CN113560117A

CN113560117A - CSNM nano material composite coating equipment and coating method thereof

Info

Publication number: CN113560117A
Application number: CN202110831027.5A
Authority: CN
Inventors: 钭祖军
Original assignee: Fujian Vekoo Living Appliance Co ltd
Current assignee: Fujian Vekoo Living Appliance Co ltd
Priority date: 2021-07-22
Filing date: 2021-07-22
Publication date: 2021-10-29

Abstract

The invention discloses CSNM nano material composite coating equipment and a coating method thereof, belonging to the technical field of coating equipment.

Description

CSNM nano material composite coating equipment and coating method thereof

Technical Field

The invention relates to coating equipment, in particular to CSNM nano material composite coating equipment, and also relates to a coating method, in particular to a CSNM nano material composite coating method, belonging to the technical field of coating equipment.

Background

Coating is a method of applying a paste polymer, a molten polymer or a polymer melt to paper, cloth, or a plastic film to obtain a composite material (film).

In the prior art, when the CSNM nano material is coated, a roller mode is adopted or firstly sprayed and then coated by the roller, the first mode is not uniform, the second mode is not continuous, the coated material cannot be laminated and can be tilted, and in addition, the pasty polymer for coating cannot be recycled and is directly wasted, so that the CSNM nano material composite coating equipment and the coating method thereof are designed to optimize the problems.

Disclosure of Invention

The invention mainly aims to provide CSNM nano-material composite coating equipment and a coating method thereof, wherein CSNM nano-materials are placed at the top of a material conveyor belt, a second driving motor is started, a driving conveying rod and a driven conveying rod are driven to operate by the second driving motor, the material conveyor belt is driven to operate by the driving conveying rod and the driven conveying rod, the CSNM nano-materials are transported, a coating liquid guiding pump is started to pump coating liquid in a coating storage box into a spraying plate through a guide pipe, then the coating liquid is sprayed onto the coating conveyor belt through the spraying plate, a first driving motor, a first electric heating sleeve and a second electric heating sleeve are started, a driving roller and a driven roller are driven to rotate by the first driving motor, the coating conveyor belt is driven to operate by the driving roller and the driven roller, an electric drive upper U-shaped frame to descend on the inner side of a portal frame, and the coating conveyor belt is attached to the top of the CSNM nano-materials, carry out the coating when then conveying CSNM nano-material through the operation of coating conveyer belt and material conveyer belt to cooperation first electric heating jacket and second electric heating jacket make its coating conveyer belt be the high temperature state and then can also carry out hot ironing to CSNM nano-material, the coating liquid enters into to retrieve the storehouse through the weeping mouth and restarts the backwash valve and retrieve to the interior reuse of coating storage box through the return conduit.

The purpose of the invention can be achieved by adopting the following technical scheme:

a CSNM nano-material composite coating device comprises a recovery bin, wherein a side fixing plate is installed at the top of the recovery bin, a portal frame is installed in the middle of the top of the side fixing plate, an upper U-shaped frame is installed on the inner side of the portal frame through a slide rail assembly, an electric telescopic rod is installed in the middle of the top of the portal frame, the output end of the electric telescopic rod is fixed to the middle of the top of the upper U-shaped frame, a coating liquid storage bin assembly is arranged on one side of the top of the upper U-shaped frame, a spraying plate is arranged above the inner side of the upper U-shaped frame, the coating liquid storage bin assembly is communicated with the spraying plate through a coating liquid guiding assembly, a self-heating coating conveying belt assembly is arranged below the inner side of the upper U-shaped frame, a material conveying belt assembly is arranged on the inner side of the side fixing plate, a plurality of liquid leakage ports are formed in the tops of the material conveying belt assembly at equal intervals, and the recovery bin is communicated with the coating liquid storage bin assembly through a backflow pump assembly, the self-heating smearing conveyor belt assembly is matched with the material conveyor belt assembly.

