CN114086161B - Steel heald wire coating process and device thereof - Google Patents

Abstract

The novel steel heald wire coating process and the device thereof belong to the technical field of textile equipment, and comprise a nickel liquid tank, a steel heald wire, a hanging plate, a conveyor belt, a driving wheel, a driving motor, a support column, a driven wheel, a drying box, a heating wire, a fan motor, a feeding device, a feeding mechanical arm, a discharging device and a discharging mechanical arm; by adding the additive into the nickel liquid, the stability of the nickel liquid is improved, so that the surface of the plating layer is smooth and flat, has luster, consistent color, good toughness and no burrs; the bonding force between the nickel coating and the substrate in the coating process is ensured and the adhesive force is improved by measuring the temperature and the PH value of the nickel liquid in the nickel liquid tank in real time; the technology adopts an electromechanical integrated design, avoids inconsistent plating layers formed by manual operation, and reduces labor cost.

Description

Steel heald wire coating process and device thereof

Technical Field

The invention relates to a novel steel heald wire coating process and a device thereof, belonging to the technical field of textile equipment.

Background

The steel heald wire is one of loom accessories and is made of steel wires, and the middle part of the steel heald wire is provided with a small hole for warp to pass through, and each steel heald wire controls one warp. During weaving, the warp yarns are driven to do lifting motion so as to form shed, and weft yarns are conveniently introduced. The steel heald wires pull the yarns to move and rub with the yarns continuously, so that abrasion is very easy to cause. In order to improve the wear resistance of the steel heald and the service life of the steel heald, a coating film is required to be coated on the surface of the steel heald. The traditional steel heald coating process adopts a soldering tin heating process, so that the generated coating is uneven, the stability is not strong, the coating is easy to peel off, and the traction efficiency of the steel heald is affected.

Disclosure of Invention

The invention aims to provide a novel steel heald wire coating process and a device thereof.

The invention aims to solve the problems that a plating layer formed by the existing steel heald wire plating process is uneven, the stability is not strong and the plating layer is easy to peel off.

The invention is realized by the following technical scheme, and a novel steel heald coating process comprises the following steps:

A. pouring nickel liquid into the nickel liquid tank, adding an additive into the nickel liquid, and measuring the temperature and the PH value of the nickel liquid by a thermometer and a PH value meter in the nickel liquid tank to ensure that the nickel liquid meets the requirements;

B. presetting the processing temperature of nickel liquid in a nickel liquid tank, the preheating temperature in a drying box and the rotating speed of a fan through a controller; setting the rotating speed of the driving wheel, the feeding speed of the feeding device and the discharging speed of the discharging device;

C. the starting device is used for placing the processed steel heald on the feeding device, and conveying the processed steel heald to the feeding manipulator through the feeding device, wherein the feeding manipulator hangs the processed steel heald on the small hole of the corresponding hanging plate;

D. the steel heald wire to be processed moves to the bottom of the driving wheel along with the conveyor belt, so that the steel heald wire to be processed is completely immersed in the nickel liquid, and a nickel plating layer is formed on the surface of the steel heald wire to be processed;

E. the steel heald wire covered with the nickel liquid moves to the drying box along with the conveyor belt, and the nickel layer is firmly combined with the steel heald wire through the high temperature and the fan to form a stable nickel layer;

F. when the steel heald moves to the hanging plate corresponding to the discharging manipulator along with the driving belt from the drying box, the discharging manipulator takes down the processed steel heald from the hanging plate and enters the next working procedure through the discharging device.

