CN113463095A - Nano silver wire orientation device - Google Patents

Abstract

The invention relates to a nano silver wire orientation device, which comprises a main body frame, an air equalizing assembly, a feeding mechanism and a hot air mechanism, wherein the air equalizing assembly is arranged at the upper part of the main body frame, the feeding mechanism is arranged below the air equalizing assembly, and the hot air mechanism is connected with the air equalizing assembly through a pipeline; when the nano silver wires need to be oriented in the actual production and use process, the substrate coated with the nano silver wires can be placed on the feeding mechanism, then the feeding mechanism conveys the substrate and is connected with the air equalizing assembly, then the hot air mechanism guides hot air into the air equalizing assembly, then the air equalizing assembly blows the uniform hot air to the substrate, and the nano silver wires on the substrate are subjected to angular deviation shaping, so that the nano silver wires can be conveniently oriented, and the cost of the orientation of the nano silver wires is reduced.

Description

Nano silver wire orientation device

Technical Field

The invention relates to the technical field of nano silver wires, in particular to a nano silver wire orientation device.

Background

The nano silver wire is a one-dimensional silver metal material with the length of micron scale and the diameter of nanometer scale, and the length-diameter ratio of the nano silver wire can reach more than 1 ten thousand. Generally, the longer the length and the smaller the diameter of the silver nanowire, the higher the transmittance and the lower the resistance thereof.

The nano silver wire has good application prospects in the application fields of optics (solar energy and the like), electric conduction (LED, touch screen and the like), chemistry, heat and the like, and the most mature application at present is the nano silver wire transparent conductive film.

Therefore, with the continuous development of high and new industries such as flexible OLEDs and touch panels, the demand for the nano silver wire conductive film is also increasing, so that the demand for the design of related manufacturing equipment is increased.

However, most of the applications of using the silver nanowires for orientation are still in research and development, and the method for preparing the silver nanowires with good orientation has high cost, so that an apparatus capable of conveniently and rapidly orienting the silver nanowires and reducing the cost of the silver nanowire orientation is urgently needed.

Disclosure of Invention

Technical problem to be solved

In order to solve the above problems in the prior art, the present invention provides a nano silver wire orienting device, which can orient a nano silver wire conveniently and reduce the cost of the orientation of the nano silver wire.

(II) technical scheme

In order to achieve the purpose, the invention adopts the main technical scheme that:

a nano silver wire orientation device comprises a main body frame, a wind equalizing assembly, a feeding mechanism and a hot air mechanism, wherein the wind equalizing assembly is arranged on the upper portion of the main body frame, the feeding mechanism is arranged below the wind equalizing assembly, and the hot air mechanism is connected with the wind equalizing assembly through a pipeline.

Furthermore, the wind equalizing assembly comprises a wind equalizing box, a wind inlet head and a wind outlet head, wherein the wind inlet head is detachably connected to one side of the wind equalizing box, and the wind outlet head is detachably connected to the other side of the wind equalizing box.

Furthermore, the lower part of the air equalizing box is provided with a feeding opening, the upper part of the air equalizing box is provided with an air adjusting plate, one end of the air adjusting plate is hinged with one side of the air equalizing box, and the other end of the air adjusting plate is connected with the air equalizing box through an adjusting piece.

Further, the even wind subassembly still includes the cowling panel, the inside of even bellows one side is provided with the cowling panel, evenly be provided with a plurality of even wind hole on the cowling panel.

Furthermore, hot-blast mechanism includes air-blower, heater, blast pipe and gas collecting pipe, the air-blower with the heater is connected, the one end of heater is connected with the blast pipe, the blast pipe with the air inlet flow head is connected, the other end of heater is connected with the gas collecting pipe, the gas collecting pipe with the air outlet flow head is connected.

Furthermore, a plurality of first air guide pipes are arranged on the exhaust pipe, second air guide pipes with the same number as the first air guide pipes are arranged on the air inlet flow head, and one first air guide pipe is connected with one second air guide pipe through a first guide pipe;

the gas collecting pipe is provided with a plurality of third gas guide pipes, the gas outlet head is provided with fourth gas guide pipes, the number of the fourth gas guide pipes is the same as that of the third gas guide pipes, and the third gas guide pipes are connected with the fourth gas guide pipes through second guide pipes.