Preferably, the slide rail assembly comprises a side sliding groove and a side limiting slide rail, the side limiting slide rail is vertically installed on the inner side wall of the portal frame, the side sliding grooves are formed in the middle parts of two sides of the upper U-shaped frame, and the side limiting slide rail is inserted into the inner side of the side sliding groove.

Preferably, the masking liquid storage bin assembly comprises) and a coating storage box, wherein the coating storage box is installed on one side of the top of the upper U-shaped frame, and the top of the coating storage box is communicated with a liquid inlet valve.

Preferably, the coating liquid guiding assembly comprises a coating liquid guiding pump and a guiding pipe, one side of the coating storage box is communicated with the coating liquid guiding pump, the output end of the coating liquid guiding pump is communicated with the guiding pipe, and the other end of the guiding pipe penetrates through the upper U-shaped frame and is communicated with the spraying plate.

Preferably, the conveyor belt subassembly is paintd in self-heating includes first driving motor, coating conveyer belt, driven cylinder, second electrical heating cover, initiative cylinder and first electrical heating cover, initiative cylinder and driven cylinder are all established through the bearing go up the inboard both ends department of U type frame, the outside cover of initiative cylinder is equipped with first electrical heating cover, driven cylinder's outside cover is equipped with second electrical heating cover, the outside cover of first electrical heating cover and second electrical heating cover is equipped with the coating conveyer belt, the top of coating conveyer belt with the bottom of going up U type frame is corresponding, the one end mid-mounting in the last U type frame outside has first driving motor, just first driving motor's output runs through go up U type frame with the one end of initiative cylinder is fixed.

Preferably, material conveyer belt subassembly material conveyer belt, second driving motor, initiative conveying rod and driven conveying rod pass through the bearing and install the both sides department of side fixed plate, the mid-mounting of side fixed plate one end has second driving motor, second driving motor's output runs through the side fixed plate with the one end of initiative conveying rod is fixed, the outside cover of initiative conveying rod and driven conveying rod is equipped with the material conveyer belt, the weeping mouth has been seted up in the outside of material conveyer belt.

Preferably, the flow pump assembly comprises a backflow valve and a backflow guide pipe, the backflow valve is installed at one side of the recovery bin and communicated with the recovery bin, the output end of the backflow valve is communicated with the backflow guide pipe, and the other end of the backflow guide pipe is communicated with the paint storage box.

A CSNM nano material composite coating method comprises the following steps:

step 1: placing the CSNM nano material on the top of the material conveyor belt and starting a second driving motor;

step 2: the driving transmission rod and the driven transmission rod are driven to operate by the second driving motor, and the material transmission belt is driven to operate by the driving transmission rod and the driven transmission rod, so that the CSNM nano material is transported;

and step 3: starting a coating guide liquid pump to pump coating liquid in a coating storage box into a spraying plate through a guide pipe, and then spraying the coating liquid onto a coating conveyor belt through the spraying plate;

and 4, step 4: starting a first driving motor, a first electric heating jacket and a second electric heating jacket, driving a driving roller and a driven roller to rotate through the first driving motor, and driving a coating conveyor belt to run through the driving roller and the driven roller;

and 5: starting an electric telescopic rod to drive the upper U-shaped frame to descend on the inner side of the portal frame and enable the coating conveyor belt to be attached to the top of the CSNM nano material;

step 6: the CSNM nano material is coated while being conveyed by the coating conveyor belt and the material conveyor belt, and the coating conveyor belt is in a high-temperature state by matching with the first electric heating sleeve and the second electric heating sleeve, so that the CSNM nano material can be hot ironed;

and 7: the coating liquid enters the recovery bin through the liquid leakage port, and then the reflux valve is started to recover the coating liquid into the coating storage box through the reflux guide pipe for reutilization.

