CN203672073U - Intelligent energy-efficient medicine drying device - Google Patents

Intelligent energy-efficient medicine drying device Download PDF

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Publication number
CN203672073U
CN203672073U CN201420008524.0U CN201420008524U CN203672073U CN 203672073 U CN203672073 U CN 203672073U CN 201420008524 U CN201420008524 U CN 201420008524U CN 203672073 U CN203672073 U CN 203672073U
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CN
China
Prior art keywords
air
drying
drying box
casing
supervisor
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Expired - Fee Related
Application number
CN201420008524.0U
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Chinese (zh)
Inventor
朱德其
陆泽润
王微龙
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Chengdu Hengrui Pharmaceutical Co Ltd
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Chengdu Hengrui Pharmaceutical Co Ltd
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Priority to CN201420008524.0U priority Critical patent/CN203672073U/en
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Publication of CN203672073U publication Critical patent/CN203672073U/en
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Abstract

The utility model discloses an intelligent energy-efficient medicine drying device. The intelligent energy-efficient medicine drying device comprises a hot air supply device, two drying boxes, a controller (17) and a humidity sensor (18). Each drying box comprises a box body (1), a hot air inlet main pipe (2) and an air outlet main pipe (7). An air outlet main pipe A (14) of the drying box A (12) is communicated with a hot air inlet main pipe B (15) of the drying box B (13), and the humidity sensor (18) is arranged in the air outlet main pipe A (14). The hot air supply device comprises an air blower (9) and a heater (10), and the controller (17) is connected with the humidity sensor (18), the air blower (9) and the heater (10). The intelligent energy-efficient medicine drying device has the advantages that medicine can make contact with a heat source more easily, pre-drying of the medicine can be achieved through exhaust gas, resources are saved, the utilization rate of the resources is improved, meanwhile, the drying efficiency of the medicine is improved, the degree of automation is high, the drying degree of products can be detected easily, and the quality of processed finished products can be better guaranteed.