Further, feed mechanism includes lifting unit and conveying component, lifting unit's one end with main body frame is connected, lifting unit's the other end with conveying component's one side drive is connected, conveying component's the another side with the lower surface of homoblast case is connected.

Furthermore, the lifting assembly comprises a bottom plate and a lifting motor, the bottom plate is detachably connected with the main body frame, and one end of the lifting motor is detachably connected with the bottom plate.

Further, conveying assembly includes base frame, transport beam barrel and delivery wheel, elevator motor's the other end with the one side drive of base frame is connected, rotatable coupling has a plurality of on the base frame transport beam barrel, transport beam barrel surface cover is equipped with a plurality of the delivery wheel.

Furthermore, the lifting assembly further comprises a slide rod, the periphery of the base platform is provided with one slide rod, one end of the slide rod is fixedly connected with the base platform, and the other end of the slide rod is arranged on the bottom plate in a penetrating mode and is connected in a sliding mode.

(III) advantageous effects

The invention has the beneficial effects that: when the nano silver wires need to be oriented in the actual production and use process, the substrate coated with the nano silver wires can be placed on the feeding mechanism, then the feeding mechanism conveys the substrate and is connected with the air equalizing assembly, then the hot air mechanism guides hot air into the air equalizing assembly, then the air equalizing assembly blows the uniform hot air to the substrate, and the nano silver wires on the substrate are subjected to angular deviation shaping, so that the nano silver wires can be conveniently oriented, and the cost of the orientation of the nano silver wires is reduced.

Drawings

Fig. 1 is a schematic view of the overall structure of a nano silver wire alignment device according to an embodiment of the present invention;

fig. 2 is a bottom view of the overall structure of a nano-silver wire orienting device according to an embodiment of the present invention;

fig. 3 is a top view of the overall structure of a nano-silver wire alignment device according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a wind equalizing assembly in the silver nanowire orienting device according to the embodiment of the invention;

FIG. 5 is a structural side view of a wind equalizing assembly in the silver nanowire orienting device according to an embodiment of the invention;

FIG. 6 is a schematic view of an inlet gas flow head structure in a nano silver wire alignment apparatus according to an embodiment of the present invention;

FIG. 7 is a schematic diagram of a structure of a rectifier in a nano-silver wire alignment apparatus according to an embodiment of the present invention;

fig. 8 is a schematic structural diagram of a gas outlet head in a nano silver wire alignment apparatus according to an embodiment of the present invention;

fig. 9 is a schematic view of a gas collecting tube structure in a nano silver wire alignment device according to an embodiment of the present invention;

FIG. 10 is a schematic view of the structure of a heater in the nano-silver wire alignment apparatus according to an embodiment of the present invention;

FIG. 11 is a schematic view of the orientation of the silver nanowires in accordance with an embodiment of the invention;

[ description of reference ]

1-a main body frame, 2-an air equalizing assembly, 3-a bottom platform, 4-a conveying shaft roller, 5-a conveying wheel, 6-an exhaust pipe, 7-a heater, 8-a lifting assembly, 9-a gas collecting pipe, 10-a slide bar, 11-a blower, 12-a third air guide pipe, 13-an air outlet, 14-a return port, 15-a main air port, 201-an air outlet head, 202-an air equalizing box, 203-an air inlet head, 204-an air adjusting plate, 205-an adjusting piece, 206-a second air guide pipe, 207-a rectifying plate, 208-a fourth air guide pipe, 801-a bottom plate and 802-a lifting motor.

Detailed Description

For the purpose of better explaining the present invention and to facilitate understanding, the present invention will be described in detail by way of specific embodiments with reference to the accompanying drawings.