Novel steel heald coating film device, its characterized in that: including nickel cistern, steel heald, link plate, conveyer belt, action wheel, initiative motor, support column, follow driving wheel, stoving case, heating wire, fan motor, material feeding unit, feeding manipulator, discharging device, ejection of compact manipulator, the splendid attire has nickel liquid in the nickel cistern, and it has steel heald to infiltrate in the nickel liquid, and steel heald is colluded on the link plate, and the link plate is established on the conveyer belt, and the bottom of conveyer belt is equipped with the action wheel, installs the initiative motor behind the action wheel, installs the support column on the initiative motor, and the top of conveyer belt is equipped with from the driving wheel, follows the driving wheel and installs in the stoving incasement, is equipped with the heating wire on the inner wall of stoving case, and the top of stoving case is equipped with the fan, and the fan is connected to install the fan motor, and the right side of nickel cistern is equipped with material feeding device, and material feeding device's front end is equipped with material discharging device, and material discharging device's front end is equipped with ejection of compact manipulator, be equipped with the controller on the nickel cistern.

As a further description of the novel steel heald coating device, the feeding device and the discharging device are provided with gear conveyor belts; the gear on the feeding device rotates anticlockwise, and the gear on the discharging device rotates clockwise.

As a further description of the above-described novel steel heddle coating device, the drive wheel rotates clockwise.

As a further description of the novel steel heald coating device, the base of the feeding manipulator is fixedly arranged on the supporting frame of the feeding device; the base of the discharging manipulator is fixedly arranged on a supporting frame of the discharging device.

As a further description of the novel steel heald coating device, the driven wheel is arranged in the drying box through a fixed rod.

As a further description of the novel steel heald coating device, the hanging plate is provided with small holes; the hanging plates are symmetrically distributed on two sides of the conveyor belt, and the lengths of the hanging plates are gradually decreased from top to bottom.

As a further description of the novel steel heald coating device, a thermometer and a PH value meter are arranged in the nickel liquid tank.

The invention has the advantages that: the steel heald wire plating process adopts nickel plating on the surface of the steel heald wire, so that a nickel plating layer is formed rapidly, the wear resistance of the steel heald wire is improved, and the service life of the steel heald wire is prolonged; by adding the additive into the nickel liquid, the stability of the nickel liquid is improved, so that the surface of the plating layer is smooth and flat, has luster, consistent color, good toughness and no burrs; the bonding force between the nickel coating and the substrate in the coating process is ensured and the adhesive force is improved by measuring the temperature and the PH value of the nickel liquid in the nickel liquid tank in real time; the technology adopts an electromechanical integrated design, avoids inconsistent plating layers formed by manual operation, and reduces labor cost.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a schematic view of the conveyor belt of the present invention;

fig. 3 is a schematic structural view of the drying box of the present invention;

in the figure: 1. the device comprises a nickel liquid tank 2, a steel heald wire 3, a hanging plate 4, a conveying belt 5, a driving wheel 6, a driving motor 7, a supporting column 8, a driven wheel 9, a drying box 91, a fixing rod 10, a heating wire 11, a fan 12, a fan motor 13, a feeding device 14, a feeding mechanical arm 15, a discharging device 16, a discharging mechanical arm 17 and a controller.

Detailed Description

The invention is further described below with reference to the drawings and examples.

A novel steel heald coating process comprises the following specific steps:

(1) Preparing nickel liquid: pouring nickel liquid into the nickel liquid tank 1, and simultaneously adding additives such as brightening agent and wetting agent into the nickel liquid, wherein chromium salt is adopted as brightening agent, sodium dodecyl sulfate is adopted as wetting agent, and the temperature and the PH value of the nickel liquid are measured by a thermometer and a PH value meter in the nickel liquid tank 1 so as to meet the requirements;

(2) Presetting device parameters: the processing temperature of the nickel liquid in the nickel liquid tank 1, the preheating temperature in the drying box 9 and the rotating speed of the fan 11 are preset through the controller 17; setting the rotating speed of the driving wheel 5, the feeding speed of the feeding device 13 and the discharging speed of the discharging device 15;

(3) Feeding: the starting device is used for placing the processed steel heald 2 on the feeding device 13, conveying the processed steel heald 2 to the feeding manipulator 14 through the feeding device 13, and hanging the processed steel heald 2 on the small hole of the corresponding hanging plate 3 by the feeding manipulator 14;

