CN210128597U - Intelligent drying device for pharmacy - Google Patents

Abstract

The utility model discloses an intelligent drying device for pharmacy, including feeding inductive sensor, auxiliary roller, STC12C5A16S2 singlechip, switch block, feeder hopper, blast pipe, magnetron microwave generator, exhaust bronchus, stoving chamber, gas collecting channel, humidity inductive sensor, ejection of compact microwave attenuation cover, driving roller, driving pulley, motor, reduction gear, hot-blast even distribution storehouse, stainless steel wind hole conveyer belt, the device body, cooling tube, hot-blast main, feeding microwave attenuation cover, electromagnetism air heater, electric box; a feeding induction sensor is connected with an STC12C5A16S2 single chip microcomputer, a stainless steel air hole conveyor belt is controlled to convey semi-finished materials into a drying cavity, hot air generated by an electromagnetic hot air fan is used for upwards blowing and drying through a hot air uniformly distributed bin, a humidity induction sensor is connected with the STC12C5A16S2 single chip microcomputer, a magnetron microwave generator is controlled to generate microwaves for secondary drying, and the semi-finished materials in the drying cavity can be effectively intelligently dried.

Description

Intelligent drying device for pharmacy

Technical Field

The invention relates to the technical field of pharmaceutical machinery, in particular to an intelligent drying device for pharmacy.

Background

In the pharmacy production process, need carry out drying process to semi-manufactured goods, present drying technology adopts single heat source to carry out drying process more, and present single heat source drying technology handles to have efficiency slow, will consume the defect of very big manpower and materials, and can not realize automatic intelligent control and dry, not only the production is wasted time and energy, still need consume a large amount of energy, can't satisfy pharmaceutical production's demand.

Disclosure of Invention

The invention aims to provide an intelligent drying device for pharmacy to solve the problems in the background technology.

In order to achieve the above purpose, the technical solution of the invention is: an intelligent drying device for pharmacy comprises a feeding induction sensor, an auxiliary roller, an STC12C5A16S2 single-chip microcomputer, a switch group, a feed hopper, an exhaust pipe, a magnetron microwave generator, an exhaust branch pipe, a drying cavity, a gas collecting hood, a humidity induction sensor, a discharging microwave attenuation hood, a transmission roller, a transmission belt wheel, a motor, a speed reducer, a hot air uniform distribution cabin, a stainless steel air hole conveyor belt, a device body, a heat dissipation pipe, a hot air pipe, a feeding microwave attenuation hood, an electromagnetic hot air fan and an electric box; the device body is made of stainless steel materials, an auxiliary roller and a transmission roller are respectively arranged at two ends of the middle part of the device body, and a stainless steel wind hole conveyor belt is arranged between the auxiliary roller and the transmission roller for connection; the upper portion of supplementary running roller and drive running roller sets up the stoving chamber, the front side in stoving chamber sets up the feeder hopper, be equipped with feeding microwave attenuation cover between feeder hopper and the stoving chamber, the rear side in stoving chamber is equipped with ejection of compact microwave attenuation cover, the stainless steel wind hole conveyer belt lower extreme of stoving chamber lower part sets up hot-blast even distribution storehouse, the upper portion in hot-blast even distribution storehouse evenly is equipped with the louvre, the lower part in hot-blast even distribution storehouse sets up the cooling tube of equidistance, the cooling tube lower part of equidistance sets up the hot-blast main and connects, lower part one side of the device body sets up electromagnetic air heater, the hot-blast main is connected with electromagnetic air heater's hot air outlet, the front side outside of the device body sets up the electric box, the inside reduction gear that sets up electrified machine of the front side.

Magnetron microwave generators are arranged on the inner upper portion of the drying cavity at equal intervals, gas collecting hoods are arranged on the outer upper portion of the drying cavity at equal intervals, exhaust branch pipes are arranged on the upper portions of the gas collecting hoods at equal intervals and connected with exhaust pipes, and a humidity induction sensor is arranged on the rear portion of the inner side of the drying cavity.

The STC12C5A16S2 single-chip microcomputer is arranged in the electric box, and a switch group is arranged outside the electric box; the signal source connecting wires of the feeding induction sensor and the humidity induction sensor are respectively connected with the STC12C5A16S2 single chip microcomputer; the electromagnetic air heater is controlled by the switch group and the STC12C5A16S2 singlechip and is connected with an external power grid power supply; the motor is controlled by a switch group and an STC12C5A16S2 singlechip and is connected with an external power grid power supply; the magnetron microwave generator is controlled by a switch group and an STC12C5A16S2 singlechip and is connected with an external power grid power supply.