Referring to fig. 1 to 11, the nano silver wire orienting device of the present invention includes a main frame 1, a wind equalizing assembly 2, a feeding mechanism and a hot air mechanism, wherein the wind equalizing assembly 2 is disposed on the upper portion of the main frame 1, the feeding mechanism is disposed below the wind equalizing assembly 2, and the hot air mechanism is connected to the wind equalizing assembly 2 through a pipeline.

The working principle of the invention is as follows: when the nano silver wires need to be oriented in the actual production and use process, the substrate coated with the nano silver wires can be placed on the feeding mechanism, then the feeding mechanism conveys the substrate and is connected with the air equalizing assembly 2, then the hot air mechanism guides hot air into the air equalizing assembly 2, then the air equalizing assembly 2 blows the uniform hot air to the substrate, and the nano silver wires on the substrate are subjected to angular deviation shaping.

Further, the air equalizing assembly 2 comprises an air equalizing box 202, an air inlet flow head 203 and an air outlet flow head 201, wherein the air inlet flow head 203 is detachably connected to one side of the air equalizing box 202, and the air outlet flow head 201 is detachably connected to the other side of the air equalizing box 202.

As can be seen from the above description, it is advantageous that hot air enters the inside of the air uniforming box 202 through the air inlet head 203, and the nano silver wires on the substrate are oriented, and then the hot air is led out through the air outlet head 201.

Further, a feeding opening is formed in the lower portion of the air equalizing box 202, an air adjusting plate 204 is arranged on the upper portion of the air equalizing box 202, one end of the air adjusting plate 204 is hinged to one side of the air equalizing box 202, and the other end of the air adjusting plate 204 is connected with the air equalizing box 202 through an adjusting piece 205.

As can be seen from the above description, the side of the substrate with the nano-silver wires is advantageously covered on the feeding opening, so that the hot air can orient the nano-silver wires, and the height of the other end of the air adjusting plate 204 is adjusted by the adjusting member 205, so that the air adjusting plate 204 presses down the hot air on the upper portion of the air equalizing box 202, so that the hot air fully contacts with the nano-silver wires, and the orientation speed of the nano-silver wires is increased.

Further, even wind subassembly 2 still includes cowling panel 207, the inside of even bellows 202 one side is provided with cowling panel 207, evenly be provided with a plurality of even wind hole on the cowling panel 207.

As can be seen from the above description, it is beneficial for the hot air to pass through the air equalizing holes after passing through the rectifying plate 207, so as to ensure the uniformity of the air speed and the temperature in the inner cavity of the air equalizing box 202.

Further, the hot air mechanism comprises an air blower 11, a heater 7, an exhaust pipe 6 and an air collecting pipe 9, the air blower 11 is connected with the heater 7, one end of the heater 7 is connected with the exhaust pipe 6, the exhaust pipe 6 is connected with the air inlet flow head 203, the other end of the heater 7 is connected with the air collecting pipe 9, and the air collecting pipe 9 is connected with the air outlet flow head 201.

As can be seen from the above description, the blower 11 is beneficial to guide the cold air into the heater 7, the cold air is heated by the heater 7, then the heated hot air is guided into the air inlet flow head 203 through the air outlet pipe 6, then the hot air passes through the air equalizing box 202 and is exhausted by the air outlet flow head 201, and then the hot air flows back to the inside of the heater 7 through the air collecting pipe 9, thereby being beneficial to the recycling of the hot air and reducing the energy consumption.

Furthermore, a plurality of first air ducts are arranged on the exhaust pipe 6, second air ducts 206 with the same number as the first air ducts are arranged on the air inlet flow head 203, and one first air duct is connected with one second air duct 206 through the first air duct;

the gas collecting pipe 9 is provided with a plurality of third gas-guide pipes 12, the gas outlet head 201 is provided with fourth gas-guide pipes 208 which are the same in number as the third gas-guide pipes 12, and one of the third gas-guide pipes 12 is connected with one of the fourth gas-guide pipes 208 through a second conduit.

