CN204891702U

CN204891702U - Production ink coating uses high -efficient apparatus for producing

Info

Publication number: CN204891702U
Application number: CN201520675851.6U
Authority: CN
Inventors: 任善友; 郭丰华; 张金旺
Original assignee: Ganzhou Cicai Ink & Paint Industrial Co Ltd
Current assignee: New Mstar Technology Ltd in Jiangxi
Priority date: 2015-09-02
Filing date: 2015-09-02
Publication date: 2015-12-23
Anticipated expiration: 2025-09-02

Abstract

The utility model relates to a high -efficient apparatus for producing especially relates to a production ink coating uses high -efficient apparatus for producing. The utility model discloses an overcome that current ink coating production technology intensity of labour is high, production efficiency is low, the shortcoming of low, the extravagant a large amount of manpower and materials of degree of automation, provide such production ink coating uses high -efficient apparatus for producing, including step motor, cylinder, helical blade I, charge door I, motor I, passageway I, motor II, stirring rake, valve I, inlet pipe I, pressure sensor I, agitator tank I, valve II, discharging pipe I, weighbridge I, control system, weighbridge II, discharging pipe II, valve III, agitator tank II, pressure sensor II, inlet pipe II, valve IV, motor III, charge door II, helical blade II, passageway II and connecting rod, the connecting rod level is placed, step motor is connected with the one end of connecting rod the below. The utility model discloses low in labor strength, production efficiency is high, degree of automation is high effect have been reached.

Description

A kind of manufacture of ink coating High-efficient Production device

Technical field

The utility model relates to a kind of High-efficient Production device, particularly relates to a kind of manufacture of ink coating High-efficient Production device.

Background technology

Printing ink paint by chromoplast (as pigment, dyestuff etc.), link stuff, fill out the homogeneous mixture that the materials such as (filling) expects, additional material form; Can print, and dry in printed body; It is the pulpous state adherent having color, there is certain fluidity.Ink is the important materials for printing, and it by printing by pattern, literal table now on the substrate.Ink comprises main component and auxiliary element, and they mix equably and form the gluey fluid of a kind of stickiness through repeat-rolling.Be made up of link stuff (resin), pigment, filler, auxiliary agent and solvent etc.For various printings such as books and periodicals, packing and decorating, building decoration and electronic circuit sheet materials.Along with social demand increases, printing ink paint kind and output is respective extension and growth also.

The complex manufacturing of printing ink paint, after existing printing ink paint is produced and all needed two or more raw materials to mix fully, then carries out next step processing technology.The technique of existing mixed ink coating raw material, all after manually raw material being mixed according to a certain percentage, again mixed raw material is manually pushed into agitating device to stir, the artificial intensity of this production technology is high, production efficiency is low, automaticity is low, wastes a large amount of manpower and materials, reduces the profit of enterprise undoubtedly.

Utility model content

(1) technical problem that will solve

Existing printing ink paint production technology labour intensity is high, production efficiency is low, automaticity is low, waste the shortcoming of a large amount of manpower and materials in order to overcome for the utility model, and the technical problems to be solved in the utility model is to provide that a kind of labour intensity is low, production efficiency is high, automaticity is high, the manufacture of ink coating High-efficient Production device of the enterprise profit that saves production cost, improves.

(2) technical scheme

In order to solve the problems of the technologies described above, the utility model provides so a kind of manufacture of ink coating High-efficient Production device, includes stepper motor, cylinder, helical blade I, charge door I, motor I, passage I, motor II, paddle, valve I, feed pipe I, pressure sensor I, agitator tank I, valve II, discharge nozzle I, on-ground weigher I, control system, on-ground weigher II, discharge nozzle II, valve III, agitator tank II, pressure sensor II, feed pipe II, valve IV, motor III, charge door II, helical blade II, passage II and connecting rod;

Described stepper motor is connected with cylinder by connecting rod, and described cylinder is connected with motor II, and described motor II is connected with paddle;

Described on-ground weigher I is positioned at the below of paddle, described on-ground weigher I is provided with agitator tank I, described agitator tank I is positioned at the below of paddle, described paddle is positioned at agitator tank I, above described agitator tank I, feed pipe I is installed, described feed pipe I is provided with valve I, the inwall of described agitator tank I is provided with pressure sensor I, the bottom of described agitator tank I is provided with discharge nozzle I, described discharge nozzle I is provided with valve II, the upper right side of described agitator tank I is provided with passage I, charge door I is had above the right-hand member of described passage I, the right-hand member of described passage I is provided with motor I, described helical blade I is positioned at passage I, the right-hand member of described helical blade I is connected with motor I,