Description

The energy-conservation medicine drying device of a kind of intelligent high-efficiency
Technical field
The utility model relates to drying equipment technical field, particularly the energy-conservation medicine drying device of a kind of intelligent high-efficiency.
Background technology
In pharmaceutical production field, common drying equipment is drying box, existing drying box is divided into two kinds conventionally, one is that heating tube is installed in casing, another kind is the interlayer that logical steam is set in casing, the effective drying surface of these two kinds of drying boxes is smaller, thereby the drying effect of medicine is not fairly obvious, and production cost is higher.
And, in existing drying equipment, conventionally there is the inhomogeneous phenomenon of medicine degree of drying of different placement locations in same drying box, the medicine that normally more approaches thermal source is drier, and the medicine of stow away from heat is more difficult dry.Meanwhile, the air of the entrapped moisture in drying box can not flow out drying box smoothly, carries aerial moisture secretly and is easily again adsorbed by medicine, thereby affect drying efficiency in casing, has improved production cost.
Utility model content
The purpose of this utility model is to overcome the shortcoming of prior art, provides that a kind of drying efficiency is high, the energy-conservation medicine drying device of intelligent high-efficiency of saving resource, raising resource utilization.
The purpose of this utility model is achieved through the following technical solutions: the energy-conservation medicine drying device of a kind of intelligent high-efficiency, it comprises hot air supplier, two drying boxes that connect successively, controller and humidity sensor, described drying box comprises casing and hot blast air intake supervisor, hot blast air intake supervisor stretches into box house, in casing, be provided with multiple material supporting plates, the edge of material supporting plate is all connected with the inner wall sealing of casing, the bottom of each material supporting plate is provided with a funnel type inlet box, described funnel type inlet box is the casing along direction aperture area increases gradually from top to bottom, the bottom of each funnel type inlet box is all connected with a hot blast air intake arm, the upper end-face edge of funnel type inlet box is connected with the edge seal of material supporting plate, described hot blast air intake arm is all communicated with hot blast air intake supervisor, the position that casing is positioned at each material supporting plate top is provided with an air-out arm, each air-out arm is all communicated with the air-out supervisor who is arranged at casing outside, the drying box that is positioned at front side is drying box A, the drying box that is positioned at rear side is drying box B, the air-out supervisor A of drying box A is communicated with the hot blast air intake supervisor B of drying box B, humidity sensor is arranged in the air-out supervisor A of drying box A, described hot air supplier comprises air blast and heater, heater inside is provided with vented cavity, in vented cavity, be provided with heating wire, vented cavity air inlet connects air blast by pipeline, the air outlet of vented cavity connects the hot blast air intake supervisor A of drying box A by pipeline, controller connects respectively humidity sensor by cable, air blast and heater.
Described casing is that square, described funnel type inlet box is square-shaped hopper.
On described material supporting plate, be evenly distributed with air vent.
In described air-out supervisor A, be also provided with temperature sensor, temperature sensor connects controller by cable.
The utlity model has following advantage: the utility model blasts the drying mode of hot air type by employing, make medicine be easier to contact with thermal source, improved drying efficiency, funnel type inlet box of the present utility model has not only played good dispersed hot wind action, make material and hot blast even contact on material supporting plate, the dry materials degree on same material supporting plate that ensured is consistent, simultaneously, it plays the effect of the adjacent material supporting plate of packing, make the impact of the hot blast of the subsidiary moisture producing on the material Bu Huishou lower floor material supporting plate on upper materials supporting plate, thereby the degree of drying that has ensured each layer of material in same casing is consistent, and be beneficial to the moisture very first time discharge drying box of being taken away by air-flow, avoid the impact of moisture content air-flow on medicine, improve equally drying efficiency.
The utility model is by arranging two drying boxes, and the air-flow that has well utilized drying box A to discharge utilizes waste gas to realize predrying to material, at saving resource, improve resource utilization in, improved the drying efficiency of material.
The utility model is by arranging controller and sensor, can Real-Time Monitoring hot blast humidity, temperature, thereby realize the monitoring to product drying degree, when product completes can very first time arrestment operation after dry, reduced production cost, and automaticity is high, is easy to testing product degree of drying, processed finished products quality is more secure, and the utility model also can have been realized the cooling of dried product.
Brief description of the drawings
Fig. 1 is structural representation of the present utility model
Fig. 2 is the structural representation of material supporting plate of the present utility model and funnel type inlet box
In figure, 1-casing, 2-hot blast air intake supervisor, 3-material supporting plate, 4-funnel type inlet box, 5-hot blast air intake arm, 6-air-out arm, 7-air-out supervisor, 8-air vent, 9-air blast, 10-heater, 11-heating wire, 12-drying box A, 13-drying box B, 14-air-out supervisor A, 15-hot blast air intake supervisor B, 16-hot blast air intake supervisor A, 17-controller, 18-humidity sensor, 19-temperature sensor.
Detailed description of the invention
Below in conjunction with accompanying drawing, the utility model is further described, protection domain of the present utility model is not limited to the following stated:
As shown in Figure 1, the energy-conservation medicine drying device of a kind of intelligent high-efficiency, it comprises hot air supplier, two drying boxes that connect successively, controller 17 and humidity sensor 18, described drying box comprises casing 1 and hot blast air intake supervisor 2, hot blast air intake supervisor 2 stretches into casing 1 inside, in casing 1, be provided with multiple material supporting plates 3, the edge of material supporting plate 3 is all connected with the inner wall sealing of casing 1, the bottom of each material supporting plate 3 is provided with a funnel type inlet box 4, described funnel type inlet box 4 is the casing 1 along direction aperture area increases gradually from top to bottom, the bottom of each funnel type inlet box 4 is all connected with a hot blast air intake arm 5, the upper end-face edge of funnel type inlet box 4 is connected with the edge seal of material supporting plate 3, described hot blast air intake arm 5 is all communicated with hot blast air intake supervisor 2, the position that casing 1 is positioned at each material supporting plate 3 tops is provided with an air-out arm 6, each air-out arm 6 is all communicated with the air-out supervisor 7 who is arranged at casing 1 outside, the drying box that is positioned at front side is drying box A12, the drying box that is positioned at rear side is drying box B13, the air-out supervisor A14 of drying box A12 is communicated with the hot blast air intake supervisor B15 of drying box B13, humidity sensor 18 is arranged in the air-out supervisor A14 of drying box A12, described hot air supplier comprises air blast 9 and heater 10, heater 10 inside are provided with vented cavity, in vented cavity, be provided with heating wire 11, vented cavity air inlet connects air blast 9 by pipeline, the air outlet of vented cavity connects the hot blast air intake supervisor A16 of drying box A12 by pipeline, controller 17 connects respectively humidity sensor 18 by cable, air blast 9 and heater 10.
Described casing 1 is that square, described funnel type inlet box 4 is square-shaped hopper.As shown in Figure 2, funnel type inlet box 4 has not only played good dispersed hot wind action, make material and hot blast even contact on material supporting plate 3, ensure that dry materials degree is consistent, simultaneously, the effect that it plays the adjacent material supporting plate 3 of packing, makes the impact of the hot blast of the subsidiary moisture producing on the material Bu Huishou lower floor material supporting plate 3 on upper materials supporting plate 3, thereby has ensured that the degree of drying of the interior each layer of material of same casing 1 is consistent.
On described material supporting plate 3, be evenly distributed with air vent 8, on material supporting plate 3, be also provided with the through hole passing for air pipeline, between air pipeline and through hole, hermetically-sealed construction is set.
In described air-out supervisor A14, be also provided with temperature sensor 19, temperature sensor 19 connects controller 17 by cable.
The course of work of the present utility model is as follows: air blast 9 controlled by controller 17 and heater 10 is started working, the air that air blast 9 blasts enters the vented cavity of heater 10, and heated by the electric heating in vented cavity, hot blast after heating enters the hot blast air intake supervisor A16 of drying box A12, then branch to hot blast air intake arm 5, bottom by funnel type inlet box 4 enters, because funnel type inlet box 4 is the casing 1 along direction aperture area increases gradually from top to bottom, hot blast is dispersed in uphill process, pass through from the whole bottom even of material supporting plate 3, the degree of drying of the material on material supporting plate 3 is consistent, hot blast is taken away the moisture of material, derive casing 1 from corresponding air-out arm 6, and the discharge of confluxing in air-out supervisor A14, the gas with moisture of discharging from drying box A12 is still the air-flow with heat, and along with the moisture of the material in drying box A12 reduces gradually, the gas flow temperature of discharging from drying box A12 raises gradually, moisture reduces gradually, if this air-flow is directly emptying, can cause very large energy waste, therefore, the utility model has well utilized this part gas, the gas of discharging from drying box A12 enters drying box B13 by hot blast air intake supervisor B15, and carry out predrying to the material in drying box, the humidity detecting when the humidity sensor 18 in air-out supervisor A14 is less than after acceptance value, controller 17 control heaters 10 quit work, product completes dry.If product does not need to be down to room temperature, controller 17 is controlled air blast 9 simultaneously and is quit work; If product needed is down to room temperature, controller 17 is after control heater 10 quits work, controlling air blast 9 works on, carry out air-cooled to product, after the temperature sensor 19 in air-out supervisor A14 detects that temperature is lower than acceptance value, controller 17 is controlled air blast 9 and is quit work, and completes the work that is dried and is cooled to room temperature to product.
Then, take the material in drying box A12 away, pre-dried material in drying box B13 is put into drying box A12, to put into drying box B13 with dry material, again be dried processing, now, the pre-dried material of process can complete dry very soon, and the material of drying box B13 completes predrying processing equally.By above-mentioned visible, the air-flow that the utility model has well utilized drying box A12 to discharge, in saving resource, raising resource utilization, has improved the drying efficiency of material.By controller 17 and sensor are set, can Real-Time Monitoring hot blast humidity, thereby realize the monitoring to product drying degree, when product completes can very first time arrestment operation after dry, reduced production cost, and automaticity is high, is easy to testing product degree of drying, processed finished products quality is more secure, and the utility model also can have been realized the cooling of dried product.