The invention has the beneficial technical effects that:

the invention provides a CSNM nano material composite coating device and a coating method thereof, wherein a CSNM nano material is placed at the top of a material conveyor belt, a second driving motor is started, a driving conveying rod and a driven conveying rod are driven to operate by the second driving motor, the material conveyor belt is driven to operate by the driving conveying rod and the driven conveying rod, the CSNM nano material is conveyed, a coating liquid pump is started to pump coating liquid in a coating storage box into a spraying plate through a guide pipe, the coating liquid is sprayed onto the coating conveyor belt through the spraying plate, a first driving motor, a first electric heating sleeve and a second electric heating sleeve are started, a driving roller and a driven roller are driven to rotate by the first driving motor, the coating conveyor belt is driven to operate by the driving roller and the driven roller, an electric telescopic rod is started to drive an upper U-shaped frame to descend at the inner side of a portal frame and enable the coating conveyor belt to be attached to the top of the CSNM nano material, carry out the coating when then conveying CSNM nano-material through the operation of coating conveyer belt and material conveyer belt to cooperation first electric heating jacket and second electric heating jacket make its coating conveyer belt be the high temperature state and then can also carry out hot ironing to CSNM nano-material, the coating liquid enters into to retrieve the storehouse through the weeping mouth and restarts the backwash valve and retrieve to the interior reuse of coating storage box through the return conduit.

Drawings

FIG. 1 is an exploded perspective view of the overall structure of a CSNM nanomaterial composite coating apparatus and a coating method thereof according to a preferred embodiment of the present invention;

FIG. 2 is a perspective view of the whole apparatus of a preferred embodiment of a CSNM nano-material composite coating apparatus and a coating method thereof according to the present invention;

FIG. 3 is a schematic perspective view of an upper cover of a CSNM nanomaterial composite coating apparatus and a coating method thereof according to a preferred embodiment of the present invention;

FIG. 4 is a schematic three-dimensional structure of a work conveyor according to a preferred embodiment of the CSNM nanomaterial composite coating apparatus and method of coating the same of the present invention;

fig. 5 is an enlarged view of a structure at a position a in accordance with a preferred embodiment of a CSNM nanomaterial composite coating apparatus and a coating method thereof of the present invention.

In the figure: 1-upper U-shaped frame, 2-electric telescopic rod, 3-paint storage box, 4-first driving motor, 5-side chute, 6-coating conveyor belt, 7-driving roller, 8-first electric heating sleeve, 9-driven roller, 10-second electric heating sleeve, 11-portal frame, 12-side limiting slide rail, 13-return conduit, 14-side fixing plate, 15-second driving motor, 16-material conveyor belt, 17-leakage opening, 18-recovery bin, 19-guide coating liquid pump, 20-guide conduit, 21-spray plate, 22-liquid inlet valve and 23-return valve.

Detailed Description

In order to make the technical solutions of the present invention more clear and definite for those skilled in the art, the present invention is further described in detail below with reference to the examples and the accompanying drawings, but the embodiments of the present invention are not limited thereto.

As shown in fig. 1-5, the CSNM nano-material composite coating apparatus provided in this embodiment includes a recycling bin 18, a side fixing plate 14 is installed at the top of the recycling bin 18, a portal frame 11 is installed at the top middle portion of the side fixing plate 14, an upper U-shaped frame 1 is installed on the inner side of the portal frame 11 through a slide rail assembly, an electric telescopic rod 2 is installed at the top middle portion of the portal frame 11, an output end of the electric telescopic rod 2 is fixed to the top middle portion of the upper U-shaped frame 1, a coating liquid storage bin assembly is installed at one side of the top of the upper U-shaped frame 1, a spraying plate 21 is installed above the inner side of the upper U-shaped frame 1, the coating liquid storage bin assembly is communicated with the spraying plate 21 through a coating liquid guiding assembly, a self-heating coating conveyor belt assembly is installed below the inner side of the upper U-shaped frame 1, a material conveyor belt assembly is installed at the inner side of the side fixing plate 14, and a plurality of liquid leaking ports 17 are installed at equal intervals at the top of the material conveyor belt assembly, the recovery bin 18 is in communication with the coating fluid storage bin assembly through a return flow pump assembly, and the self-heating coating conveyor belt assembly is in cooperative engagement with the material conveyor belt assembly.

