CN207600061U - Fluidized drying device - Google Patents

Abstract

The utility model provides a kind of fluidized drying device,Including feeding assembly,Cutting assembly,Drive component and fluidized drying lathe,Cutting assembly includes fixed station,Bearing box,Cutter and drier,Cutter includes cutting motor,Cut shaft and cutting sheet,Drive component includes air-introduced machine,First fan and the second fan,The lower section of first fan and the second fan is equipped with wind-guiding case,The end of wind-guiding case is equipped with guide component,Fluidized drying lathe is equipped with air inducing hole,Air inducing is connected with hot-blast stove on hole,Multiple adjusting control components are equipped in fluidized drying lathe,Adjusting control component includes wind conveying pipe and solenoid valve,The design that the utility model passes through drier,So as to raw material is carried out dry for the first time,Pass through the design of drive component,To carry out secondary drying to raw material,Pass through the design of drive component,To carry out the drying of third time to raw material,Pass through the design in air inducing hole,To carry out the drying of the 4th time to raw material,Improve the drying efficiency of fluidized drying device.

Description

Fluidized drying device

Technical field

The utility model is related to technical field of processing equipment, more particularly to a kind of fluidized drying device.

Background technology

Fluidized drying device is generally used for the drying of medicines, industrial chemicals, food, grain processing, feed, it will be empty Gas is thermally formed hot wind through heat exchanger, and clean hot wind enters through valve plate distribution in boiling drier bed body, from feeder into The wet feed material entered in drying machine bed body forms fluidized state by hot wind, to obtain the functions/drying to raw material, fluidized drying device With its it is easy to operate, at low cost the advantages that widely apply to the fields such as agricultural, processing industry.

Existing fluidized drying device includes lathe and the drier being connect with lathe, by opening drier so as to holding Processing is dried in the raw material being loaded in dry lathe.

Existing fluidized drying device only with drier due to carrying out simple raw material drying processing so that can not have Effect dries the liquid in raw material, and then cause drying efficiency relatively low, and user experience declines.

Utility model content

Based on this, the purpose of this utility model is to provide a kind of high fluidized drying devices of drying efficiency.

A kind of fluidized drying device, the cutting assembly being connect including feeding assembly, with the feeding assembly and the cutting The drive component of component discharge port connection and the fluidized drying lathe being connect with the driving component, the cutting assembly include solid Determine platform, the bearing box on the fixed station, the cutter in the bearing box and on the fixed station side wall Drier, the air outlet of the drier connect with the bearing box, and the cutter includes being set at the top of the fixed station Cutting motor on inner wall, the cutting shaft being connect with the cutting motor and the cutting sheet in the cutting shaft, institute It states drive component and includes the air-introduced machine, the first fan and the second fan that sequentially connect, first fan and second fan Lower section be equipped with wind-guiding case, the end of the wind-guiding case is equipped with guide component, and the guide component is used for the wind-guiding case In interior feedstock transportation to the fluidized drying lathe, the side wall of the fluidized drying lathe is equipped with air inducing hole, the air inducing Hot-blast stove is connected on hole, the air inducing hole is used to the high-temperature gas that the hot-blast stove generates being delivered to the boiling drier In bed, multiple adjusting control components are equipped in the fluidized drying lathe, the adjusting control component includes wind conveying pipe and is set on Solenoid valve on the wind conveying pipe, the adjusting control component are used to control the air inducing hole defeated towards the fluidized drying lathe The size of the High Temperature Gas scale of construction sent.

Above-mentioned fluidized drying device by the design of the feeding assembly, facilitates the fluidized drying device entirety Charging, improves powder feeding efficiency, by the design of the drier, so that the raw material in the bearing box carries out drying for the first time Processing by the design of the cutter, effectively can carry out cutting process, it is therefore prevented that raw material to the raw material in the bearing box Blocking, by the design of the driving component, can effectively the raw material in the bearing box be carried out at secondary drying Reason, and by the design of the air-introduced machine, first fan and second fan, can effectively will be in the bearing box Raw material is conveyed towards the driving component, and passes through the design of the driving component, carries out the to raw material by the way of blowing Drying process three times, and be effectively delivered to raw material in the fluidized drying lathe by the guide component, it improves The transfer efficiency of the fluidized drying device entirety, by the design in the air inducing hole, effectively to the fluidized drying lathe Interior raw material carries out the drying process of the 4th time, improves the drying efficiency of the fluidized drying device.

Further, the guide component includes the passage being connect with the wind-guiding case end, set on the passage On lead material motor and the guide axis that is connect with the lead material motor, the guide be located in the passage, and described lead Expect that axis is equipped with guide paddle, the end of the passage is connect with the fluidized drying lathe.

Further, the feeding assembly include material feeding box, through the material feeding box charging axle and with the charging axle The charging motor of connection, the charging axle are equipped with into tablet.

