CN108639837B - Small-sized high polymer wire feeder integrating cooling and transfusion and wire feeding process thereof - Google Patents

Abstract

The invention provides a small-sized high polymer wire feeder integrating cooling and transfusion, which consists of a wire releasing mechanism, a cooling-transfusion mechanism, a belt wheel supporting bottom plate and a PC (personal computer) terminal, wherein a cooling structure in the wire feeder can effectively reduce the temperature of material wires, is beneficial to cutting the material wires, has flat cutting surfaces, does not need trailing or miscut, and can fully clean or pre-treat each material wire before the wire materials enter a cutting mechanism, thereby improving the cleanliness of sand blasting material wire particles without post-treatment.

Description

Small-sized high polymer wire feeder integrating cooling and transfusion and wire feeding process thereof

Technical Field

The invention relates to a small-sized high polymer wire feeder integrating cooling and transfusion and a wire feeding process thereof.

Background

The high polymer nylon sand is a granular product formed by using POLYAMIDE fiber (POLYAMIDE) as a raw material and granulating the raw material by using a special granulator, is semitransparent milky crystalline thermoplastic polymer particles, is soft and powerless, has the advantages of certain toughness, no cutting property, no damage to a product to be treated in the using process and the like, and is widely applied to sand blasting and shot blasting equipment. The nylon sand used as a common sand blasting material has the following remarkable characteristics: 1. the electrification preventing effect is good, namely dust is not easy to adhere to the surface, and the cyclic usability is good; (2) the cut surface is smooth, and the burr removing effect is good; (2) the product is firm and has long service life, and can not deform and hair after long-time use; (3) the flexibility is proper, and the surface of the product is not damaged; (4) good stability and no chemical influence on the projector.

The nylon sand mainly has the application fields as follows: (1) the electronic industry removes the excessive glue: surface pre-treatment of circuit board, and removing flash of electronic parts. (2) Clean epoxy optical detector: does not make the surface opaque; (3) the composite material comprises the following components: the paint and the coating can be removed from the glass fiber, carbon fiber and resin workpieces; (4) cleaning a mold: the rubber, plastic, glass and die-casting mold can be cleaned without damaging the dimensional precision of the mold; (5) removing paint of the airplane: removing most of the aircraft paint, but retaining the electroplated layer; (6) removing burrs: remove tiny and slight burrs without damaging the surface of the workpiece.

Nylon sand is obtained by cutting filaments with the diameter of 0.3mm into a column shape, at present, firstly, because the high polymer filament is very thin (the diameter is generally 0.3 mm), the filament is very easy to be directly entangled with each other, so that the nylon sand after cutting has different shapes and extremely poor homogeneity, and is not suitable for performing sand blasting treatment on a substrate, secondly, after the filament is generally cut, the nylon sand should be cleaned, such as acid cleaning, alkali cleaning or pure water cleaning, so as to prevent unnecessary impurities from being introduced and damaging a workpiece during sand blasting, but the nylon sand cut into small particles is generally small sand blasting particles with the diameter/length =0.1/0.1 and the like, at the moment, the nylon sand is difficult to clean, such as the nylon sand is small in mass and easy to suspend, insoluble in water, difficult to filter and the like, and secondly, in the process of cutting the filament, if a blade of a cutting mechanism is not sharp, or the cutting speed is too slow or too fast, the cutting surface is not neat, or the section is long and trailing, so that the high polymer sandblasting particles do not meet the use standard after being cut, great loss is caused to enterprises, advanced cutter heads need to be continuously updated, and secondary loss is caused. As shown in prior art fig. 1, the wire feeder suffers from the above-mentioned drawbacks and is not compact.

Disclosure of Invention

When a large amount of abrasive high polymer particles are prepared by the company, such as when nylon sand material wires are cut, the cutting surface of nylon sand is smoother and smoother than the cutting surface in summer or at a higher temperature when the winter or the temperature is lower, and basically no trailing condition occurs on the cutting surface.