(4) Nickel plating on the surface of the steel heald wire: the processed steel heald wire 2 moves to the bottom of the driving wheel 5 along with the conveyor belt 4, and at the moment, the processed steel heald wire 2 is completely immersed in nickel liquid, and a nickel plating layer is formed on the surface of the processed steel heald wire;

(5) And (3) drying and heating the surface of the steel heald wire: the steel heald wires 2 covered with the nickel liquid move to the drying box 9 along with the conveyor belt 4, and the nickel layer is firmly combined with the steel heald wires 2 through the high temperature and the fan 11 to form a stable nickel layer;

(6) Discharging: when the steel heald wires 2 move to the positions of the hanging plates 3 corresponding to the discharging manipulators 16 along with the driving belt 4 from the drying box 9, the discharging manipulators 16 take the processed steel heald wires 2 off the hanging plates 3, and the steel heald wires enter the next working procedure through the discharging device 15.

The invention also provides a novel steel heald film plating device, which comprises a nickel liquid tank 1, a steel heald 2, a hanging plate 3, a conveyor belt 4, a driving wheel 5, a driving motor 6, a supporting column 7, a driven wheel 8, a drying box 9, a heating wire 10, a fan 11, a fan motor 12, a feeding device 13, a feeding mechanical arm 14, a discharging device 15 and a discharging mechanical arm 16, wherein the nickel liquid tank 1 is filled with nickel liquid, the steel heald 2 is immersed in the nickel liquid, the steel heald 2 is a processed object, the steel heald 2 is hooked on the hanging plate 3 for providing hanging, the hanging plate 3 is arranged on the conveyor belt 4 for providing moving, the bottom of the conveyor belt 4 is provided with the driving wheel 5 for transmitting power, the driving motor 6 is arranged behind the driving wheel 5 for providing power, the driving motor 6 is provided with a support column 7 for providing support, the top of the conveyor belt 4 is provided with a driven wheel 8 for providing movement, the driven wheel 8 is arranged in the drying box 9 for drying, a heating wire 10 is arranged on the inner wall of the drying box 9 for providing high temperature, the top of the drying box 9 is provided with a fan 11 for drying, the fan 11 is connected with a fan motor 12 for providing power, the right side of the nickel liquid tank 1 is provided with a feeding device 13 for feeding, the front end of the feeding device 13 is provided with a feeding manipulator 14 for feeding, the upper side of the feeding device 13 is provided with a discharging device 15 for discharging, the front end of the discharging device 15 is provided with a discharging manipulator 16 for discharging, and the nickel liquid tank 1 is provided with a controller 17 for processing data signals.

As a further description of the novel steel heald coating device, the feeding device 13 and the discharging device 15 are provided with gear conveyor belts; the gear on the feeding device 13 rotates counterclockwise and the gear on the discharging device 15 rotates clockwise.

As a further description of the above-described novel steel heald coating device, the driving wheel 5 is rotated clockwise.

As a further description of the novel steel heald coating device, the base of the feeding manipulator 14 is fixedly arranged on the supporting frame of the feeding device 13; the base of the discharging manipulator 16 is fixedly mounted on a supporting frame of the discharging device 15.

As a further description of the above-described novel steel heald coating device, the driven pulley 8 is mounted in the drying box 9 via the fixing rod 91.

As a further description of the novel steel heald coating device, the hanging plate 3 is provided with small holes; the hanging plates 3 are symmetrically distributed on two sides of the conveyor belt 4, and the lengths of the hanging plates 3 decrease from top to bottom.

As a further description of the novel steel heald coating device, a thermometer and a PH value meter are arranged in the nickel liquid tank 1.

The above description should not be taken as limiting the scope of the invention, and any modifications, equivalent variations and modifications made to the above embodiments according to the technical principles of the present invention still fall within the scope of the technical solutions of the present invention.

