CN220454014U - Uniform cooling device for nano material - Google Patents

Abstract

The utility model discloses a nano material uniform cooling device, and belongs to the technical field of material cooling. Comprises a fixing frame, an outer barrel arranged on the fixing frame, and an inner barrel arranged in the outer barrel; the utility model discloses a nano-material cooling device, including outer bucket, inner bucket, outer bucket, sealed cavity is formed in the clearance in advance between outer bucket and the inner bucket, the inner bucket is used for holding the nano-material that waits to cool, still include by supreme baffle that locates in the sealed cavity down, locate outer bucket upper end and intercommunication sealed cavity's inlet tube, locate outer bucket lower extreme and intercommunication sealed cavity's outlet pipe, locate the mount side and communicate the cooling module of inlet tube and outlet pipe, and install in outer bucket top and part are located the stirring portion in the inner bucket. According to the utility model, under the action of the stirring part, the nano material in the inner barrel moves in the inner barrel according to a preset form, and under the action of the cooling liquid, the nano material can be uniformly cooled, meanwhile, the cooling time of the nano material can be shortened, and the working efficiency is improved.

Description

Uniform cooling device for nano material

Technical Field

The utility model relates to the technical field of material cooling, in particular to a nano material uniform cooling device.

Background

The nanometer material refers to a novel material composed of particles with the particle size of 1-100 nm. Because of its small size, large specific surface area and quantum size effect, it has special properties not possessed by conventional coarse-grain materials, and exhibits remarkable application prospects in light absorption, sensitivity, catalysis and other functional properties.

The nano material is usually manufactured by adopting methods of heating evaporation, cooling, washing, drying and the like, the traditional cooling device has poor cooling effect, as shown in patent number CN202023257789.9, adopts the form of an outer box and an inner box, and a cavity is reserved between the outer box and the inner box, and water is sent into the cavity through a water pump, so that the nano material in the inner box is subjected to cooling treatment.

Disclosure of Invention

The utility model aims to overcome the defects in the prior art and provide a nano material uniform cooling device to solve the problems in the prior art.

In order to achieve the above purpose, the present utility model provides the following technical solutions: a nano material uniform cooling device comprises a fixing frame, an outer barrel arranged on the fixing frame and an inner barrel arranged in the outer barrel; a gap is reserved between the outer barrel and the inner barrel to form a sealed cavity, and the inner barrel is used for containing the nano material to be cooled and further comprises:

the baffle plate is spirally arranged in the sealing cavity from bottom to top; the sealing cavity forms a condensation channel under the barrier of the partition plate; the top and the bottom of the outer barrel are respectively provided with a water inlet pipe and a water outlet pipe which are communicated with the sealing cavity;

the cooling assembly is arranged on the side surface of the fixing frame and is communicated with the water inlet pipe and the water outlet pipe; the liquid in the cooling component is conveyed into the condensing channel by the water inlet pipe and flows back into the cooling component from the water outlet pipe;

the stirring part is arranged at the top of the outer barrel and is partially positioned in the inner barrel; the stirring part is used for stirring the nano materials in the inner barrel.

Preferably, the outer bucket is the hollow structure that the top is equipped with the feed inlet, outer bucket lower extreme is equipped with the discharge gate, sealing is installed to feed inlet department, sealing includes:

the body is fixedly arranged at the feeding port; a cover body is hinged on the body;

a rotating ring rotatably connected to the top surface of the body and operatively connected to the cover; the outer wall of the rotating ring is provided with an arc-shaped rack;

at least one group of limiting columns arranged on the body and positioned at the end part of the arc-shaped rack; the limiting column is used for limiting the movement range of the arc-shaped rack;

the rotating shaft is arranged on the body and positioned at the outer side of the arc-shaped rack; the rotating shaft is sleeved with a gear, and the gear is meshed with the arc-shaped rack.

Preferably, the sealing part further includes:

at least one group of clamping blocks are arranged on the body and are positioned on the opposite face with the cover body; the clamping blocks are positioned on two sides of the rotating shaft;

and the limiting shaft is arranged on the rotating shaft and is in operative butt joint with the clamping block.

Preferably, the cooling assembly includes:

the water tank is arranged on the side surface of the fixing frame;

the condensing part is arranged in the water tank;

and the water outlet end of the water pump is communicated with the water inlet pipe.

Preferably, the stirring section includes:

the power source is arranged at the top of the outer barrel;

the transmission shaft is arranged in the inner barrel and is in driving connection with the power source;

stirring paddle is installed in the outside of transmission shaft through the bracing piece.

Preferably, the stirring blade includes:

the first propeller blade is sleeved on the outer side of the transmission shaft in a anticlockwise manner;

the second propeller blade is sleeved on the outer side of the first propeller blade clockwise; a gap is reserved between the first propeller blade and the second propeller blade.