A small-sized high polymer wire feeder integrating cooling and transfusion is composed of a wire feeding mechanism, a cooling-transfusion mechanism, a belt wheel supporting base plate and a PC terminal (the PC terminal is not shown in the attached drawing),

the wire releasing mechanism comprises a plurality of vertical beams 3 which are fixedly arranged on a supporting base plate 2 and arranged in parallel, each vertical beam 3 is fixedly provided with a plurality of supporting arms 4, each supporting arm 4 is sleeved with a wire disc 5, and high polymer wires 6 on the wire discs 5 are sent to a wire inlet 7 of an adjacent cooling-infusion mechanism;

the cooling-transfusion mechanism comprises a reaction tank 10, a filter tank 8, a liquid storage tank 14 and a refrigerating gas engine 15, wherein the liquid storage tank 14 and the refrigerating gas engine 15 are positioned at the upper part of the cooling-transfusion mechanism, the reaction tank 10 is positioned at the middle part of the cooling-transfusion mechanism, the filter tank 8 is positioned at the lower part of the cooling-transfusion mechanism, a feed yarn inlet 7 is arranged on the tank wall at one side of the reaction tank 10, a feed yarn outlet 13 is arranged on the tank wall at the other side of the reaction tank 10, after the feed yarn enters the feed yarn inlet 7 of the reaction tank 10, the feed yarn sequentially passes through a first yarn guide roller, a hollow wheel-shaped main yarn guide roller 11 rotating around the central shaft of the feed yarn, a second yarn guide roller and the feed yarn outlet 13 of the reaction tank 10, the bottom of the reaction tank 10 is connected with one end of a filter pipe 9, the other end of the filter pipe 9 is connected with the filter tank 8, and the filter tank 8 is connected with the liquid storage tank 14 through a pipeline; the liquid storage tank 14 and the refrigerating machine 15 are connected with a three-way valve through pipelines and are connected with a cold air or liquid inlet channel on the hollow wheel-shaped main godet roller 11 through pipelines, and the cold air or liquid is discharged from a cold air or liquid outlet channel on the main godet roller 11 so as to convey the cold air or liquid to the reaction tank 10.

Further, the wire discs 5 arranged on each supporting arm 4 are not on the same horizontal plane, the high polymer material wires on the wire discs are nylon or modified nylon wires, and the diameter of the high polymer material wires is 0.1-5 mm.

Further, be provided with liquid level display, thermocouple and exhaust hole on the cell wall of reaction tank 10, wherein liquid level display and thermocouple are connected with the PC terminal electricity, and the temperature of real-time supervision reaction tank, the water yield, just PC terminal still electricity is connected the switching of three-way valve, refrigeration machine of qi and each groove.

Furthermore, grooves are formed in the main yarn guide roller 11 and the yarn guide roller 12, and the number of the grooves is more than or equal to 3.

Furthermore, filter bags are arranged inside the filter pipe 9 and the filter tank 8, wherein a plurality of filter bags fixed through porous partition plates are arranged in the filter tank 8.

Furthermore, a first pump and a second pump are respectively arranged on pipelines between the filter tank 8 and the liquid storage tank 14 and between the liquid storage tank 14 and the three-way valve.

Further, the support base plate 2 is provided with wheels 1.

Further, after the material wire 6 passes through the material wire outlet 13, the temperature of the material wire 6 is 4-7 DEG C^oC。

Further, the cut tobacco 6 passes through the cut tobacco outlet and is conveyed to the cutting mechanism.

