CN214842196U - Nano-material drying machine - Google Patents

Abstract

The utility model relates to the technical field of drying equipment, and discloses a nano-material dryer, wherein the controller is fixedly connected with the front surface of a first shell, the feed inlet is arranged on the upper surface of the first shell, the discharge outlet is arranged on the lower surface of the first shell, the vent openings are arranged on the left side and the right side of the first shell, the heating plate is fixedly connected with the left side and the right side of the inner wall of the first shell, the stirring mechanism is arranged in the first shell, the wind circulating mechanism is arranged on the left side and the right side of the first shell, the stirring mechanism is arranged in the first shell, so that the nano-material can be stirred when being dried, the nano-material can rotate in the first shell, the nano-material can be fully contacted with the heating plate, the drying effect can be enhanced, the wind circulating mechanisms are arranged on the left side and the right side of the first shell, the nanometer material can be prevented from gathering and adhering on the inner wall of the first shell due to the action of wind force.

Description

Nano-material drying machine

Technical Field

The utility model relates to a drying equipment technical field specifically is a nano-material desiccator.

Background

Nanomaterials are described in principle as materials with individual units of between 1 and 1000 nm in size. The components for preparing the nano material can be metal, cyanide, various compounds and the like, but the nano material has moisture in the production process, so that the nano material needs to be dried.

However, the existing dryer is not internally provided with a stirring mechanism, so that the drying efficiency is low and the drying is insufficient, and the nano materials are easy to gather and stick to the inner wall of the dryer in the drying process because the volume of the nano materials is small. Accordingly, one skilled in the art provides a nanomaterial dryer to solve the problems set forth in the background art described above.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a nano-material drying machine to solve the problem of proposing among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme:

the utility model provides a nano-material drying machine, includes first shell, controller, feed inlet, discharge gate, vent and hot plate, the front surface rigid coupling of first shell has the controller, the upper surface of first shell has been seted up the feed inlet, the lower surface of first shell has been seted up the discharge gate, the left and right sides of first shell has all been seted up the vent, the equal rigid coupling in the left and right sides of first shell inner wall has the hot plate, the inside of first shell is provided with rabbling mechanism, the left and right sides of first shell all is provided with wind circulation mechanism.

As a further aspect of the present invention: the stirring mechanism comprises a first motor, a first rotating shaft and a stirring rod, the driving end of the first motor is connected with the first rotating shaft through a coupler, the surface of the first rotating shaft is sleeved with the stirring rod, the drying speed is improved, and the time is saved.

As a further aspect of the present invention: the air circulation mechanism comprises a second shell, a filter screen, a second motor, a second rotating shaft and an electric blowing fan, wherein the filter screen is fixedly connected to the left side of the second shell, the right side of the inner wall of the second shell is fixedly connected to the second motor, the driving end of the second motor is connected to the second rotating shaft through a coupling, the electric blowing fan is sleeved at the other end of the second rotating shaft, and nanometer materials are prevented from being gathered and adhered to the inner wall of the first shell.

As a further aspect of the present invention: the quantity of puddler is 7 for dry speed has been accelerated, makes nano-material and hot plate fully contact.

As a further aspect of the present invention: the length of filter screen is greater than the length of vent, avoids nanometer material to reveal to the inside of second shell from the inside of first shell.

As a further aspect of the present invention: the number of the electric blowing fans is 2, so that the nanometer materials are prevented from being gathered and adhered to the inner wall of the first shell.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the stirring mechanism is arranged in the first shell, so that the nano material can be stirred when being dried, the nano material can rotate in the first shell, and the nano material can be fully contacted with the heating plate, the drying effect is enhanced, and the working efficiency is improved;

2. all set up the wind circulation mechanism in the left and right sides of first shell, can avoid the nano-material gathering and be stained with and glue on the inner wall of first shell because the effect of wind force, can make the heat that the hot plate distributed out circulate in the inside of first shell simultaneously, strengthen drying rate.

Drawings

FIG. 1 is a schematic structural diagram of a nanomaterial dryer;

FIG. 2 is a schematic view of an installation structure of a stirring mechanism in a nano-material dryer;

fig. 3 is a schematic structural diagram of a wind circulation mechanism in a nanomaterial dryer.

In the figure: 1. a first housing; 2. a controller; 3. a feed inlet; 4. a discharge port; 5. a vent; 6. heating plates; 7. a first motor; 8. a first rotating shaft; 9. a stirring rod; 10. a second housing; 11. filtering with a screen; 12. a second motor; 13. a second rotating shaft; 14. an electric blower fan; 15. a stirring mechanism; 16. and a wind circulation mechanism.