Placing the CSNM nano material on the top of a material conveyor belt 16, starting a second driving motor 15, driving a driving conveying rod and a driven conveying rod to operate through the second driving motor 15, driving the material conveyor belt 16 to operate through the driving conveying rod and the driven conveying rod, further transporting the CSNM nano material, starting a coating liquid guiding pump 19 to pump coating liquid in a coating storage box 3 into a spraying plate 21 through a guiding pipe 20, then spraying the coating liquid onto a coating conveyor belt 6 through the spraying plate 21, starting a first driving motor 4, a first electric heating sleeve 8 and a second electric heating sleeve 10, driving a driving roller 7 and a driven roller 9 to rotate through a first driving motor 4, driving the coating conveyor belt 6 to operate through the driving roller 7 and the driven roller 9, starting an electric telescopic rod 2 to drive an upper U-shaped frame 1 to descend on the inner side of a portal frame 11 and enable the coating conveyor belt 6 to be attached to the top of the CSNM nano material, the CSNM nano material is coated while being conveyed by the coating conveyor belt 6 and the material conveyor belt 16, the coating conveyor belt 6 is in a high-temperature state by matching with the first electric heating jacket 8 and the second electric heating jacket 10, the CSNM nano material can be hot ironed, the coating liquid enters the recovery bin 18 through the liquid leakage port 17, the return valve 23 is started again, and the coating liquid is recovered to the coating storage box 3 through the return conduit 13 for reuse.

In this embodiment, the slide rail assembly includes side spout 5 and side spacing slide rail 12, and side spacing slide rail 12 is installed along perpendicular to the inside wall of portal frame 11, goes up the both sides middle part of U type frame 1 and has seted up side spout 5, and side spacing slide rail 12 inserts the inboard to sideslip groove 5.

In this embodiment, the paint storage bin assembly comprises 22 and a paint storage tank 3, the paint storage tank 3 is installed on one side of the top of the upper U-shaped frame 1, and the top of the paint storage tank 3 is communicated with a liquid inlet valve 22.

In the embodiment, the coating liquid guiding assembly comprises a coating liquid guiding pump 19 and a delivery pipe 20, one side of the coating storage tank 3 is communicated with the coating liquid guiding pump 19, the output end of the coating liquid guiding pump 19 is communicated with the delivery pipe 20, and the other end of the delivery pipe 20 penetrates through the upper U-shaped frame 1 and is communicated with the spraying plate 21.

In this embodiment, the conveyor belt subassembly is paintd in self-heating includes first driving motor 4, coating conveyer belt 6, driven cylinder 9, second electrical heating cover 10, driving roller 7 and first electrical heating cover 8, driving roller 7 and driven cylinder 9 are all established at the both ends department of last U type frame 1 inboard through the bearing, driving roller 7's outside cover is equipped with first electrical heating cover 8, driven roller 9's outside cover is equipped with second electrical heating cover 10, first electrical heating cover 8 and second electrical heating cover 10's outside cover is equipped with coating conveyer belt 6, coating conveyer belt 6's top is corresponding with the bottom of last U type frame 1, go up the one end mid-mounting in the U type frame 1 outside and have first driving motor 4, and the output of first driving motor 4 runs through the one end of last U type frame 1 and driving roller 7 and fix.

In this embodiment, material conveyer belt subassembly material conveyer belt 16, second driving motor 15, initiative transfer bar and driven transfer bar, the both sides department at side fixed plate 14 is installed through the bearing to initiative transfer bar and driven transfer bar, the mid-mounting of side fixed plate 14 one end has second driving motor 15, the output of second driving motor 15 runs through side fixed plate 14 and is fixed with the one end of initiative transfer bar, the outside cover of initiative transfer bar and driven transfer bar is equipped with material conveyer belt 16, weeping mouth 17 has been seted up in material conveyer belt 16's the outside.