Further, a wire feeding process of a small-sized high polymer wire feeder integrating cooling and transfusion comprises the following steps:

firstly, a plurality of wire discs 5 are respectively hung on a wire releasing mechanism, the wire releasing mechanism comprises a plurality of vertical beams 3 which are fixedly arranged on a supporting base plate 2 and arranged in parallel, each vertical beam 3 is fixedly provided with a plurality of supporting arms 4, and the wire discs 5 are sleeved on the supporting arms 4;

secondly, the high polymer material filaments 6 on the filament disk 5 are sent to a material filament inlet 7;

thirdly, a liquid storage tank 14 and a refrigerating machine 15 in the cooling-infusion mechanism are opened, cooling gas or liquid is provided for the reaction tank through a three-way valve, and the cooling gas sequentially passes through the three-way valve, a pipeline, a cold gas or liquid inlet channel, a main guide wire roller hollow part, a cold gas or liquid outlet channel, the interior of the reaction tank and a reaction tank exhaust hole; the liquid sequentially passes through a three-way valve, a pipeline, a cold air or liquid inlet channel, a hollow part of a main guide wire roller, a cold air or liquid outlet channel, the inside of a reaction tank, a filter pipe 9, a filter tank 8, a liquid storage tank 14 and the three-way valve to realize circulation, the PC terminal controls the temperature of the reaction tank to be detected by a thermocouple, the liquid level of the reaction tank is controlled by a liquid level display, and the temperature of the reaction tank is controlled to be 4-7^oC；

Fourthly, after entering a filament inlet 7 of the reaction tank 10, the filaments sequentially pass through a first godet roller, a hollow wheel-shaped main godet roller 11 which rotates around the central shaft of the first godet roller, a second godet roller and a filament outlet 13 of the reaction tank 10, and the temperature of the filaments of the high polymer is 4-7 DEG^oC；

Fifthly, the high polymer material filaments are sent to a filament cutting mechanism through a filament drawing mechanism, and the temperature of the high polymer material filaments is 9-12 during filament cutting^oC。

Compared with the prior art, the invention can obtain the following beneficial technical effects:

(1) the wire feeder and the process are simple, safe and environment-friendly, and the PC terminal is automatic and is suitable for flow line industrial production;

(2) the occurrence rate of problems such as winding and entanglement of the material wires in the wire feeding mechanism is low;

(3) the cooling structure in the wire feeding mechanism can effectively reduce the temperature of the wire, namely reduce the brittleness or toughness of the wire, is beneficial to cutting, and has smooth cutting surface, no tailing and no miscut;

(4) before the wire materials enter the cutting mechanism, each wire material is fully cleaned or pretreated, so that the cleanliness of the sand blasting wire material particles is improved, and post-treatment is not needed;

(5) the transfusion system in the wire feeding mechanism can circulate the treatment liquid for many times, reduce the floor area of the wire feeding mechanism and facilitate miniaturization;

(6) the wire feeder integrates wire feeding, cooling and transfusion, is miniaturized and movable, and is easy to produce.

Drawings

FIG. 1 is a schematic view of a polymer abrasive wire feeder in the prior art.

FIG. 2 is a schematic view of a small-sized high polymer wire feeder integrating cooling and transfusion.

Description of the reference numerals: a wheel 1; a support base plate 2; a vertical beam 3; a support arm 4; a wire reel 5; 6, material wires; a feed wire inlet 7; a filter tank 8; a filter tube 9; a reaction tank 10; a main guide wire roller 11; a godet roller 12; a strand outlet 13 and a liquid storage tank 14; a refrigerating machine 15.

Detailed Description

In order to better understand the present invention, the following examples are further illustrated, which are only used for explaining the present invention and do not constitute any limitation to the present invention.

Example 1

A small-sized high polymer wire feeder integrating cooling and transfusion is composed of a wire feeding mechanism, a cooling-transfusion mechanism, a belt wheel supporting base plate and a PC terminal,

the wire releasing mechanism comprises a plurality of vertical beams 3 which are fixedly arranged on a supporting base plate 2 and arranged in parallel, each vertical beam 3 is fixedly provided with a plurality of supporting arms 4, each supporting arm 4 is sleeved with a wire disc 5, and high polymer wires 6 on the wire discs 5 are sent to a wire inlet 7 of an adjacent cooling-infusion mechanism;