Further, be arranged with fixed case between the charging motor and the charging axle, the charging axle with it is described into Limiting plate is equipped between the outer wall of hopper, the limiting plate is set in the charging axle.

Further, the charging axle is equipped with limited block, the length of the charging axle towards one end of the charging motor Degree is more than the length of the material feeding box.

Further, be equipped with heating component below the feed inlet of the cutting assembly lower end, the heating component for pair Raw material in the cutting assembly is heated, and is blown the raw material in the cutting assembly and conveyed towards the driving component.

Further, the heating component includes the third fan, the 4th fan and the heater that sequentially connect, and the described 4th It is connected between fan and the heater, between the heater and the bearing box using appendix.

Further, voltage stabilizing lid and observation window are respectively equipped on the top of the fluidized drying lathe and outer wall, it is described steady Gland and the observation window are respectively used to the stabilization of the fluidized drying lathe internal pressure power and fluidized drying lathe work shape The observation of state.

Further, the level height of the driving component is more than the level height of the charging axle.

Further, the bottom side of the wall of the fluidized drying lathe be equipped with control button, the control button with it is described Solenoid valve is electrically connected, and the control button is used to control the on off state of the solenoid valve.

Description of the drawings

Fig. 1 is the structure diagram of fluidized drying device in the utility model first embodiment；

Fig. 2 is the structure diagram between feeding assembly and cutting assembly in Fig. 1；

Fig. 3 is the structure diagram between drive component and fluidized drying lathe in Fig. 1；

Fig. 4 is the structure diagram of fluidized drying lathe in Fig. 3；

Fig. 5 is the structure diagram of drive component in Fig. 2；

Fig. 6 is the structure diagram of heating component in Fig. 1；

Fig. 7 is the structure diagram of fluidized drying lathe in the utility model second embodiment；

Essential element symbol description

Following specific embodiment will further illustrate the utility model with reference to above-mentioned attached drawing.

Specific embodiment

Above-mentioned purpose, feature and advantage to enable the utility model are more obvious understandable, below in conjunction with the accompanying drawings to this The specific embodiment of utility model is described in detail.Several embodiments of the utility model are given in attached drawing.But this Utility model can be realized in many different forms, however it is not limited to embodiment described herein.On the contrary, provide these The purpose of embodiment is the disclosure more thorough and comprehensive made to the utility model.

It should be noted that when element is referred to as " being fixedly arranged on " another element, it can be directly on another element Or there may also be elements placed in the middle.When an element is considered as " connection " another element, it can be directly connected to To another element or it may be simultaneously present centering elements.Term as used herein " vertical ", " horizontal ", " left side ", " right side ", " on ", " under " and similar statement for illustrative purposes only rather than instruction or imply signified device or member Part must have specific orientation, with specific azimuth configuration and operation, therefore it is not intended that limitation to the utility model.

In the utility model unless specifically defined or limited otherwise, term " installation ", " connected ", " connection ", " Gu It is fixed " etc. terms should be interpreted broadly, for example, it may be being fixedly connected or being detachably connected or be integrally connected；It can To be mechanical connection or be electrically connected；It can be directly connected, can also be indirectly connected by intermediary, Ke Yishi Connection inside two elements.For the ordinary skill in the art, above-mentioned term can be understood as the case may be Concrete meaning in the utility model.Term as used herein " and/or " including one or more relevant Listed Items Arbitrary and all combination.

Referring to Fig. 1, the utility model embodiment provides a kind of fluidized drying device 100, including feeding assembly 10 and institute The cutting assembly 20 for stating the connection of feeding assembly 10, the drive component 30 that is connect with 20 discharge port of cutting assembly and with the drive The fluidized drying lathe 40 that dynamic component 30 connects, the feeding assembly 10 are used to facilitate the charging of the fluidized drying device 100, The cutting assembly 20 is used to carry out raw material the first cutting for being dried and carrying out raw material, prevents the blocking of raw material, described The raw material that drive component 30 is used to convey the cutting assembly 20 is driven towards the fluidized drying lathe 40, effectively Improve the whole material transport efficiency of the fluidized drying device 100, and raw material is played by using the mode of blowing Desiccation, the fluidized drying lathe 40 are used for the drying process of final material.

Fig. 2 to Fig. 3 is please referred to, the cutting assembly 20 includes fixed station 21, the bearing box on the fixed station 21 24th, the cutter in the bearing box 24 and the drier 26 on 21 side wall of fixed station, the drier 26 Air outlet connect with the bearing box 24, the drier 26 is used to carry out first time to the raw material in the bearing box 24 It is dried, improves the drying efficiency of the fluidized drying device 100, the cutter includes pushing up set on the fixed station 21 Cutting motor 22 on portion's inner wall, the cutting shaft 23 being connect with the cutting motor 22 and in the cutting shaft 23 Cutting sheet 25 drives the cutting shaft 23 and the cutting sheet 25 to be rotated when the cutting motor 22 works, so that Cutting process can be carried out to the raw material in the bearing box 24, it is therefore prevented that the blocking of raw material in the bearing box 24.

