CN113529191A - Water cooling device of plastic flat wire drawing machine - Google Patents

Abstract

The invention relates to the field of plastic woven bag processing, and discloses a water cooling device of a plastic flat filament drawing machine. The invention has the following advantages and effects: the film is conveyed into a cooling water tank through a plurality of first guide shafts to be cooled by water; then the impurities attached to the surface of the film are washed by the washing component, and the washing water flows into the cold water tank again through the water baffle; then, two annular water-absorbing sponges contact two surfaces of the film to absorb residual water drops on the two surfaces of the film, and water on the annular water-absorbing sponges falls into the inclined plate and the cooling water tank after being extruded by the water extruding assembly; finally, air-drying the two surfaces of the film through an air-drying mechanism; because of the good water absorption effect of the annular water absorption sponge, the water removal effect on the two surfaces of the film can be improved, and the air drying can be conveniently realized.

Description

Water cooling device of plastic flat wire drawing machine

Technical Field

The invention relates to the technical field of plastic woven bag processing, in particular to a water cooling device of a plastic flat filament wire drawing machine.

Background

The plastic flat filament drawing machine uses polypropylene and high-density ethylene as raw materials, and the raw materials are heated, extruded, divided and stretched to prepare flat filaments. The flat filaments can be woven into plastic woven bags through a circular weaving machine.

The working process of the plastic flat wire drawing machine is as follows: pouring the raw materials into a high-speed mixer in sequence according to the proportion, fully stirring, conveying the raw materials into a smelting furnace through a feeding screw, and performing melting plasticization on the fully mixed raw materials; conveying the melted raw materials into an extruder through a feeding screw, extruding the raw materials in a quantitative and constant pressure manner, and extruding and molding the raw materials through a die head to form a molten film; sending the molten film into cooling water for cooling treatment, conveying the film to a cutting machine through a conveying roller, and cutting the cooled plastic film into blank wires with equal width through a blade; the blank filaments are sent into a drawing device, because the linear speed of the drawing device is several times of that of a traction device, when the blank filaments are drawn and dried by a plate, the blank filaments are heated and drawn to form flat filaments, the original disordered polymer molecular chains are directionally and orderly arranged, the relative breaking force is enhanced, then the drawn flat filaments are shaped by a shaping and drying plate, the internal stress is eliminated, the contraction of the flat filaments is prevented, and finally the processed flat filaments are wound.

After the film passes through the cooling water cooling, need carry out the dewatering to the film of water-cooling arc, conventional dewatering method is scraped water through two surfaces of scraper blade to the film earlier, rethread cold wind blows dry film upper and lower surface and remains moisture, but cooling back adnexed cooling water is more in because of film cooling water is carried out, and contradict too closely then cause the damage to the film easily because of scraper blade and film, the effect is scraped to the influence of pine then, thereby the direction needs the time that extension cold wind weathered or increases the amount of wind, lead to energy loss too big.

Disclosure of Invention

The invention aims to provide a water cooling device of a plastic flat wire drawing machine, which can improve the water removal effect on two surfaces of a thin film so as to facilitate air drying.

The technical purpose of the invention is realized by the following technical scheme: a water cooling device of a plastic flat wire drawing machine comprises a water cooling mechanism, a water absorbing mechanism and an air drying mechanism, wherein the water absorbing mechanism is positioned above the water cooling mechanism, the air drying mechanism is positioned above the water absorbing mechanism, the water cooling mechanism comprises a cooling water tank, a plurality of first guide shafts, two water baffles and a flushing assembly, the cooling water tank is used for being fixed on a rack above the cooling water tank, the first guide shafts are rotatably connected in the cooling water tank and used for enabling a film to enter the cooling water tank for cooling, the two water baffles are used for being fixed on the rack above the cooling water tank and positioned on two sides of the film, the flushing assembly is arranged on the inner sides of the two water baffles and used for flushing two surfaces of the film, the distance between the two water baffles is gradually increased along the vertical upward direction, the bottoms of the water baffles are positioned in the cooling water tank, and the part of the film, which enters the air drying mechanism, is output from the first guide shaft at the tail of the water cooling mechanism, extends along the vertical direction; the mechanism of absorbing water includes that two are used for rotating the pivot of connecting in the frame and setting up side by side, set up in the week side of pivot and be used for the conflict back absorption film on the cooling water the annular sponge of absorbing water, be used for driving two pivots rotate with opposite direction simultaneously in order to order about the power component of film upward movement, two are used for extruding the crowded water subassembly of the moisture in two annular sponges of absorbing water respectively, quilt the rivers that crowded water subassembly was extruded are inboard.