the cooling-transfusion mechanism comprises a reaction tank 10, a filter tank 8, a liquid storage tank 14 and a refrigerating gas engine 15, wherein the liquid storage tank 14 and the refrigerating gas engine 15 are positioned at the upper part of the cooling-transfusion mechanism, the reaction tank 10 is positioned at the middle part of the cooling-transfusion mechanism, the filter tank 8 is positioned at the lower part of the cooling-transfusion mechanism, a feed yarn inlet 7 is arranged on the tank wall at one side of the reaction tank 10, a feed yarn outlet 13 is arranged on the tank wall at the other side of the reaction tank 10, after the feed yarn enters the feed yarn inlet 7 of the reaction tank 10, the feed yarn sequentially passes through a first yarn guide roller, a hollow wheel-shaped main yarn guide roller 11 rotating around the central shaft of the feed yarn, a second yarn guide roller and the feed yarn outlet 13 of the reaction tank 10, the bottom of the reaction tank 10 is connected with one end of a filter pipe 9, the other end of the filter pipe 9 is connected with the filter tank 8, and the filter tank 8 is connected with the liquid storage tank 14 through a pipeline; the liquid storage tank 14 and the refrigerating machine 15 are connected with a three-way valve through pipelines and are connected with a cold air or liquid inlet channel on the hollow wheel-shaped main godet roller 11 through pipelines, and the cold air or liquid is discharged from a cold air or liquid outlet channel on the main godet roller 11 so as to convey the cold air or liquid to the reaction tank 10.

Further, the wire discs 5 arranged on each supporting arm 4 are not on the same horizontal plane, the high polymer material wires on the wire discs are nylon or modified nylon wires, and the diameter of the high polymer material wires is 0.1-5 mm.

Further, be provided with liquid level display, thermocouple and exhaust hole on the cell wall of reaction tank 10, wherein liquid level display and thermocouple are connected with the PC terminal electricity, and the temperature of real-time supervision reaction tank, the water yield, just PC terminal still electricity is connected the switching of three-way valve, refrigeration machine of qi and each groove.

Furthermore, grooves are formed in the main yarn guide roller 11 and the yarn guide roller 12, and the number of the grooves is more than or equal to 3.

Furthermore, filter bags are arranged inside the filter pipe 9 and the filter tank 8, wherein a plurality of filter bags fixed through porous partition plates are arranged in the filter tank 8.

Furthermore, a first pump and a second pump are respectively arranged on pipelines between the filter tank 8 and the liquid storage tank 14 and between the liquid storage tank 14 and the three-way valve.

Further, the support base plate 2 is provided with wheels 1.

Further, after the material wire 6 passes through the material wire outlet 13, the temperature of the material wire 6 is 4-7 DEG C^oC。

Further, the cut tobacco 6 passes through the cut tobacco outlet and is conveyed to the cutting mechanism.

Further, a wire feeding process of a small-sized high polymer wire feeder integrating cooling and transfusion comprises the following steps:

firstly, a plurality of wire discs 5 are respectively hung on a wire releasing mechanism, the wire releasing mechanism comprises a plurality of vertical beams 3 which are fixedly arranged on a supporting base plate 2 and arranged in parallel, each vertical beam 3 is fixedly provided with a plurality of supporting arms 4, and the wire discs 5 are sleeved on the supporting arms 4;

secondly, the high polymer material filaments 6 on the filament disk 5 are sent to a material filament inlet 7;

thirdly, a liquid storage tank 14 and a refrigerating machine 15 in the cooling-infusion mechanism are opened, cooling gas or liquid is provided for the reaction tank through a three-way valve, and the cooling gas sequentially passes through the three-way valve, a pipeline, a cold gas or liquid inlet channel, a main guide wire roller hollow part, a cold gas or liquid outlet channel, the interior of the reaction tank and a reaction tank exhaust hole; the liquid sequentially passes through a three-way valve, a pipeline, a cold air or liquid inlet channel, a hollow part of a main guide wire roller, a cold air or liquid outlet channel, the inside of a reaction tank, a filter pipe 9, a filter tank 8, a liquid storage tank 14 and the three-way valve to realize circulation, the PC terminal controls the temperature of the reaction tank to be detected by a thermocouple, the liquid level of the reaction tank is controlled by a liquid level display, and the temperature of the reaction tank is controlled to be 4-7^oC；