Described on-ground weigher II is positioned on the left of on-ground weigher I, described on-ground weigher II is provided with agitator tank II, above the left side of described agitator tank II, feed pipe II is installed, described feed pipe II is provided with valve IV, on the left of the inwall of described agitator tank II, pressure sensor II is installed, the bottom left of described agitator tank II is provided with discharge nozzle II, described discharge nozzle II is provided with valve III, the upper left side of described agitator tank II is provided with passage II, charge door II is had above the left end of described passage II, the left end of described passage II is provided with motor III, described helical blade II is positioned at passage II, the left end of described helical blade II is connected with motor III, described control system respectively with stepper motor, cylinder, motor II, pressure sensor I, pressure sensor II connects.

Preferably, the material of described helical blade I, helical blade II and paddle is stainless steel material.

Preferably, described control system is PLC control system.

Operation principle: before device is started working, first add solid material toward charge door I, motor I is started working simultaneously, motor I drives helical blade I rotation, solid material under the effect of helical blade I to left movement, enter in agitator tank I, when the weight shown by on-ground weigher I reaches setting value, stop reinforcing body raw material, motor I quits work, then, open valve I, liquid charging stock is added in feed pipe I, liquid charging stock enters in agitator tank I by feed pipe I, when the weight shown by on-ground weigher I reaches another setting value, valve-off I, stop adding liquid charging stock.

Then, control system controls motor II and starts working, driven by motor paddle rotates, under the stirring action of paddle, solid material and liquid charging stock little by little mix, while stirring the raw material in agitator tank I, according to the mode of feeding in raw material to agitator tank I, in agitator tank II, add solid material and liquid charging stock, reach the effect saving time, raise the efficiency.

Because the mixing uniformity of raw material is different, pressure suffered by pressure sensor I is different, raw material mixing is more even, pressure detected by pressure sensor I is less, when the pressure detected by pressure sensor I is decreased to setting value, pressure sensor I by information feed back to control system, control system controls motor II immediately and quits work, cylinder is started working simultaneously, cylinder drive motor II and paddle move upward, shift out agitator tank I, then stepper motor work, rotate 180 °, by connecting rod band dynamic air cylinder, motor II and paddle turn to directly over agitator tank II, then, cylinder reverse operation, drive motor II and paddle move downward, paddle is made to enter in agitator tank II, then motor II is started working, drive paddle rotates, mixed material in agitator tank II is stirred.

In the process that the mixed material in agitator tank II is stirred, open valve II, make the mixed material of agitator tank I discharge agitator tank I by discharge nozzle I, reach the effect saving time, raise the efficiency.

Because the mixing uniformity of raw material is different, pressure suffered by pressure sensor II is different, raw material mixing is more even, pressure detected by pressure sensor II is less, when the pressure detected by pressure sensor II is decreased to setting value, pressure sensor II by information feed back to control system, control system controls motor II immediately and quits work, cylinder is started working simultaneously, cylinder drive motor II and paddle move upward, shift out agitator tank II, then stepper motor work, rotate 180 °, by connecting rod band dynamic air cylinder, motor II and paddle turn to directly over agitator tank I, then, cylinder reverse operation, drive motor II and paddle move downward, paddle is made to enter in agitator tank I, finally, open valve III, the mixed material of agitator tank II is made to discharge agitator tank II by discharge nozzle II.

The material of described helical blade I, helical blade II and paddle is stainless steel material, reaches cost-saving, durable, rustless effect.

(3) beneficial effect

The utility model solves that existing printing ink paint production technology labour intensity is high, production efficiency is low, automaticity is low, waste the shortcoming of a large amount of manpower and materials, and the utility model reaches that labour intensity is low, production efficiency is high, automaticity is high, the effect of the enterprise profit that saves production cost, improves.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model.

Being labeled as in accompanying drawing: 1-stepper motor, 2-cylinder, 3-helical blade I, 4-charge door I, 5-motor I, 6-passage I, 7-motor II, 8-paddle, 9-valve I, 10-feed pipe I, 11-pressure sensor I, 12-agitator tank I, 13-valve II, 14-discharge nozzle I, 15-on-ground weigher I, 16-control system, 17-on-ground weigher II, 18-discharge nozzle II, 19-valve III, 20-agitator tank II, 21-pressure sensor II, 22-feed pipe II, 23-valve IV, 24-motor III, 25-charge door II, 26-helical blade II, 27-passage II, 28-connecting rod.