The invention has the beneficial effects that: adopt feeding induction sensor to connect STC12C5A16S2 singlechip, control stainless steel wind hole conveyer belt and carry the semi-manufactured goods material and get into the stoving chamber, and utilize the hot-blast drying that upwards bloies through hot-blast evenly distributed storehouse of electromagnetic hot-blast fan production, and humidity induction sensor connects STC12C5A16S2 singlechip, control magnetron microwave generator produces the microwave and carries out secondary drying, can carry out intelligent stoving to the semi-manufactured goods material in the stoving chamber effectively, the effectual advantage of intelligent control stoving has, is ideal intelligent drying device for pharmacy.

Drawings

The invention will be further described with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic diagram of an intelligent drying device for pharmacy;

in the figure: 1. the device comprises a feeding induction sensor, 2, an auxiliary roller wheel, 3, an STC12C5A16S2 single-chip microcomputer, 4, a switch group, 5, a feeding hopper, 6, an exhaust pipe, 7, a magnetron microwave generator, 8, an exhaust branch pipe, 9, a drying cavity, 10, a gas collecting cover, 11, a humidity induction sensor, 12, a discharging microwave attenuation cover, 13, a transmission roller wheel, 14, a transmission belt, 15, a motor, 16, a speed reducer, 17, a hot air uniform distribution cabin, 18, a stainless steel air hole transmission belt, 19, a device body, 20, a heat dissipation pipe, 21, a hot air pipe, 22, a feeding microwave attenuation cover, 23, an electromagnetic hot air fan, 24 and an electric box.

Detailed Description

As shown in fig. 1, an intelligent drying device for pharmacy comprises a feeding induction sensor 1, an auxiliary roller 2, an STC12C5a16S2 single chip microcomputer 3, a switch group 4, a feed hopper 5, an exhaust pipe 6, a magnetron microwave generator 7, an exhaust branch pipe 8, a drying cavity 9, a gas collecting hood 10, a humidity induction sensor 11, a discharging microwave attenuation hood 12, a transmission roller 13, a transmission belt wheel 14, a motor 15, a speed reducer 16, a hot air uniform distribution cabin 17, a stainless steel air hole conveyor belt 18, a device body 19, a radiating pipe 20, a hot air pipe 21, a feeding microwave attenuation hood 22, an electromagnetic hot air fan 23 and an electric box 24; the device body 19 is made of stainless steel materials, the two ends of the middle part of the device body 19 are respectively provided with an auxiliary roller 2 and a transmission roller 13, and a stainless steel air hole conveyor belt 18 is arranged between the auxiliary roller 2 and the transmission roller 13 for connection; the upper portion of supplementary running roller 2 and drive running roller 13 sets up stoving chamber 9, the front side of stoving chamber 9 sets up feeder hopper 5, be equipped with feeding microwave attenuation cover 22 between feeder hopper 5 and the stoving chamber 9, the rear side of stoving chamber 9 is equipped with ejection of compact microwave attenuation cover 12, the stainless steel wind hole conveyer belt 18 lower extreme of stoving chamber 9 lower part sets up hot-blast evenly distributed storehouse 17, the upper portion of hot-blast evenly distributed storehouse 17 evenly is equipped with the louvre, the lower part of hot-blast evenly distributed storehouse 17 sets up equidistant cooling tube 20, equidistant cooling tube 20 lower part sets up hot-blast main 21 and connects, lower part one side of the device body 9 sets up electromagnetic air heater 23, hot-blast main 21 is connected with electromagnetic air heater 23's hot air outlet, the outside of the front side of the device body 9 sets up electric box 24, the inside reduction gear 16 that sets up electrified machine 15 of the front side of the device body 9, reduction gear 16 is connected by drive belt 14.

Magnetron microwave generators 7 are arranged on the inner upper portion of the drying cavity 9 at equal intervals, gas collecting hoods 10 are arranged on the outer upper portion of the drying cavity 9 at equal intervals, exhaust branch pipes 8 are arranged on the upper portions of the gas collecting hoods 10 at equal intervals and connected with exhaust pipes 6, and a humidity induction sensor 11 is arranged on the rear portion of the inner side of the drying cavity 19.

The STC12C5A16S2 single chip microcomputer 3 is arranged inside the electric box 24, and the switch group 4 is arranged outside the electric box 24; signal source connecting wires of the feeding induction sensor 1 and the humidity induction sensor 11 are respectively connected with the STC12C5A16S2 single chip microcomputer 3; the electromagnetic air heater 23 is controlled by the switch group 4 and the STC12C5A16S2 singlechip 3 and is connected with an external power grid power supply; the motor 15 is controlled by the switch group 4 and the STC12C5A16S2 singlechip 3 and is connected with an external power grid power supply; the magnetron microwave generator 7 is controlled by the switch group 4 and the STC12C5A16S2 singlechip 3 and is connected with an external power grid power supply.