Detailed Description

Referring to fig. 1 to 3, in an embodiment of the present invention, a nano material dryer includes a first housing 1, a controller 2, a feeding port 3, a discharging port 4, a ventilating port 5, and a heating plate 6, the controller 2 is fixedly connected to a front surface of the first housing 1, the feeding port 3 is formed on an upper surface of the first housing 1, the discharging port 4 is formed on a lower surface of the first housing 1, the ventilating port 5 is formed on both left and right sides of the first housing 1, the heating plate 6 is fixedly connected to both left and right sides of an inner wall of the first housing 1, a stirring mechanism 15 is disposed inside the first housing 1, the stirring mechanism 15 includes a first motor 7, a first rotating shaft 8, and a stirring rod 9, a driving end of the first motor 7 is connected to the first rotating shaft 8 through a coupling, the stirring rod 9 is sleeved on a surface of the first rotating shaft 8, the number of the stirring rods 9 is 7, when in use, a nano material is firstly put into the first housing 1 through the feeding port 3, then make first motor 7 begin work through controller 2, then can drive first axis of rotation 8 and puddler 9 when first motor 7 begins work and begin to rotate, then can make the abundant and the hot plate 6 contact of nano-material when puddler 9 rotates to reinforcing stoving effect has improved work efficiency.

In fig. 1 and 3: the left side and the right side of the first shell 1 are both provided with an air circulation mechanism 16, the air circulation mechanism 16 comprises a second shell 10, a filter screen 11, a second motor 12, a second rotating shaft 13 and electric blowing fans 14, the left side of the second shell 10 is fixedly connected with the filter screen 11, the length of the filter screen 11 is larger than that of the ventilation opening 5, the right side of the inner wall of the second shell 10 is fixedly connected with the second motor 12, the driving end of the second motor 12 is connected with the second rotating shaft 13 through a coupling, the other end of the second rotating shaft 13 is sleeved with the electric blowing fans 14, the number of the electric blowing fans 14 is 2, the second motor 12 can be started to work through the controller 2, when the second motor 12 starts to work, the second rotating shaft 13 and the electric blowing fans 14 can be driven to start to work, wind power generated by the electric blowing fans 14 can be transmitted to the heating plate 6 through the ventilation opening 5, and then the hot air around the heating plate 6 can circularly move in the first shell 1, the wind force prevents the nano material from gathering and sticking to the inner wall of the first housing 1, and at the same time, accelerates the drying speed.

The utility model discloses a theory of operation is: when the drying device is used, firstly, the nano material is placed into the first shell 1 through the feeding hole 3, then the first motor 7 starts to work through the controller 2, when the first motor 7 starts to work, the first rotating shaft 8 is driven to rotate, when the first rotating shaft 8 rotates, the stirring rod 9 sleeved on the surface of the first rotating shaft 8 also starts to rotate, and when the stirring rod 9 rotates, the nano material can be fully contacted with the heating plate 6, so that the drying effect is enhanced, and the working efficiency is improved; then make second motor 12 begin work through controller 2 again, when second motor 12 begins work, then can drive second axis of rotation 13 and begin to rotate, cup joint when second axis of rotation 13 rotates and then can begin to work at its surperficial electronic fan 14 of blowing, the wind-force that electronic fan 14 produced of blowing can pass through vent 5 and transmit hot plate 6 department, then the hot-air circulation motion of the inside of first shell 1 around the hot plate 6, the effect of wind-force has avoided the nanometer material gathering and has stained with and glue on the inner wall of first shell 1, the dry speed has been accelerated simultaneously.

The above-mentioned, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (6)

1. The utility model provides a nano-material drying machine, includes first shell (1), controller (2), feed inlet (3), discharge gate (4), vent (5) and hot plate (6), a serial communication port, the front surface rigid coupling of first shell (1) has controller (2), seted up the upper surface of first shell (1) feed inlet (3), seted up the lower surface of first shell (1) discharge gate (4), the left and right sides of first shell (1) has all been seted up vent (5), the equal rigid coupling in the left and right sides of first shell (1) inner wall has hot plate (6), the inside of first shell (1) is provided with rabbling mechanism (15), the left and right sides of first shell (1) all is provided with wind circulation mechanism (16).

2. The nano-material drying machine according to claim 1, wherein the stirring mechanism (15) comprises a first motor (7), a first rotating shaft (8) and a stirring rod (9), the driving end of the first motor (7) is connected with the first rotating shaft (8) through a coupling, and the stirring rod (9) is sleeved on the surface of the first rotating shaft (8).

3. The nano-material drying machine according to claim 1, wherein the air circulation mechanism (16) comprises a second housing (10), a filter screen (11), a second motor (12), a second rotating shaft (13) and an electric blowing fan (14), the filter screen (11) is fixedly connected to the left side of the second housing (10), the second motor (12) is fixedly connected to the right side of the inner wall of the second housing (10), the driving end of the second motor (12) is connected with the second rotating shaft (13) through a coupling, and the electric blowing fan (14) is sleeved on the other end of the second rotating shaft (13).

4. The nanomaterial dryer according to claim 2, wherein the number of the stirring rods (9) is 7.

5. The nanomaterial dryer of claim 3, wherein the length of the screen (11) is greater than the length of the ventilation opening (5).

6. The nanomaterial dryer according to claim 3, wherein the number of the electric blowing fans (14) is 2.

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