Detailed description of the invention

Below in conjunction with drawings and Examples, the utility model is further described.

embodiment 1

A kind of manufacture of ink coating High-efficient Production device, as shown in Figure 1, include stepper motor 1, cylinder 2, helical blade I 3, charge door I 4, motor I 5, passage I 6, motor II 7, paddle 8, valve I 9, feed pipe I 10, pressure sensor I 11, agitator tank I 12, valve II 13, discharge nozzle I 14, on-ground weigher I 15, control system 16, on-ground weigher II 17, discharge nozzle II 18, valve III 19, agitator tank II 20, pressure sensor II 21, feed pipe II 22, valve IV 23, motor III 24, charge door II 25, helical blade II 26, passage II 27 and connecting rod 28,

Described stepper motor 1 is connected with cylinder 2 by connecting rod 28, and described cylinder 2 is connected with motor II 7, and described motor II 7 is connected with paddle 8;

Described on-ground weigher I 15 is positioned at the below of paddle 8, described on-ground weigher I 15 is provided with agitator tank I 12, described agitator tank I 12 is positioned at the below of paddle 8, described paddle 8 is positioned at agitator tank I 12, above described agitator tank I 12, feed pipe I 10 is installed, described feed pipe I 10 is provided with valve I 9, the inwall of described agitator tank I 12 is provided with pressure sensor I 11, the bottom of described agitator tank I 12 is provided with discharge nozzle I 14, described discharge nozzle I 14 is provided with valve II 13, the upper right side of described agitator tank I 12 is provided with passage I 6, charge door I 4 is had above the right-hand member of described passage I 6, the right-hand member of described passage I 6 is provided with motor I 5, described helical blade I 3 is positioned at passage I 6, the right-hand member of described helical blade I 3 is connected with motor I 5,

Described on-ground weigher II 17 is positioned on the left of on-ground weigher I 15, described on-ground weigher II 17 is provided with agitator tank II 20, above the left side of described agitator tank II 20, feed pipe II 22 is installed, described feed pipe II 22 is provided with valve IV 23, on the left of the inwall of described agitator tank II 20, pressure sensor II 21 is installed, the bottom left of described agitator tank II 20 is provided with discharge nozzle II 18, described discharge nozzle II 18 is provided with valve III 19, the upper left side of described agitator tank II 20 is provided with passage II 27, charge door II 25 is had above the left end of described passage II 27, the left end of described passage II 27 is provided with motor III 24, described helical blade II 26 is positioned at passage II 27, the left end of described helical blade II 26 is connected with motor III 24,

Described control system 16 is connected with stepper motor 1, cylinder 2, motor II 7, pressure sensor I 11, pressure sensor II 21 respectively.

The material of described helical blade I 3, helical blade II 26 and paddle 8 is stainless steel material.

Before device is started working, first add solid material toward charge door I 4, motor I 5 is started working simultaneously, motor I 5 drives helical blade I 3 to rotate, solid material under the effect of helical blade I 3 to left movement, enter in agitator tank I 12, when the weight shown by on-ground weigher I 15 reaches setting value, stop reinforcing body raw material, motor I 5 quits work, then, open valve I 9, liquid charging stock is added in feed pipe I 10, liquid charging stock enters in agitator tank I 12 by feed pipe I 10, when the weight shown by on-ground weigher I 15 reaches another setting value, valve-off I 9, stop adding liquid charging stock.

Then, control system 16 controls motor II 7 and starts working, driven by motor paddle 8 rotates, under the stirring action of paddle 8, solid material and liquid charging stock little by little mix, while stirring the raw material in agitator tank I 12, according to the mode of feeding in raw material to agitator tank I 12, in agitator tank II 20, add solid material and liquid charging stock, reach the effect saving time, raise the efficiency.

Because the mixing uniformity of raw material is different, pressure suffered by pressure sensor I 11 is different, raw material mixing is more even, pressure detected by pressure sensor I 11 is less, when the pressure detected by pressure sensor I 11 is decreased to setting value, pressure sensor I 11 by information feed back to control system 16, control system 16 controls motor II 7 immediately and quits work, cylinder 2 is started working simultaneously, cylinder 2 drive motor II 7 and paddle 8 move upward, shift out agitator tank I 12, then stepper motor 1 works, rotate 180 °, dynamic air cylinder 2 is with by connecting rod 28, motor II 7 and paddle 8 turn to directly over agitator tank II 20, then, cylinder 2 reverse operation, drive motor II 7 and paddle 8 move downward, paddle 8 is made to enter in agitator tank II 20, then motor II 7 is started working, paddle 8 is driven to rotate, mixed material in agitator tank II 20 is stirred.