By adopting the technical scheme, the film is conveyed into the cooling water tank through the first guide shafts to be cooled by water; then the impurities attached to the surface of the film are washed by the washing component, and the washing water flows into the cold water tank again through the water baffle; then, two annular water-absorbing sponges contact two surfaces of the film to absorb residual water drops on the two surfaces of the film, and water on the annular water-absorbing sponges falls into the inclined plate and the cooling water tank after being extruded by the water extruding assembly; finally, air-drying the two surfaces of the film through an air-drying mechanism; because of the good water absorption effect of the annular water absorption sponge, the water removal effect on the two surfaces of the film can be improved, and the air drying can be conveniently realized.

The invention is further provided with: the flushing assembly comprises flushing pipes arranged on the inner sides of the two water baffles, a plurality of flushing nozzles arranged on the flushing pipes and used for flushing the surface of the film, two water inlet hoses respectively connected with the two flushing pipes, a water pump and a three-way joint communicated with the water outlet end of the water pump and connected with the two water inlet hoses.

Through adopting above-mentioned technical scheme, in carrying the entering hose through the water pump, reentrant flushing pipe flows out from the sprinkler head again at last, realizes washing the two surfaces of film, can realize further refrigerated function, also can realize getting rid of the function of the adnexed impurity in film surface.

The invention is further provided with: the cooling water tank bottom is provided with the delivery pipe that is connected with the end of intaking of water pump, delivery pipe middle part is provided with the filter.

By adopting the technical scheme, the cooling water tank is connected with the water pump through the water supply pipe, so that water in the cooling water tank can circulate through the flushing assembly, the water temperature in the cooling water tank is reduced, and the cooling effect on the film is ensured; meanwhile, when the film is washed, the filter can remove impurities in the washing water.

The invention is further provided with: the power assembly comprises a speed reducing motor connected with one end of one rotating shaft and two linkage gears which are respectively arranged on the two rotating shafts and are meshed with each other.

Through adopting above-mentioned technical scheme, gear motor can drive one of them pivot and rotate, and two linkage gears mesh mutually to the realization drives another pivot and rotates, finally makes two pivots rotate with opposite direction simultaneously in order to order about the film upward movement.

The invention is further provided with: the water squeezing assembly comprises a mounting seat used for being fixed on the rack, a water pressing plate, an adjusting piece and a water squeezing plate, wherein one end of the water pressing plate is hinged to the mounting seat and used for abutting against the periphery of the annular water absorption sponge, the adjusting piece is arranged between the mounting seat and the water pressing plate and used for adjusting the force of the water pressing plate pressing the annular water absorption sponge tightly, the water pressing plate extends downwards in an inclined mode towards the direction close to the film when pressing the annular water absorption sponge tightly, a cavity is formed in the water pressing plate, a plurality of water inlet holes communicated with the cavity are formed in the surface array of the annular water absorption sponge tightly pressed by the water pressing plate, and a water draining hole is formed in the lower end of the water pressing plate, communicated with the cavity and enabling water to flow to the inner side of the water blocking plate.

By adopting the technical scheme, after more water is absorbed on the annular water-absorbing sponge, the annular water-absorbing sponge rotating along with the rotating shaft is tightly pressed by the water pressing plate, so that the water on the annular water-absorbing sponge can be extruded out, and the water absorption effect of the annular water-absorbing sponge on the film is ensured; the extruded water can flow out to the inner side of the water baffle along the water inlet hole, the cavity and the water outlet hole of the water pressing plate, so that the water can flow out quickly; meanwhile, the adjusting piece can adjust the force of the water pressing plate pressing on the annular water absorption sponge.

The invention is further provided with: the adjusting part comprises an adjusting seat arranged on the mounting seat, a plurality of adjusting bolts connected to the adjusting seat along the horizontal direction through threads, and a plurality of adjusting sleeves hinged to one ends of the adjusting bolts and used for abutting against the surface of the water pressing plate far away from the water inlet hole.