The beneficial effects are that: the cooling component is used for conveying cooling liquid into the condensation channel, the nano material in the inner barrel is cooled under the action of the cooling liquid, the nano material in the inner barrel moves in the inner barrel according to a preset form under the action of the stirring part, the nano material can be cooled uniformly under the action of the cooling liquid, the cooling time of the nano material can be shortened, and the working efficiency is improved.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic view of a separator according to the present utility model;

FIG. 3 is a schematic view of a seal of the present utility model;

FIG. 4 is an exploded view of the seal of the present utility model;

FIG. 5 is a schematic view of a stirring section according to the present utility model.

The reference numerals in fig. 1 to 4 are: the water tank comprises a fixing frame 1, an outer barrel 2, an inner barrel 3, a partition plate 4, a water inlet pipe 5, a water outlet pipe 6, a cooling assembly 7, a stirring part 8, a sealing part 9, a water tank 71, a water pump 72, a power source 81, a transmission shaft 82, a first screw blade 83, a second screw blade 84, a body 91, a cover 92, a rotating ring 93, an arc-shaped rack 94, a limiting column 95, a rotating shaft 96, a gear 97, a clamping block 98 and a limiting shaft 99.

Detailed Description

Referring to fig. 1, the present utility model provides a technical solution: the utility model provides a nano-material even cooling device, includes mount 1, install outer bucket 2 on the mount 1, outer bucket 2 is the hollow structure that the feed inlet was seted up at the top, feed inlet department installs sealing 9, place interior bucket 3 in the outer bucket 2, interior bucket 3 is used for holding the nano-material of waiting the cooling, as shown in fig. 2, interior bucket 3 with leave the sealed cavity of clearance formation between the outer bucket 2, outer bucket 2 below is equipped with the discharging pipe, the discharging pipe intercommunication interior bucket 3, by supreme installation baffle 4 down in the sealed cavity, form the condensation passageway, cooling module 7 includes water tank 71, water tank 71 places the side at mount 1, water tank 71 is arranged in depositing water, install the condensation in the water tank 71, carry out the cooling treatment to the water in the water tank 71 through the condensation, the upper end installation inlet tube 5 of outer bucket 2, the lower extreme installation outlet pipe 6, inlet tube 5 is in the output intercommunication of water pump 72, will be cooled down by the condensation cooling treatment and carry out the cooling material in the cooling channel through the cooling down evenly in the water tank 3, can's the cooling material is realized to the cooling down in the cooling channel 3, simultaneously, can't make the nano-material is cooled down in the cooling channel 3 is realized to the cooling material, simultaneously, can's the cooling material is not be cooled down in the cooling channel is realized, the cooling material is realized in the cooling 3, simultaneously, the cooling material is realized in the cooling 3, the cooling material is not is cooled down in the cooling channel, the cooling channel is simultaneously, can's 3.

In order to avoid the loss of the nano material in the process of stirring the nano material, as shown in fig. 3 to 4, in a further embodiment, the sealing part 9 comprises a body 91, the body 91 is installed at a feed port, a cover 92 is hinged on the body 91, a rotating ring 93 is rotatably installed on the body 91, an arc-shaped rack 94 is installed on the outer wall of the rotating ring 93, at least one group of limiting posts 95 are installed on the body 91, two groups of limiting posts 95 are installed in the embodiment and are respectively close to the arc-shaped rack 94, the limiting posts 95 are used for limiting the moving range of the arc-shaped rack 94, a rotating shaft 96 is installed on the body 91, a gear 97 is installed on the rotating shaft 96, the gear 97 is meshed with the arc-shaped rack 94, the rotating shaft 96 is driven to rotate under the action of external force, and under the mutual matching of the gear 97 and the arc-shaped rack 94, when the nano material is required to be filled into the inner barrel 3, the rotating ring 93 is driven to rotate under the action of external force, so that the rotating ring 93 and the cover 92 are separated from each other, at the moment, the cover 92 is opened under the action of external force, the nano material to be cooled can be filled into the inner barrel 3, after the nano material is filled, the cover 92 rotates on the body 91, the rotating ring 93 is driven to rotate under the cooperation of the gear 97 and the arc rack 94, so that the rotating ring 93 is pressed on the cover 92, the cover 92 is limited and fixed, the nano material is prevented from being lost in the stirring process of the stirring part 8, at least one group of clamping blocks 98 are arranged on the body 91, in the embodiment, two groups of clamping blocks 98 are adopted, the clamping blocks and the rotating ring 93 are positioned on the upper side and the lower side of the body 91, a limiting shaft 99 is also arranged at the lower end of the rotating shaft 96, when the cover 92 is in an open state, the limiting shaft 99 abuts against one of the clamping blocks 98, but the rotating ring 93 is used for limiting and fixing the cover 92, the limiting shaft 99 abuts against the other clamping block 98, and vibration generated in the stirring process of the stirring part 8 is avoided under the action of the clamping block 98, so that the rotating ring 93 rotates.