In the present embodiment, the flow pump assembly includes a return valve 23 and a return conduit 13, the return valve 23 is installed at one side of the recovery bin 18 and communicates with the recovery bin 18, an output end of the return valve 23 communicates with the return conduit 13, and the other end of the return conduit 13 communicates with the paint storage tank 3.

A CSNM nano material composite coating method comprises the following steps:

step 1: placing the CSNM nanomaterial on top of the material conveyor 16 and starting the second drive motor 15;

step 2: the driving transmission rod and the driven transmission rod are driven to operate by the second driving motor 15, and the material transmission belt 16 is driven to operate by the driving transmission rod and the driven transmission rod, so that the CSNM nano material is transported;

and step 3: starting a coating liquid guide pump 19 to pump coating liquid in the coating storage box 3 into a spraying plate 21 through a guide pipe 20, and then spraying the coating liquid onto the coating conveyor belt 6 through the spraying plate 21;

and 4, step 4: starting a first driving motor 4, a first electric heating jacket 8 and a second electric heating jacket 10, driving a driving roller 7 and a driven roller 9 to rotate through the first driving motor 4, and driving a coating conveyor belt 6 to operate through the driving roller 7 and the driven roller 9;

and 5: starting the electric telescopic rod 2 to drive the upper U-shaped frame 1 to descend on the inner side of the portal frame 11 and enable the coating conveyor belt 6 to be attached to the top of the CSNM nano material;

step 6: the CSNM nano material is coated while being conveyed by the operation of the coating conveyor belt 6 and the material conveyor belt 16, and the coating conveyor belt 6 is in a high-temperature state by matching with the first electric heating jacket 8 and the second electric heating jacket 10, so that the CSNM nano material can be hot ironed;

and 7: the coating liquid enters the recovery bin 18 through the liquid leakage port 17, and then the return valve 23 is started to be recovered into the coating storage box 3 through the return conduit 13 for reuse.

The above are only further embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can substitute or change the technical solution of the present invention and its concept within the scope of the present invention.

Claims

1. A CSNM nano-material composite coating device is characterized in that: comprises a recovery bin (18), a side fixing plate (14) is installed at the top of the recovery bin (18), a portal frame (11) is installed at the middle of the top of the side fixing plate (14), an upper U-shaped frame (1) is installed on the inner side of the portal frame (11) through a slide rail assembly, an electric telescopic rod (2) is installed at the middle of the top of the portal frame (11), the output end of the electric telescopic rod (2) is fixed with the middle of the top of the upper U-shaped frame (1), a liquid coating storage bin assembly is arranged on one side of the top of the upper U-shaped frame (1), a spraying plate (21) is arranged above the inner side of the upper U-shaped frame (1), the liquid coating storage bin assembly is communicated with the spraying plate (21) through a liquid guiding and coating assembly, a self-heating coating conveying belt assembly is arranged below the inner side of the upper U-shaped frame (1), and a material conveying belt assembly is arranged on the inner side of the side fixing plate (14), and the top of the material conveying belt component is provided with a plurality of groups of liquid leakage openings (17) at equal intervals, the recovery bin (18) is communicated with the liquid coating storage bin component through a reflux pump component, and the self-heating coating conveying belt component is matched with the material conveying belt component.

2. The CSNM nanomaterial composite coating apparatus according to claim 1, wherein: the sliding rail assembly comprises a side sliding groove (5) and a side limiting sliding rail (12), the side limiting sliding rail (12) is vertically installed on the inner side wall of the portal frame (11), the side sliding groove (5) is formed in the middle of the two sides of the upper U-shaped frame (1), and the side limiting sliding rail (12) is inserted into the inner side of the side sliding groove (5).

3. The CSNM nanomaterial composite coating apparatus according to claim 2, wherein: the masking liquid storage bin assembly comprises 22) and a coating storage box (3), wherein the coating storage box (3) is installed on one side of the top of the upper U-shaped frame (1), and the top of the coating storage box (3) is communicated with a liquid inlet valve (22).