By adopting the technical scheme, the threaded connection position of the adjusting bolt and the adjusting seat is changed by rotating the adjusting bolt, so that the force of the water pressing plate pressing on the annular water absorption sponge can be realized; meanwhile, the adjusting sleeve is hinged to one end of the adjusting bolt, so that the adjusting sleeve can be kept in a state of abutting against the water pressing plate.

The invention is further provided with: air-dry mechanism includes a plurality of second guiding axles that are used for rotating to connect in the frame and realize carrying the film, a plurality of air-supply lines that are used for fixing in the frame, a plurality of flat air outlet nozzle of setting on the air-supply line, the draught fan that is linked together with a plurality of air-supply lines.

Through adopting above-mentioned technical scheme, the air flows along draught fan, air-supply line, flat air-out nozzle to the realization is air-dried the film surface.

The invention is further provided with: the number of the second guide shafts is four, the four second guide shafts are divided into an upper row and a lower row and are distributed in a staggered manner in the horizontal direction, and the film part between the last first guide shaft and the initial second guide shaft extends in the vertical direction; the air inlet pipes are totally provided with two air inlet pipes, one air inlet pipe is arranged between the two upper second guide shafts and the flat air outlet nozzle is arranged downwards, and the other air inlet pipe is arranged between the two lower second guide shafts and the flat air outlet nozzle is arranged upwards.

By adopting the technical scheme, the number of the second guide shafts is four, the four second guide shafts are divided into an upper row and a lower row and are distributed in a staggered manner in the horizontal direction, the film part between the last first guide shaft and the initial second guide shaft extends in the vertical direction, at the moment, the film part passing through the four second guide shafts is in an N shape, downward and upward concave parts are formed, at the moment, one air inlet pipe is arranged between the two second guide shafts above and the flat air outlet nozzle is arranged downwards, the other air inlet pipe is arranged between the two second guide shafts below and the flat air outlet nozzle is arranged upwards, the two air inlet pipes are respectively aligned with the two concave parts, and the air drying effect can be improved.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

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

FIG. 2 is a schematic diagram of the structure of the water cooling mechanism according to the present invention;

FIG. 3 is a schematic view showing the structure of a water absorbing mechanism according to the present invention;

FIG. 4 is a schematic structural view of a power unit in the water absorbing mechanism according to the present invention;

FIG. 5 is a sectional view showing the structure of a water pressing plate of the water sucking mechanism according to the present invention.

In the figure: 11. a cooling water tank; 12. a first guide shaft; 13. a water baffle; 14. a flushing assembly; 141. a flush tube; 142. washing the spray head; 143. a water inlet hose; 144. a water pump; 145. a three-way joint; 146. a water supply pipe; 147. a filter; 21. a rotating shaft; 22. an annular water-absorbing sponge; 23. a power assembly; 231. a reduction motor; 232. a linkage gear; 24. a wringing component; 241. a mounting seat; 242. a water pressing plate; 2421. a cavity; 2422. a water inlet hole; 2423. a drain hole; 243. an adjustment member; 2431. an adjusting seat; 2432. adjusting the bolt; 2433. an adjusting sleeve; 31. a second guide shaft; 32. an air inlet pipe; 33. a flat air outlet nozzle; 34. an induced draft fan.

Detailed Description

The technical solution of the present invention will be clearly and completely described below with reference to specific embodiments. It is to be understood that the described embodiments are merely a few embodiments of the invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the present invention without any inventive step, are within the scope of the present invention.

Example (b): a water cooling device of a plastic flat wire drawing machine is shown in figures 1 to 5 and comprises a water cooling mechanism, a water absorbing mechanism and an air drying mechanism, wherein the water absorbing mechanism is located above the water cooling mechanism, and the air drying mechanism is located above the water absorbing mechanism.

As shown in fig. 1, the water cooling mechanism includes a cooling water tank 11 fixed on the frame, a plurality of first guide shafts 12 rotatably connected in the cooling water tank 11 and allowing the film to enter the cooling water tank 11 for cooling, two water baffles 13 fixed on the frame above the cooling water tank 11 and located at both sides of the film, and a flushing assembly 14 disposed inside the two water baffles 13 and flushing both surfaces of the film.