In order to cool the nano material sufficiently uniformly, as shown in fig. 5, in a further embodiment, the stirring part 8 comprises a power source 81, the power source 81 is installed on the top of the outer barrel 2, a driving motor is adopted as the power source 81 in the embodiment, the output end of the motor is connected with a transmission shaft 82, the transmission shaft 82 is arranged in the inner barrel 3, the transmission shaft 82 extends all the way to be close to the bottom of the inner barrel, the transmission shaft 82 is provided with stirring paddles through a plurality of supporting rods, wherein the stirring paddles comprise a first screw propeller blade 83 and a second screw propeller blade 84, a gap is reserved between the first screw propeller blade 83 and the second screw propeller blade 84, the first screw propeller blade 83 and the second screw propeller blade 84 are installed on the transmission shaft 82 through supporting rods from bottom to top, namely, if the first screw propeller blade 83 rotates clockwise, the second screw propeller blade 84 rotates anticlockwise, otherwise, the nano material forms a circulation movement from bottom to top to bottom of the inner barrel by the first screw propeller blade 83 and the second screw propeller blade 84, the first screw propeller blade 83 rotates anticlockwise, the nano material is prevented from moving from top to bottom by the inner barrel 84 by adopting the first screw propeller blade 84, and the first screw propeller blade 84 rotates anticlockwise, the nano material is prevented from moving along the circulation in the inner barrel, the circulation process from moving from top to bottom to top to bottom by the first screw propeller blade 84, the nano material is cooled down, resulting in an uneven cooling process.

The specific features described in the above embodiments may be combined in any suitable manner without contradiction. The various possible combinations of the utility model are not described in detail in order to avoid unnecessary repetition.

Claims (6)

1. A nano material uniform cooling device comprises a fixing frame, an outer barrel arranged on the fixing frame and an inner barrel arranged in the outer barrel; a gap is reserved between the outer barrel and the inner barrel to form a sealed cavity, and the inner barrel is used for containing nano materials to be cooled, and is characterized by further comprising:

the baffle plate is spirally arranged in the sealing cavity from bottom to top; the sealing cavity forms a condensation channel under the barrier of the partition plate; the top and the bottom of the outer barrel are respectively provided with a water inlet pipe and a water outlet pipe which are communicated with the sealing cavity;

the cooling assembly is arranged on the side surface of the fixing frame and is communicated with the water inlet pipe and the water outlet pipe; the liquid in the cooling component is conveyed into the condensing channel by the water inlet pipe and flows back into the cooling component from the water outlet pipe;

the stirring part is arranged at the top of the outer barrel and is partially positioned in the inner barrel; the stirring part is used for stirring the nano materials in the inner barrel.

2. The nano-material uniform cooling device according to claim 1, wherein the outer barrel is of a hollow structure with a feed inlet at the top, a discharge outlet is arranged at the lower end of the outer barrel, a sealing part is arranged at the feed inlet, and the sealing part comprises:

the body is fixedly arranged at the feeding port; a cover body is hinged on the body;

a rotating ring rotatably connected to the top surface of the body and operatively connected to the cover; the outer wall of the rotating ring is provided with an arc-shaped rack;

at least one group of limiting columns arranged on the body and positioned at the end part of the arc-shaped rack; the limiting column is used for limiting the movement range of the arc-shaped rack;

the rotating shaft is arranged on the body and positioned at the outer side of the arc-shaped rack; the rotating shaft is sleeved with a gear, and the gear is meshed with the arc-shaped rack.

3. The nanomaterial uniform cooling device according to claim 2, wherein the sealing portion further comprises:

at least one group of clamping blocks are arranged on the body and are positioned on the opposite face with the cover body; the clamping blocks are positioned on two sides of the rotating shaft;

and the limiting shaft is arranged on the rotating shaft and is in operative butt joint with the clamping block.

4. The nanomaterial uniform cooling device of claim 1, wherein the cooling assembly comprises:

the water tank is arranged on the side surface of the fixing frame;

the condensing part is arranged in the water tank;

and the water outlet end of the water pump is communicated with the water inlet pipe.

5. The nanomaterial uniform cooling apparatus according to claim 1, wherein the stirring portion includes:

the power source is arranged at the top of the outer barrel;

the transmission shaft is arranged in the inner barrel and is in driving connection with the power source;

stirring paddle is installed in the outside of transmission shaft through the bracing piece.

6. The nanomaterial uniform cooling device according to claim 5, wherein the stirring blade includes:

the first propeller blade is sleeved on the outer side of the transmission shaft in a anticlockwise manner;

the second propeller blade is sleeved on the outer side of the first propeller blade clockwise; a gap is reserved between the first propeller blade and the second propeller blade.