Claims (4)

1. the energy-conservation medicine drying device of intelligent high-efficiency, it is characterized in that: comprise hot air supplier, two drying boxes that connect successively, controller (17) and humidity sensor (18), described drying box comprises casing (1) and hot blast air intake supervisor (2), hot blast air intake supervisor (2) stretches into casing (1) inside, in casing (1), be provided with multiple material supporting plates (3), the edge of material supporting plate (3) is all connected with the inner wall sealing of casing (1), the bottom of each material supporting plate (3) is provided with a funnel type inlet box (4), described funnel type inlet box (4) is the casing (1) along direction aperture area increases gradually from top to bottom, the bottom of each funnel type inlet box (4) is all connected with a hot blast air intake arm (5), the upper end-face edge of funnel type inlet box (4) is connected with the edge seal of material supporting plate (3), described hot blast air intake arm (5) is all communicated with hot blast air intake supervisor (2), the position that casing (1) is positioned at each material supporting plate (3) top is provided with an air-out arm (6), each air-out arm (6) is all communicated with the air-out supervisor (7) who is arranged at casing (1) outside, the drying box that is positioned at front side is drying box A(12), the drying box that is positioned at rear side is drying box B(13), drying box A(12) air-out supervisor A(14) be communicated with drying box B(13) and hot blast air intake supervisor B(15), humidity sensor (18) is arranged at drying box A(12) air-out supervisor A(14) in, described hot air supplier comprises air blast (9) and heater (10), heater (10) inside is provided with vented cavity, in vented cavity, be provided with heating wire (11), vented cavity air inlet connects air blast (9) by pipeline, the air outlet of vented cavity connects drying box A(12 by pipeline) hot blast air intake supervisor A(16), controller (17) connects respectively humidity sensor (18) by cable, air blast (9) and heater (10).
2. the energy-conservation medicine drying device of a kind of intelligent high-efficiency according to claim 1, is characterized in that: described casing (1) is for square, and described funnel type inlet box (4) is square-shaped hopper.
3. the energy-conservation medicine drying device of a kind of intelligent high-efficiency according to claim 1, is characterized in that: on described material supporting plate (3), be evenly distributed with air vent (8).
4. the energy-conservation medicine drying device of a kind of intelligent high-efficiency according to claim 1, is characterized in that: described air-out supervisor A(14) in be also provided with temperature sensor (19), temperature sensor (19) connects controller (17) by cable.
CN201420008524.0U 2014-01-07 2014-01-07 Intelligent energy-efficient medicine drying device Expired - Fee Related CN203672073U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201420008524.0U CN203672073U (en) 2014-01-07 2014-01-07 Intelligent energy-efficient medicine drying device

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201420008524.0U CN203672073U (en) 2014-01-07 2014-01-07 Intelligent energy-efficient medicine drying device

Publications (1)

Publication Number Publication Date
CN203672073U true CN203672073U (en) 2014-06-25

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Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105053179A (en) * 2015-07-20 2015-11-18 柳州一合科技有限公司 Small-scale energy-saving baking machine
CN106819081A (en) * 2016-12-31 2017-06-13 广州华爵生物科技有限公司 Fruit vegetables air-dry device
CN107339869A (en) * 2017-08-14 2017-11-10 安徽恒源药业有限公司 A kind of high temperature sieve material drying device for veterinary drug production
CN110777055A (en) * 2019-11-15 2020-02-11 湖南刘文龙生物医药有限责任公司 High-efficient incubator of biological medicine
CN112629193A (en) * 2021-01-11 2021-04-09 连城县竹匠新材料有限公司 Negative pressure formula bamboo timber desiccator

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105053179A (en) * 2015-07-20 2015-11-18 柳州一合科技有限公司 Small-scale energy-saving baking machine
CN106819081A (en) * 2016-12-31 2017-06-13 广州华爵生物科技有限公司 Fruit vegetables air-dry device
CN107339869A (en) * 2017-08-14 2017-11-10 安徽恒源药业有限公司 A kind of high temperature sieve material drying device for veterinary drug production
CN110777055A (en) * 2019-11-15 2020-02-11 湖南刘文龙生物医药有限责任公司 High-efficient incubator of biological medicine
CN112629193A (en) * 2021-01-11 2021-04-09 连城县竹匠新材料有限公司 Negative pressure formula bamboo timber desiccator
CN112629193B (en) * 2021-01-11 2023-07-21 连城县竹匠新材料有限公司 Negative pressure type bamboo drying machine

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C14 Grant of patent or utility model
GR01 Patent grant
CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20140625

Termination date: 20150107

EXPY Termination of patent right or utility model