As shown in fig. 1 and 2, the distance between the two water baffles 13 is gradually increased along the vertical upward direction, the bottom of the water baffle 13 is positioned in the cooling water tank 11, and the portion of the film which is output from the last first guide shaft 12 of the water cooling mechanism and enters the airing mechanism extends along the vertical direction. The flushing assembly 14 comprises a flushing pipe 141 arranged inside the two water baffles 13, a plurality of flushing nozzles 142 arranged on the flushing pipe 141 and used for flushing the surface of the thin film, two water inlet hoses 143 respectively connected with the two flushing pipes 141, a water pump 144, and a three-way joint 145 communicated with the water outlet end of the water pump 144 and connected with the two water inlet hoses 143. The bottom of the cooling water tank 11 is provided with a water supply pipe 146 connected to a water inlet end of the water pump 144, and a filter 147 is provided in the middle of the water supply pipe 146.

As shown in fig. 1, 3 to 5, the water absorbing mechanism includes two rotating shafts 21 rotatably connected to the frame and arranged side by side, annular water absorbing sponges 22 arranged on the periphery of the rotating shafts 21 and used for contacting and absorbing cooling water on the films, a power assembly 23 for driving the two rotating shafts 21 to rotate in opposite directions simultaneously to drive the films to move upward, and two water squeezing assemblies 24 for squeezing out water in the two annular water absorbing sponges 22 respectively. The power assembly 23 includes a reduction motor 231 connected to one end of one of the rotating shafts 21, and two interlocking gears 232 respectively disposed on the two rotating shafts 21 and engaged with each other. The water squeezing assembly 24 comprises a mounting seat 241 fixed on the rack, a water pressing plate 242 with one end hinged to the mounting seat 241 and used for abutting against the periphery of the annular water absorption sponge 22, and an adjusting piece 243 arranged between the mounting seat 241 and the water pressing plate 242 and used for adjusting the force of the water pressing plate 242 pressing on the annular water absorption sponge 22, wherein the water pressing plate 242 extends obliquely downwards towards the direction close to the membrane when pressing on the annular water absorption sponge 22, a cavity 2421 is arranged in the water pressing plate 242, a plurality of water inlet holes 2422 communicated with the cavity 2421 are formed in the surface array of the water pressing plate 242 pressing on the annular water absorption sponge 22, and a water drain hole 2423 communicated with the cavity 2421 and enabling water to flow to the inner side of the water baffle 13 is formed in the lower end of the water pressing plate 242. The adjusting member 243 includes an adjusting seat 2431 provided on the mounting seat 241, a plurality of adjusting bolts 2432 screwed on the adjusting seat 2431 in a horizontal direction, and a plurality of adjusting sleeves 2433 hinged at one end of the adjusting bolts 2432 and adapted to abut against a surface of the water pressure plate 242 away from the water inlet hole 2422. The water squeezed by the water squeezing assembly 24 flows into the inner side of the water guard plate 13.

As shown in fig. 1, the air drying mechanism includes four second guide shafts 31 rotatably connected to the frame and used for conveying the film, two air inlet pipes 32 fixed to the frame, a plurality of flat air outlets 33 disposed on the air inlet pipes 32, and an induced draft fan 34 communicated with the two air inlet pipes 32. The four second guide shafts 31 are divided into two rows which are arranged up and down and are distributed in a staggered manner in the horizontal direction, and the film part between the last first guide shaft 12 and the initial second guide shaft 31 extends in the vertical direction; two air inlet ducts 32 are provided in total, one air inlet duct 32 being arranged between the upper two second guide shafts 31 and with the flat air outlet 33 facing downward, and the other air inlet duct 32 being arranged between the lower two second guide shafts 31 and with the flat air outlet 33 facing upward.

The implementation effect is as follows: the film is conveyed into a cooling water tank 11 through a plurality of first guide shafts 12 for water cooling; then the impurities attached to the surface of the film are washed by the washing component 14, and the washing water flows into the cold water tank again through the water baffle 13; then, two annular water absorption sponges 22 contact two surfaces of the film to absorb residual water drops on the two surfaces of the film, and water on the annular water absorption sponges 22 is extruded by a water extruding assembly 24 and then falls into the inclined plate and the cooling water tank 11; finally, air-drying the two surfaces of the film through an air-drying mechanism; the annular water absorption sponge 22 has a good water absorption effect, so that the water removal effect on two surfaces of the film can be improved, and the film can be air-dried conveniently.