Fourthly, after entering a filament inlet 7 of the reaction tank 10, the filaments sequentially pass through a first godet roller, a hollow wheel-shaped main godet roller 11 which rotates around the central shaft of the first godet roller, a second godet roller and a filament outlet 13 of the reaction tank 10, and the temperature of the filaments of the high polymer is 4-7 DEG^oC；

Fifth, warp drawing mechanism, high polymerThe filament is fed to a filament cutting mechanism, and the temperature of the high polymer filament is 9-12^oC。

The temperature of the high polymer material filament passing through the cooling-transfusion mechanism is 4-7^oC, the material silk is required to pass through a device without a cooling function, such as a silk pulling mechanism, a silk pressing mechanism and the like before being sent to the silk cutting mechanism, and the temperature of the material silk is 9-12 ℃ when the material silk is sent to the silk cutting mechanism^oAnd C, shredding at the temperature, wherein the obtained high polymer cylinder is smooth in cut surface and has no tailing, and in order to further highlight the technical effect of the invention, compared with the high polymer obtained by a shredder in the prior art, the high polymer cylinder is not as good as the low-temperature processed material wire, and the surface of the high polymer cylinder has uneven hierarchical cut surface and has small tailing.

Although the present invention has been described above by way of examples of preferred embodiments, the present invention is not limited to the specific embodiments, and can be modified as appropriate within the scope of the present invention.

Claims (9)

1. A wire feeding process of a small-sized high polymer wire feeder integrating cooling and transfusion is characterized by comprising the following steps:

the wire releasing mechanism comprises a plurality of vertical beams (3) which are fixedly arranged on a supporting bottom plate (2) and arranged in parallel, a plurality of supporting arms (4) are fixed on each vertical beam (3), and the wire discs (5) are sleeved on the supporting arms (4);

secondly, high polymer material filaments (6) on the filament disc (5) are sent to a material filament inlet (7);

thirdly, a liquid storage tank (14) and a refrigerating air machine (15) in the cooling-infusion mechanism are opened, cooling air or liquid is provided for the reaction tank through a three-way valve, and the cooling air sequentially passes through the three-way valve, a pipeline, a cold air or liquid inlet channel, a hollow part of a main guide wire roller, a cold air or liquid outlet channel, the interior of the reaction tank and an exhaust hole of the reaction tank; the liquid sequentially passes through a three-way valve, a pipeline, a cold air or liquid inlet channel, a hollow part of a main guide wire roller, a cold air or liquid outlet channel, the inside of a reaction tank, a filter pipe (9), a filter tank (8), a liquid storage tank (14) and a three-way valve to realize circulation, a PC terminal controls the temperature of the reaction tank to be detected by a thermocouple, the liquid level of the reaction tank is controlled by a liquid level display, and the temperature of the reaction tank is controlled to be 4-7 ℃;

after entering a feed yarn inlet (7) of the reaction tank (10), the feed yarn sequentially passes through a first godet roller, a hollow wheel-shaped main godet roller (11) rotating around a self central shaft, a second godet roller and a feed yarn outlet (13) of the reaction tank (10), and the temperature of the feed yarn of the high polymer is 4-7 ℃;

fifthly, the high polymer material threads are sent to a thread cutting mechanism, and the temperature of the high polymer material threads is 9-12 ℃ during thread cutting^oC；