It please refers to Fig.1 and Fig. 6, the feed inlet lower section of 20 lower end of cutting assembly is equipped with heating component 50, the heating Component 50 is used to heat the raw material in the cutting assembly 20, and blow the raw material in the cutting assembly 20 towards institute It states drive component 30 to convey, by the design of the heating component 50, has effectively been carried out to the raw material of the bearing box 24 Secondary drying process further improves the drying efficiency of the fluidized drying device 100.

Specifically, the heating component 50 includes the third fan 51, the 4th fan 52 and the heater 53 that sequentially connect, institute It states between the 4th fan 52 and the heater 53, connected between the heater 53 and the bearing box 24 using appendix It connects, the third fan 51 and the 4th fan 52 are used for the high-temperature gas that the heater 53 generates towards the carrying It is conveyed in case 24, to accelerate the drying of raw material.

The feeding assembly 10 include material feeding box 11, through the material feeding box 11 charging axle 12 and with the charging axle 12 The charging motor 13 of connection, the charging axle 12 is equipped with into tablet, described to be used to work when the charging motor 13 into tablet When driving the charging axle 12 to be rotated, the raw material in the material feeding box 11 is driven, improves the conveying effect of raw material Rate, is arranged with fixed case 14 between the charging motor 13 and the charging axle 12, the fixed case 14 for improve it is described into Expect the stability of structure between motor 13 and the charging axle 12, set between the charging axle 12 and the outer wall of the material feeding box 11 There is limiting plate 15, the limiting plate 15 is set in the charging axle 12, and the limiting plate 15 is used to prevent the charging axle 12 Position movement between the material feeding box 11 improves the stabilization of structure between the material feeding box 11 and the charging axle 12 Property, towards one end of the charging motor 13 equipped with limited block 16, the length of the charging axle 12 is more than the charging axle 12 The length of the material feeding box 11.

Referring to Fig. 4, the side wall of the fluidized drying lathe 40 is equipped with air inducing hole 43, it is connected on the air inducing hole 43 Hot-blast stove, the air inducing hole 43 are used to the high-temperature gas that the hot-blast stove generates being delivered in the fluidized drying lathe 40, Multiple adjusting control components are equipped in the fluidized drying lathe 40, the adjusting control component includes wind conveying pipe 41 and set on institute The solenoid valve 42 on wind conveying pipe 41 is stated, the adjusting control component is used to control the air inducing hole 43 towards the boiling drier The size of the High Temperature Gas scale of construction of 40 conveying of bed.

Referring to Fig. 5, the driving component 30 includes the air-introduced machine 31, the first fan 32 and the second fan that sequentially connect 33, the raw material that the driving component 30 is used to convey the cutting assembly 20 drives towards the fluidized drying lathe 40, The lower section of first fan 32 and second fan 33 is equipped with wind-guiding case 34, and the end of the wind-guiding case 34 is equipped with guide Component, the guide component is used for will be in the feedstock transportation in the wind-guiding case 34 to the fluidized drying lathe 40.

Referring to Fig. 5, the guide component includes the passage 36 being connect with 34 end of wind-guiding case, is led set on described Lead material motor 35 in expects pipe 36 and the guide axis being connect with the lead material motor 35, the guide are located in the passage 36 It is interior, and the guide axis is equipped with guide paddle, the end of the passage 36 is connect with the fluidized drying lathe 40.

The level height of the driving component 30 is more than the level height of the charging axle 12, the fluidized drying lathe 40 Bottom side of the wall be equipped with control button 44, the control button 44 is electrically connected with the solenoid valve 42, the control button 44 are used to control the on off state of the solenoid valve 42.

In the present embodiment, by the design of the feeding assembly 10, facilitate the fluidized drying device 100 it is whole into Material, improves powder feeding efficiency, by the design of the drier 26, so that the raw material in the bearing box 24 do for the first time Dry processing by the design of the cutter, effectively can carry out cutting process to the raw material in the bearing box 24, it is therefore prevented that The blocking of raw material by the design of the driving component 30, can effectively carry out the raw material in the bearing box 24 second Drying process, and by the design of the air-introduced machine 31, first fan 32 and second fan 33, can effectively by Raw material in the bearing box 24 is conveyed towards the driving component 30, and passes through the design of the driving component 30, using blowing The mode of wind carries out raw material the drying process of third time, and raw material effectively is delivered to the boiling by the guide component It rises in dry lathe 40, improves the whole transfer efficiency of the fluidized drying device 100, pass through setting for the air inducing hole 43 Meter effectively carries out the raw material in the fluidized drying lathe 40 drying process of the 4th time, improves the fluidized drying The drying efficiency of device 100.