In the process that the mixed material in agitator tank II 20 is stirred, open valve II 13, make the mixed material of agitator tank I 12 discharge agitator tank I 12 by discharge nozzle I 14, reach the effect saving time, raise the efficiency.

Because the mixing uniformity of raw material is different, pressure suffered by pressure sensor II 21 is different, raw material mixing is more even, pressure detected by pressure sensor II 21 is less, when the pressure detected by pressure sensor II 21 is decreased to setting value, pressure sensor II 21 by information feed back to control system 16, control system 16 controls motor II 7 immediately and quits work, cylinder 2 is started working simultaneously, cylinder 2 drive motor II 7 and paddle 8 move upward, shift out agitator tank II 20, then stepper motor 1 works, rotate 180 °, dynamic air cylinder 2 is with by connecting rod 28, motor II 7 and paddle 8 turn to directly over agitator tank I 12, then, cylinder 2 reverse operation, drive motor II 7 and paddle 8 move downward, paddle 8 is made to enter in agitator tank I 12, finally, open valve III 19, the mixed material of agitator tank II 20 is made to discharge agitator tank II 20 by discharge nozzle II 18.

The material of described helical blade I 3, helical blade II 26 and paddle 8 is stainless steel material, reaches cost-saving, durable, rustless effect.

embodiment 2

Described control system 16 is PLC control system.

embodiment 3

Described control system 16 is PLC control system.

The above embodiment only have expressed preferred embodiment of the present utility model, and it describes comparatively concrete and detailed, but therefore can not be interpreted as the restriction to the utility model the scope of the claims.It should be pointed out that for the person of ordinary skill of the art, without departing from the inventive concept of the premise, can also make some distortion, improvement and substitute, these all belong to protection domain of the present utility model.Therefore, the protection domain of the utility model patent should be as the criterion with claims.

Claims

1. a manufacture of ink coating High-efficient Production device, it is characterized in that, include stepper motor (1), cylinder (2), helical blade I (3), charge door I (4), motor I (5), passage I (6), motor II (7), paddle (8), valve I (9), feed pipe I (10), pressure sensor I (11), agitator tank I (12), valve II (13), discharge nozzle I (14), on-ground weigher I (15), control system (16), on-ground weigher II (17), discharge nozzle II (18), valve III (19), agitator tank II (20), pressure sensor II (21), feed pipe II (22), valve IV (23), motor III (24), charge door II (25), helical blade II (26), passage II (27) and connecting rod (28),

Described stepper motor (1) is connected with cylinder (2) by connecting rod (28), and described cylinder (2) is connected with motor II (7), and described motor II (7) is connected with paddle (8);

Described on-ground weigher I (15) is positioned at the below of paddle (8), described on-ground weigher I (15) is provided with agitator tank I (12), described agitator tank I (12) is positioned at the below of paddle (8), described paddle (8) is positioned at agitator tank I (12), described agitator tank I (12) top is provided with feed pipe I (10), described feed pipe I (10) is provided with valve I (9), the inwall of described agitator tank I (12) is provided with pressure sensor I (11), the bottom of described agitator tank I (12) is provided with discharge nozzle I (14), described discharge nozzle I (14) is provided with valve II (13), the upper right side of described agitator tank I (12) is provided with passage I (6), charge door I (4) is had above the right-hand member of described passage I (6), the right-hand member of described passage I (6) is provided with motor I (5), described helical blade I (3) is positioned at passage I (6), the right-hand member of described helical blade I (3) is connected with motor I (5),

Described on-ground weigher II (17) is positioned at on-ground weigher I (15) left side, described on-ground weigher II (17) is provided with agitator tank II (20), above the left side of described agitator tank II (20), feed pipe II (22) is installed, described feed pipe II (22) is provided with valve IV (23), on the left of the inwall of described agitator tank II (20), pressure sensor II (21) is installed, the bottom left of described agitator tank II (20) is provided with discharge nozzle II (18), described discharge nozzle II (18) is provided with valve III (19), the upper left side of described agitator tank II (20) is provided with passage II (27), charge door II (25) is had above the left end of described passage II (27), the left end of described passage II (27) is provided with motor III (24), described helical blade II (26) is positioned at passage II (27), the left end of described helical blade II (26) is connected with motor III (24),

Described control system (16) is connected with stepper motor (1), cylinder (2), motor II (7), pressure sensor I (11), pressure sensor II (21) respectively.

2. a kind of manufacture of ink coating High-efficient Production device according to claim 1, it is characterized in that, the material of described helical blade I (3), helical blade II (26) and paddle (8) is stainless steel material.

3. a kind of manufacture of ink coating High-efficient Production device according to claim 1, it is characterized in that, described control system (16) is PLC control system.