As can be seen from the above description, the exhaust pipe 6 is facilitated to divide the hot air into a plurality of portions uniformly through the plurality of first air ducts, and then the plurality of portions of uniform hot air enter the air inlet flow head 203 through the second air duct 206, so that the air equalizing box 202 has uniformly distributed air speed and temperature; the uniform hot air is then guided into the third air duct 12 through the four air ducts and flows back through the air collecting duct 9.

Further, feed mechanism includes lifting unit 8 and conveying assembly, lifting unit 8's one end with main body frame 1 is connected, lifting unit 8's the other end with conveying assembly's one side drive is connected, conveying assembly's another side with the lower surface of homoblast case 202 is connected.

As can be seen from the above description, it is advantageous to feed the substrate coated with the nano silver wires to the lower side of the feeding opening through the conveying assembly, and then the lifting assembly 8 drives the conveying assembly and the substrate to ascend, and then the feeding opening is sealed through the substrate.

Further, the lifting assembly 8 comprises a bottom plate 801 and a lifting motor 802, the bottom plate 801 is detachably connected with the main body frame 1, and one end of the lifting motor 802 is detachably connected with the bottom plate 801.

Further, conveying assembly includes base frame 3, conveying beam barrel 4 and delivery wheel 5, elevator motor 802 the other end with the one side drive of base frame 3 is connected, rotatable coupling has a plurality of on the base frame 3 conveying beam barrel 4, 4 outer surface covers of conveying beam barrel are equipped with a plurality of delivery wheel 5.

As can be seen from the above description, it is advantageous for the substrate to contact the conveying wheel 5, so that the substrate drives the conveying shaft roller 4 and the conveying wheel 5 to rotate on the base table 3, so that the substrate can move on the base table 3, and the base table 3 is driven to lift by the lifting motor 802.

Further, the lifting assembly 8 further comprises a slide rod 10, the periphery of the base 3 is provided with one slide rod 10, one end of the slide rod 10 is fixedly connected with the base 3, and the other end of the slide rod 10 penetrates through the bottom plate 801 and is connected in a sliding manner.

As can be seen from the above description, the base 3 is advantageously more stabilized by the slide bar 10 during the raising and lowering.

Example one

Referring to fig. 1 to 11, a nano silver wire orientation device includes a main frame 1, an air equalizing assembly 2, a feeding mechanism and a hot air mechanism, wherein the air equalizing assembly 2 is disposed on the upper portion of the main frame 1, the feeding mechanism is disposed below the air equalizing assembly 2, and the hot air mechanism is connected to the air equalizing assembly 2 through a pipeline;

the air equalizing assembly 2 comprises an air equalizing box 202, an air inlet head 203 and an air outlet head 201, wherein the air equalizing box 202 is detachably connected with the main body frame 1 through screws, one side of the air equalizing box 202 is detachably connected with the air inlet head 203 through screws, and the other side of the air equalizing box 202 is detachably connected with the air outlet head 201 through screws;

the lower part of the air equalizing box 202 is provided with a feeding opening, a sealing ring is arranged on the feeding opening, a gap between the feeding opening and a base plate is reduced, air leakage is avoided, the upper part of the air equalizing box 202 is provided with an air adjusting plate 204, one end of the air adjusting plate 204 is hinged with one side of the air equalizing box 202 through a hinge, and the other end of the air adjusting plate 204 is connected with the air equalizing box 202 through an adjusting piece 205;

the two sides of the air adjusting plate 204 are both provided with side plates, the side plates and the air equalizing box 202 are in an integrated structure, and the side plates are used for allowing hot air to pass through gaps between the air adjusting plate 204 and the air equalizing box 202 and leak laterally when the air adjusting plate 204 rotates;

a strip-shaped groove is formed in one side, close to the adjusting piece 205, of the air equalizing box 202, a screw is arranged at the other end of the air adjusting plate 204, one end of the screw is welded with the other end of the air adjusting plate 204, the middle of the screw penetrates through the strip-shaped groove and is movably connected with the strip-shaped groove, the other end of the screw is in threaded connection with the adjusting piece 205, and the adjusting piece 205 is a butterfly nut;