Referring to Fig. 7, the structure diagram for fluidized drying lathe 40a in the utility model second embodiment, this second The structure of embodiment and first embodiment is more or less the same, and difference lies in the tops of the 40a of fluidized drying lathe described in the present embodiment Voltage stabilizing lid 45 and observation window 46 are respectively equipped in portion and outer wall, the voltage stabilizing lid 45 and the observation window 46 are respectively used to the boiling Rise the observation of the stabilization of pressure and the fluidized drying lathe 40a working conditions in dry lathe 40a.

In the present embodiment, by the design of the voltage stabilizing lid 45, effectively prevent the fluidized drying lathe 40a due to It is damaged caused by internal pressure is excessive, improves the service life of the fluidized drying lathe 40a, and pass through the observation window 46 Design, facilitate user to being observed in the fluidized drying lathe 40a, improve the experience of user.

Embodiment described above only expresses the several embodiments of the utility model, and description is more specific and detailed, But it should not be interpreted as limiting the scope of the present invention.It should be pointed out that for the common of this field For technical staff, without departing from the concept of the premise utility, various modifications and improvements can be made, these all belong to In the scope of protection of the utility model.Therefore, the protection domain of the utility model patent should be determined by the appended claims.

Claims (10)

1. a kind of fluidized drying device, it is characterised in that：The cutting assembly that is connect including feeding assembly, with the feeding assembly, The drive component being connect with the cutting assembly discharge port and the fluidized drying lathe being connect with the driving component, the cutting Component includes fixed station, the bearing box on the fixed station, the cutter in the bearing box and set on described solid Determine the drier on platform side wall, the air outlet of the drier is connect with the bearing box, and the cutter includes being set on described Cutting motor in fixed station top inner wall, the cutting shaft being connect with the cutting motor and in the cutting shaft Cutting sheet, the driving component include the air-introduced machine, the first fan and the second fan that sequentially connect, first fan and described Wind-guiding case is equipped with below second fan, the end of the wind-guiding case is equipped with guide component, and the guide component is used for institute It states in the feedstock transportation to the fluidized drying lathe in wind-guiding case, the side wall of the fluidized drying lathe is equipped with air inducing hole, Hot-blast stove is connected on the air inducing hole, the air inducing hole is used to the high-temperature gas that the hot-blast stove generates being delivered to the boiling It rises in dry lathe, multiple adjusting control components is equipped in the fluidized drying lathe, the adjusting control component includes defeated wind Pipe and the solenoid valve on the wind conveying pipe, the adjusting control component are used to control the air inducing hole dry towards the boiling The size of the High Temperature Gas scale of construction of dry lathe conveying.

2. fluidized drying device according to claim 1, it is characterised in that：The guide component includes and the wind-guiding case Passage, the lead material motor on the passage and the guide axis being connect with the lead material motor of end connection, it is described Guide is located in the passage, and the guide axis is equipped with guide paddle, and the end of the passage and the boiling are dry Dry lathe connection.

3. fluidized drying device according to claim 1, it is characterised in that：The feeding assembly includes material feeding box, runs through The charging axle of the material feeding box and the charging motor with the charging axis connection, the charging axle are equipped with into tablet.

4. fluidized drying device according to claim 3, it is characterised in that：Between the charging motor and the charging axle Fixed case is arranged with, limiting plate is equipped between the charging axle and the outer wall of the material feeding box, the limiting plate is set in described In charging axle.

5. fluidized drying device according to claim 3, it is characterised in that：The charging axle is towards the charging motor One end is equipped with limited block, and the length of the charging axle is more than the length of the material feeding box.

6. fluidized drying device according to claim 1, it is characterised in that：Below the feed inlet of the cutting assembly lower end Equipped with heating component, the heating component is used to heat the raw material in the cutting assembly, and blow the cutting group Raw material in part is conveyed towards the driving component.

7. fluidized drying device according to claim 6, it is characterised in that：The heating component includes sequentially connect the Three fan, the 4th fan and heater, between the 4th fan and the heater, the heater and the bearing box it Between using appendix connect.

8. fluidized drying device according to claim 1, it is characterised in that：The top of the fluidized drying lathe and outer wall On be respectively equipped with voltage stabilizing lid and observation window, the voltage stabilizing lid and the observation window are respectively used to the fluidized drying lathe internal pressure power Stabilization and the fluidized drying lathe working condition observation.

9. fluidized drying device according to claim 3, it is characterised in that：The level height of the driving component is more than institute State the level height of charging axle.

10. fluidized drying device according to claim 1, it is characterised in that：The bottom side of the wall of the fluidized drying lathe Control button is equipped with, the control button is electrically connected with the solenoid valve, and the control button is used to control the electromagnetism The on off state of valve.