4. The CSNM nanomaterial composite coating apparatus according to claim 3, wherein: the coating liquid guiding assembly comprises a coating liquid guiding pump (19) and a coating liquid guiding pipe (20), one side of the coating storage box (3) is communicated with the coating liquid guiding pump (19), the output end of the coating liquid guiding pump (19) is communicated with the coating liquid guiding pipe (20), and the other end of the coating liquid guiding pipe (20) penetrates through the upper U-shaped frame (1) and is communicated with the spraying plate (21).

5. The CSNM nanomaterial composite coating apparatus of claim 4, wherein: self-heating is paintd conveyer belt subassembly and is included first driving motor (4), coating conveyer belt (6), driven cylinder (9), second electrical heating cover (10), initiative cylinder (7) and first electrical heating cover (8), initiative cylinder (7) and driven cylinder (9) are all established through the bearing go up U type frame (1) inboard both ends department, the outside cover of initiative cylinder (7) is equipped with first electrical heating cover (8), the outside cover of driven cylinder (9) is equipped with second electrical heating cover (10), the outside cover of first electrical heating cover (8) and second electrical heating cover (10) is equipped with coating conveyer belt (6), the top of coating conveyer belt (6) with the bottom of going up U type frame (1) corresponds mutually, the one end mid-mounting in the last U type frame (1) outside has first driving motor (4), just the output of first driving motor (4) runs through go up U type frame (1) with initiative cylinder (8) 7) Is fixed at one end.

6. The CSNM nanomaterial composite coating apparatus according to claim 5, wherein: material conveyer belt subassembly material conveyer belt (16), second driving motor (15), initiative conveying rod and driven conveying rod pass through the bearing and install the both sides department of side fixing plate (14), the mid-mounting of side fixing plate (14) one end has second driving motor (15), the output of second driving motor (15) runs through side fixing plate (14) with the one end of initiative conveying rod is fixed, the outside cover of initiative conveying rod and driven conveying rod is equipped with material conveyer belt (16), weeping mouth (17) have been seted up in the outside of material conveyer belt (16).

7. The CSNM nanomaterial composite coating apparatus according to claim 6, wherein: the flow pump assembly comprises a return valve (23) and a return conduit (13), the return valve (23) is installed at one side of the recovery bin (18) and communicated with the recovery bin (18), the output end of the return valve (23) is communicated with the return conduit (13), and the other end of the return conduit (13) is communicated with the paint storage box (3).

8. The CSNM nanomaterial composite coating method according to claim 7, characterized in that: the method comprises the following steps:

step 1: placing the CSNM nanomaterial on top of a material conveyor belt (16) and starting a second drive motor (15);

step 2: the driving transmission rod and the driven transmission rod are driven to operate by a second driving motor (15), and the material transmission belt (16) is driven to operate by the driving transmission rod and the driven transmission rod, so that the CSNM nano material is transported;

and step 3: starting a coating liquid guide pump (19) to pump coating liquid in a coating storage box (3) into a spraying plate (21) through a guide pipe (20), and then spraying the coating liquid onto a coating conveyor belt (6) through the spraying plate (21);

and 4, step 4: starting a first driving motor (4), a first electric heating jacket (8) and a second electric heating jacket (10), driving a driving roller (7) and a driven roller (9) to rotate through the first driving motor (4), and driving a coating conveyor belt (6) to operate through the driving roller (7) and the driven roller (9);

and 5: starting the electric telescopic rod (2) to drive the upper U-shaped frame (1) to descend on the inner side of the portal frame (11) and enable the coating conveyor belt (6) to be attached to the top of the CSNM nano material;

step 6: the CSNM nano material is coated while being conveyed by the operation of the coating conveyor belt (6) and the material conveyor belt (16), and the coating conveyor belt (6) is in a high-temperature state by matching with the first electric heating jacket (8) and the second electric heating jacket (10), so that the CSNM nano material can be hot ironed;

and 7: the coating liquid enters a recovery bin (18) through a liquid leakage port (17), and then a reflux valve (23) is started to be recovered into a coating storage box (3) through a reflux conduit (13) for reuse.