The working principle of the invention is as follows: adding a semi-finished product material from a feed hopper 5, enabling the semi-finished product material to fall onto a stainless steel air hole conveyor belt 18, driving a transmission roller 13 to enter a drying cavity 9 after passing through a feeding microwave attenuation hood 22, enabling a feeding induction sensor 1 at the upper part in the feeding microwave attenuation hood 22 to transmit an induced feeding signal source to an STC12C5A16S2 singlechip 3 when passing through the feeding microwave attenuation hood 22, controlling the opening of the STC12C5A16S2 singlechip 3 and an electromagnetic hot air blower 23, enabling hot air generated by the electromagnetic hot air blower 23 to enter a hot air uniform distribution bin 17 through a hot air pipe 21, enabling the hot air to be subjected to hot air drying on the semi-finished product material on the stainless steel air hole conveyor belt 18 through a radiating hole at the upper part of the hot air uniform distribution bin 17 and an air hole of the stainless steel air hole conveyor belt 18, and enabling the humidity induction sensor 11 to transmit a measured signal source to the STC12C5A16S2 when moisture generated by drying the semi-finished product, the STC12C5A16S2 single-chip microcomputer 3 controls to start the magnetron microwave generator 7, and the microwave generated by the magnetron microwave generator 7 rapidly dries the semi-finished material on the stainless steel air hole conveyor belt 18 by secondary microwave; when moisture generated by drying the semi-finished product material is lower than a set value of the humidity induction sensor 11, the humidity induction sensor 11 transmits a measured signal source to the STC12C5A16S2 single chip microcomputer 3, the STC12C5A16S2 single chip microcomputer 3 controls the magnetron microwave generator 7 to be closed, microwave drying is stopped, the STC12C5A16S2 single chip microcomputer 3 controls the motor 15 to operate, the stainless steel air hole conveyor belt 18 is driven to discharge the dried semi-finished product material out of the device body 19, and intelligent drying of the building is sequentially circulated.

The above-mentioned embodiments are merely descriptions of the preferred embodiments of the present invention, and do not limit the scope of the present invention, and various modifications and improvements made to the technical solution of the present invention by those skilled in the art without departing from the spirit of the present invention should fall within the protection scope defined by the claims of the present invention.

Claims (3)

1. An intelligent drying device for pharmacy comprises a feeding induction sensor, an auxiliary roller, an STC12C5A16S2 single-chip microcomputer, a switch group, a feed hopper, an exhaust pipe, a magnetron microwave generator, an exhaust branch pipe, a drying cavity, a gas collecting hood, a humidity induction sensor, a discharging microwave attenuation hood, a transmission roller, a transmission belt wheel, a motor, a speed reducer, a hot air uniform distribution cabin, a stainless steel air hole conveyor belt, a device body, a heat dissipation pipe, a hot air pipe, a feeding microwave attenuation hood, an electromagnetic hot air fan and an electric box; the method is characterized in that: the device body is made of stainless steel materials, an auxiliary roller and a transmission roller are respectively arranged at two ends of the middle part of the device body, and a stainless steel wind hole conveyor belt is arranged between the auxiliary roller and the transmission roller for connection; the upper portion of supplementary running roller and drive running roller sets up the stoving chamber, the front side in stoving chamber sets up the feeder hopper, be equipped with feeding microwave attenuation cover between feeder hopper and the stoving chamber, the rear side in stoving chamber is equipped with ejection of compact microwave attenuation cover, the stainless steel wind hole conveyer belt lower extreme of stoving chamber lower part sets up hot-blast even distribution storehouse, the upper portion in hot-blast even distribution storehouse evenly is equipped with the louvre, the lower part in hot-blast even distribution storehouse sets up the cooling tube of equidistance, the cooling tube lower part of equidistance sets up the hot-blast main and connects, lower part one side of the device body sets up electromagnetic air heater, the hot-blast main is connected with electromagnetic air heater's hot air outlet, the front side outside of the device body sets up the electric box, the inside reduction gear that sets up electrified machine of the front side.

2. The pharmaceutical intelligent drying device of claim 1, wherein: magnetron microwave generators are arranged on the inner upper portion of the drying cavity at equal intervals, gas collecting hoods are arranged on the outer upper portion of the drying cavity at equal intervals, exhaust branch pipes are arranged on the upper portions of the gas collecting hoods at equal intervals and connected with exhaust pipes, and a humidity induction sensor is arranged on the rear portion of the inner side of the drying cavity.

3. The pharmaceutical intelligent drying device of claim 1, wherein: an STC12C5A16S2 single chip microcomputer is arranged inside the electric box, and a switch group is arranged outside the electric box; the signal source connecting wires of the feeding induction sensor and the humidity induction sensor are respectively connected with the STC12C5A16S2 single chip microcomputer; the electromagnetic air heater is controlled by the switch group and the STC12C5A16S2 singlechip and is connected with an external power grid power supply; the motor is controlled by a switch group and an STC12C5A16S2 singlechip and is connected with an external power grid power supply; the magnetron microwave generator is controlled by a switch group and an STC12C5A16S2 singlechip and is connected with an external power grid power supply.

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