Claims (8)

1. The steel heald coating process is characterized by comprising the following steps of:

A. pouring nickel liquid into the nickel liquid tank (1), adding an additive into the nickel liquid, and measuring the temperature and the pH value of the nickel liquid through a thermometer and a pH value meter in the nickel liquid tank (1) to ensure that the nickel liquid meets the requirements;

B. the processing temperature of the nickel liquid in the nickel liquid tank (1), the preheating temperature in the drying box (9) and the rotating speed of the fan (11) are preset through the controller (17); setting the rotating speed of the driving wheel (5), the feeding speed of the feeding device (13) and the discharging speed of the discharging device (15);

C. the starting device is used for placing the processed steel heald (2) on the feeding device (13), and conveying the processed steel heald (2) to the feeding manipulator (14) through the feeding device (13), wherein the feeding manipulator (14) hangs the processed steel heald (2) on the small hole of the corresponding hanging plate (3);

D. the processed steel heald wire (2) moves to the bottom of the driving wheel (5) along with the conveyor belt (4), so that the processed steel heald wire (2) is completely immersed in the nickel liquid, and a nickel plating layer is formed on the surface of the processed steel heald wire;

E. the steel heald wires (2) covered with the nickel liquid move to the drying box (9) along with the conveyor belt (4), and the nickel layer is firmly combined with the steel heald wires (2) through the high temperature and the fan (11) to form a stable nickel layer;

F. when the steel heald wires (2) move to the positions of the hanging plates (3) corresponding to the discharging manipulators (16) along with the driving belt (4) from the drying box (9), the discharging manipulators (16) take down the processed steel heald wires (2) from the hanging plates (3) and enter the next working procedure through the discharging device (15).

2. A steel heald coating device is characterized in that: including nickel cistern (1), steel heald (2), link plate (3), conveyer belt (4), action wheel (5), initiative motor (6), support column (7), follow driving wheel (8), stoving case (9), heating wire (10), fan (11), fan motor (12), material feeding unit (13), feeding manipulator (14), discharging device (15), ejection of compact manipulator (16), splendid attire has nickel liquid in nickel cistern (1), and the infiltration has steel heald (2) in the nickel liquid, and steel heald (2) are colluded on link plate (3), and link plate (3) are established on conveyer belt (4), and the bottom of conveyer belt (4) is equipped with action wheel (5), installs initiative motor (6) after action wheel (5), installs support column (7) on initiative motor (6), and the top of conveyer belt (4) is equipped with from driving wheel (8), installs in stoving case (9) from driving wheel (8), is equipped with heating wire (10) on the inner wall of stoving case (9), and the top of case (9) is equipped with fan (11), and fan (11) are connected to install fan (12), and nickel cistern (13) are equipped with on the right side of stoving side, the front end of the feeding device (13) is provided with a feeding manipulator (14), a discharging device (15) is arranged above the feeding device (13), the front end of the discharging device (15) is provided with a discharging manipulator (16), and the nickel liquid tank (1) is provided with a controller (17).

3. A steel heddle coating device as claimed in claim 2, characterized in that: the feeding device (13) and the discharging device (15) are provided with gear conveyor belts; the gear on the feeding device (13) rotates anticlockwise, and the gear on the discharging device (15) rotates clockwise.

4. A steel heddle coating device as claimed in claim 2, characterized in that: the driving wheel (5) rotates clockwise.

5. A steel heddle coating device as claimed in claim 2, characterized in that: the base of the feeding manipulator (14) is fixedly arranged on a supporting frame of the feeding device (13); the base of the discharging manipulator (16) is fixedly arranged on a supporting frame of the discharging device (15).

6. A steel heddle coating device as claimed in claim 2, characterized in that: the driven wheel (8) is arranged in the drying box (9) through a fixed rod (91).

7. A steel heddle coating device as claimed in claim 2, characterized in that: the hanging plate (3) is provided with small holes; the hanging plates (3) are symmetrically distributed on two sides of the conveyor belt (4), and the lengths of the hanging plates (3) are gradually decreased from top to bottom.

8. A steel heddle coating device as claimed in claim 2, characterized in that: a thermometer and a pH value meter are arranged in the nickel liquid tank (1).