The small-sized high polymer wire feeder integrating cooling and transfusion comprises a wire releasing mechanism, a cooling-transfusion mechanism, a belt wheel support base plate and a PC (personal computer) terminal, wherein the wire releasing mechanism comprises a plurality of vertical beams (3) which are fixedly arranged on the support base plate (2) and arranged in parallel, each vertical beam (3) is fixedly provided with a plurality of support arms (4), each support arm (4) is sleeved with a wire disc (5), and high polymer wires (6) on the wire discs (5) are sent to wire inlets (7) of adjacent cooling-transfusion mechanisms; the cooling-transfusion mechanism comprises a reaction tank (10), a filter tank (8), a liquid storage tank (14) and a refrigerating air engine (15), wherein the liquid storage tank (14) and the refrigerating air engine (15) are positioned on the upper part of the cooling-transfusion mechanism, the reaction tank (10) is positioned in the middle of the cooling-transfusion mechanism, the filter tank (8) is positioned on the lower part of the cooling-transfusion mechanism, a material yarn inlet (7) is arranged on the wall of one side of the reaction tank (10), a material yarn outlet (13) is arranged on the wall of the other side of the reaction tank (10), the material yarn enters the material yarn inlet (7) of the reaction tank (10) and then sequentially passes through a first yarn guide roller, a hollow wheel-shaped main yarn guide roller (11) rotating around the self central shaft, a second yarn guide roller and a material yarn outlet (13) of the reaction tank (10), and the bottom of the reaction tank (10) is connected with one end of a filter pipe (9), the other end of the filter pipe (9) is connected with a filter tank (8), and the filter tank (8) is connected with a liquid storage tank (14) through a pipeline; the liquid storage tank (14) and the refrigerating air machine (15) are connected with a three-way valve through pipelines and are connected with a cold air or liquid inlet channel on the hollow wheel-shaped main godet roller (11) through pipelines, and the cold air or liquid is discharged from a cold air or liquid outlet channel on the main godet roller (11) so as to convey the cold air or liquid to the reaction tank (10).

2. The wire feeding process of the small-sized polymer wire feeder integrating cooling and transfusion as claimed in claim 1, wherein the wire discs (5) disposed on each support arm (4) are not on the same horizontal plane, and the polymer material wires on the wire discs are nylon or modified nylon wires, and the diameter of the polymer material wires is 0.1-5 mm.

3. The wire feeding process of a small polymer wire feeder integrating cooling and liquid feeding as one body according to any one of claims 1-2, wherein a liquid level display, a thermocouple and an exhaust hole are disposed on the wall of the reaction tank (10), wherein the liquid level display and the thermocouple are electrically connected to a PC terminal, the temperature and the water volume of the reaction tank are monitored in real time, and the PC terminal is further electrically connected to a three-way valve, a refrigerating machine and the opening and closing of each tank.

4. The wire feeding process of the small-sized high polymer wire feeder integrating cooling and liquid conveying as claimed in claim 1, wherein the main guide wire roller (11) and the guide wire roller (12) are provided with grooves, and the number of the grooves is more than or equal to 3.

5. The wire feeding process of the small-sized high polymer wire feeder integrating cooling and transfusion as claimed in claim 1, wherein the inside of the filtering pipe (9) and the filtering tank (8) is provided with a filtering bag, wherein the filtering tank (8) is provided with a plurality of filtering bags fixed by porous partition plates.

6. The process for feeding a small-sized polymer wire feeder integrating cooling and liquid feeding as claimed in claim 1, wherein the first pump and the second pump are respectively disposed on the pipes between the filter tank (8) and the liquid storage tank (14) and between the liquid storage tank (14) and the three-way valve.

7. The wire feeding process of the small-sized polymer wire feeder integrating cooling and liquid feeding as one body according to claim 1, wherein the supporting base plate (2) is provided with wheels (1).

8. The wire feeding process of the small-sized polymer wire feeder integrating cooling and liquid conveying as claimed in claim 1, wherein the temperature of the filament (6) is 4-7 ℃ after the filament (6) passes through the filament outlet (13).

9. The process for feeding a small-sized high polymer wire feeder integrating cooling and liquid feeding as claimed in claim 1, wherein the filament (6) is fed to the wire cutting mechanism after passing through the filament outlet.

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