the air equalizing assembly 2 further comprises a rectifying plate 207, the rectifying plate 207 is arranged inside one side of the air equalizing box 202, and a plurality of air equalizing holes are uniformly formed in the rectifying plate 207;

the number of the rectifying plates 207 is 3;

the hot air mechanism comprises an air blower 11, a heater 7, an exhaust pipe 6 and a gas collecting pipe 9, the air blower 11 is connected with the heater 7, one end of the heater 7 is connected with the exhaust pipe 6, the exhaust pipe 6 is connected with the gas inlet flow head 203, the other end of the heater 7 is connected with the gas collecting pipe 9, and the gas collecting pipe 9 is connected with the gas outlet flow head 201;

the exhaust pipe 6 and the gas collecting pipe 9 have the same structure;

the hot air mechanism further comprises an air pipe, the heater 7 is sleeved on the outer surface of the air pipe, a main air port 15 is arranged at one end of the air pipe, the main air port 15 is connected with the air blower 11, an air outlet 13 is arranged at the other end of the air pipe, the air outlet 13 is connected with the exhaust pipe 6, a backflow port 14 is further arranged at the upper part of the air pipe, and the backflow port 14 is connected with the gas collecting pipe 9;

the blower 11 is used for providing wind power and adjusting wind speed;

a plurality of first air guide tubes are arranged on the exhaust pipe 6, second air guide tubes 206 with the same number as the first air guide tubes are arranged on the air inlet flow head 203, and one first air guide tube is connected with one second air guide tube 206 through a first guide tube;

a plurality of third air ducts 12 are arranged on the air collecting pipe 9, fourth air ducts 208 with the same number as the third air ducts 12 are arranged on the air outlet head 201, and one third air duct 12 is connected with one fourth air duct 208 through a second conduit;

the feeding mechanism comprises a lifting assembly 8 and a conveying assembly, one end of the lifting assembly 8 is connected with the main body frame 1, the other end of the lifting assembly 8 is in driving connection with one surface of the conveying assembly, and the other surface of the conveying assembly is connected with the lower surface of the air equalizing box 202;

the lifting assembly 8 comprises a bottom plate 801 and a lifting motor 802, the bottom plate 801 is detachably connected with the main body frame 1 through screws, and one end of the lifting motor 802 is detachably connected with the bottom plate 801 through screws;

the conveying assembly comprises a bottom table 3, conveying shaft rollers 4 and conveying wheels 5, the other end of the lifting motor 802 is in driving connection with one surface of the bottom table 3, the bottom table 3 is rotatably connected with the conveying shaft rollers 4, and the outer surfaces of the conveying shaft rollers 4 are respectively sleeved with the conveying wheels 5;

the lifting assembly 8 further comprises a sliding rod 10, the sliding rods 10 are arranged on the periphery of the base platform 3, one ends of the sliding rods 10 are fixedly connected with the base platform 3, and the other ends of the sliding rods 10 penetrate through the bottom plate 801 and are connected in a sliding manner;

the conveying assembly also comprises a driving piece, the driving piece is in driving connection with one conveying shaft roller 4, and the conveying shaft rollers 4 are in transmission connection with each other through a driving wheel;

the driving piece is a speed reducing motor;

the wind power generation device is characterized by further comprising wind speed meters and thermometers, wherein 3 wind speed meters are arranged on one side of the inner surface of the wind equalizing box 202, 3 thermometers are further arranged on one side of the inner surface of the wind equalizing box 202, 3 wind speed meters are arranged on the other side of the inner surface of the wind equalizing box 202, and 3 thermometers are further arranged on the other side of the inner surface of the wind equalizing box 202;

the anemometer is used for testing the wind speed in the air equalizing box 202, and the thermometer is used for testing the temperature of hot wind in the air equalizing box 202;

the temperature measuring device further comprises a controller which is electrically connected with the heater 7, the blower 11, the lifting motor 802, the anemometer and the thermometer respectively;

the controller controls the heating temperature of the heater 7, so that the hot air temperature is controlled to be about 60 degrees, the error is within the range of +/-5 ℃, and the wind power of the blower 11 is controlled by the controller.

