzle (25) is positioned below the granulation tower (5); the top of the granulating tower (5) is provided with a dust removal filter screen (7) which is fixedly connected; the lower end of the granulation tower (5) is provided with a discharge pipe (26) which is communicated, and the discharge pipe (26) is provided with a valve (15) which is fixedly sleeved.

2. An air-dry pharmaceutical manufacturing apparatus according to claim 1, wherein the dryer (1) is composed of an air inlet box, a drying box, a heating box, a condensing box, and a heat exchange box.

3. The gas-dry pharmaceutical manufacturing device according to claim 1, wherein a sealing wear-resistant glue is provided between the drying wheel (8) and the drying oven.

4. The air-dry pharmaceutical manufacturing device according to claim 1, wherein the surface of the drying wheel (8) is wavy to form a plurality of fine air flow channels; the drying rotating wheel (8) is made of ceramic fiber composite materials, and the drying rotating wheel (8) is provided with a moisture absorbent.

5. An apparatus for manufacturing a pharmaceutical product according to claim 1, wherein the blasting machine (2) is a high pressure blower.

6. An apparatus for manufacturing a pharmaceutical product according to claim 1, wherein said valve (15) is a one-way valve.

7. An apparatus for manufacturing a pharmaceutical product according to claim 1, wherein the outer tube (19) has a larger radius than the shroud ring (18).

8. An apparatus for manufacturing a drug by an airless process according to claim 1, wherein the inner tube (17) and the outer tube (19) are both PVC tubes.

9. An air-dry pharmaceutical manufacturing device according to claim 1, wherein the spray head (23) is an atomizing spray head, and the spray direction of the spray head (23) is downward.

10. An air-dry pharmaceutical manufacturing device according to claim 1, wherein the nozzle (25) is an air nozzle and the spraying direction of the nozzle (25) is upward.

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