The basic principles and main features of the present invention and the advantages of the present invention have been shown and described, and the standard parts used in the present invention are all available on the market, the special-shaped parts can be customized according to the description and the accompanying drawings, the specific connection mode of each part adopts the conventional means of bolt and rivet, welding and the like mature in the prior art, the machinery, parts and equipment adopt the conventional type in the prior art, and the circuit connection adopts the conventional connection mode in the prior art, and the details are not described herein.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all equivalent changes made by using the contents of the present specification and the drawings, or applied directly or indirectly to the related technical fields, are included in the scope of the present invention.

Claims (10)

1. A nano-silver wire orientation device, characterized in that: the wind-balancing device comprises a main body frame, a wind-balancing component, a feeding mechanism and a hot wind mechanism, wherein the wind-balancing component is arranged on the upper portion of the main body frame, the feeding mechanism is arranged below the wind-balancing component, and the hot wind mechanism is connected with the wind-balancing component through a pipeline.

2. The nanosilver line orientation device of claim 1, wherein: the air equalizing assembly comprises an air equalizing box, an air inlet head and an air outlet head, wherein the air inlet head is detachably connected to one side of the air equalizing box, and the air outlet head is detachably connected to the other side of the air equalizing box.

3. The nanosilver line orientation device of claim 2, wherein: the lower part of the air equalizing box is provided with a feeding opening, the upper part of the air equalizing box is provided with an air adjusting plate, one end of the air adjusting plate is hinged with one side of the air equalizing box, and the other end of the air adjusting plate is connected with the air equalizing box through an adjusting piece.

4. The nanosilver line orientation device of claim 2, wherein: the even wind subassembly still includes the cowling panel, the inside of even bellows one side is provided with the cowling panel, evenly be provided with a plurality of even wind hole on the cowling panel.

5. The nanosilver line orientation device of claim 2, wherein: the hot air mechanism comprises an air blower, a heater, an exhaust pipe and an air collecting pipe, the air blower is connected with the heater, one end of the heater is connected with the exhaust pipe, the exhaust pipe is connected with the air inlet flow head, the other end of the heater is connected with the air collecting pipe, and the air collecting pipe is connected with the air outlet flow head.

6. The nanosilver wire orientation device of claim 5, wherein: the exhaust pipe is provided with a plurality of first air guide pipes, the air inlet flow head is provided with second air guide pipes, the number of the second air guide pipes is the same as that of the first air guide pipes, and one first air guide pipe is connected with one second air guide pipe through a first guide pipe;

the gas collecting pipe is provided with a plurality of third gas guide pipes, the gas outlet head is provided with fourth gas guide pipes, the number of the fourth gas guide pipes is the same as that of the third gas guide pipes, and the third gas guide pipes are connected with the fourth gas guide pipes through second guide pipes.

7. The nanosilver line orientation device of claim 1, wherein: the feeding mechanism comprises a lifting assembly and a conveying assembly, one end of the lifting assembly is connected with the main body frame, the other end of the lifting assembly is in driving connection with one side of the conveying assembly, and the other side of the conveying assembly is connected with the lower surface of the air equalizing box.

8. The nanosilver line orientation device of claim 7, wherein: the lifting assembly comprises a bottom plate and a lifting motor, the bottom plate is detachably connected with the main body frame, and one end of the lifting motor is detachably connected with the bottom plate.

9. The nanosilver line orientation device of claim 8, wherein: the conveying assembly comprises a base platform, a conveying shaft roller and a conveying wheel, the other end of the lifting motor is connected with one side of the base platform in a driving mode, the base platform is rotatably connected with a plurality of the conveying shaft roller, and the outer surface of the conveying shaft roller is sleeved with a plurality of the conveying wheel.

10. The nanosilver wire orientation device of claim 9, wherein: the lifting assembly further comprises a sliding rod, the periphery of the base platform is provided with one sliding rod, one end of each sliding rod is fixedly connected with the base platform, and the other end of each sliding rod penetrates through the base plate and is connected with the base platform in a sliding mode.

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