After absorbing more water on the annular water absorbing sponge 22, the water pressing plate 242 is pressed on the annular water absorbing sponge 22 rotating along with the rotating shaft 21, so that water on the annular water absorbing sponge 22 can be extruded out, and the water absorbing effect of the annular water absorbing sponge 22 on the film is ensured; the extruded water can flow out to the inner side of the water baffle 13 along the water inlet 2422, the cavity 2421 and the water outlet of the water pressing plate 242, so that the water can flow out quickly; meanwhile, the adjusting part 243 can adjust the force of the pressing water plate 242 pressing on the annular water absorption sponge 22.

The total number of the second guide shafts 31 is four, the four second guide shafts 31 are divided into upper and lower two rows and are distributed in a staggered manner in the horizontal direction, the film part between the last first guide shaft 12 and the first second guide shaft 31 extends in the vertical direction, the film part passing through the four second guide shafts 31 is in an N shape at the moment, downward and upward concave parts are formed, at the moment, one air inlet pipe 32 is arranged between the two second guide shafts 31 above and is flat, the air outlet nozzle 33 is arranged downward, the other air inlet pipe 32 is arranged between the two second guide shafts 31 below and is flat, the air outlet nozzle 33 is arranged upward, and the two air inlet pipes 32 are respectively aligned with the two concave parts, so that the air drying effect can be improved.

Claims (8)

1. The utility model provides a water cooling plant of plastics flat filament wire drawing machine, includes water cooling mechanism, is located the mechanism that absorbs water of water cooling mechanism top, is located the air-dry mechanism of the mechanism top that absorbs water, its characterized in that:

the water cooling mechanism comprises a cooling water tank (11) fixed on the rack, a plurality of first guide shafts (12) which are rotatably connected in the cooling water tank (11) and used for enabling a film to enter the cooling water tank (11) for cooling, two water baffles (13) which are used for being fixed on the rack above the cooling water tank (11) and located on two sides of the film, and a flushing assembly (14) which is arranged on the inner sides of the two water baffles (13) and used for flushing two surfaces of the film, wherein the distance between the two water baffles (13) is gradually increased along the vertical upward direction, the bottoms of the water baffles (13) are located in the cooling water tank (11), and the part of the film which enters the air drying mechanism and is output from the first guide shaft (12) at the tail end of the water cooling mechanism extends along the vertical direction;

the mechanism of absorbing water includes that two are used for rotating the pivot (21) that connect in the frame and set up side by side, set up in the week side of pivot (21) and be used for conflicting the back absorb the annular sponge (22) that absorbs water of the cooling water on the film, be used for driving two pivot (21) simultaneously with opposite direction rotation in order to order about power component (23) of film upward movement, two crowded water subassembly (24) that are arranged in extruding the moisture in two annular sponges (22) of absorbing water respectively, by crowded water flow that water subassembly (24) were extruded is inboard in breakwater (13).

2. The water cooling device of the plastic flat wire drawing machine according to claim 1, characterized in that: the flushing assembly (14) comprises flushing pipes (141) arranged on the inner sides of the two water baffles (13), a plurality of flushing nozzles (142) arranged on the flushing pipes (141) and used for flushing the surfaces of the thin films, two water inlet hoses (143) respectively connected with the two flushing pipes (141), a water pump (144), and a three-way joint (145) communicated with the water outlet end of the water pump (144) and connected with the two water inlet hoses (143).

3. The water cooling device of the plastic flat wire drawing machine according to claim 2, characterized in that: the bottom of the cooling water tank (11) is provided with a water supply pipe (146) connected with the water inlet end of the water pump (144), and the middle of the water supply pipe (146) is provided with a filter (147).

4. The water cooling device of the plastic flat wire drawing machine according to claim 1, characterized in that: the power assembly (23) comprises a speed reducing motor (231) connected with one end of one rotating shaft (21) and two linkage gears (232) which are respectively arranged on the two rotating shafts (21) and are meshed with each other.

5. The water cooling device of the plastic flat wire drawing machine according to claim 1, characterized in that: the water squeezing assembly (24) comprises a mounting seat (241) fixed on the frame, a water pressing plate (242) with one end hinged on the mounting seat (241) and used for abutting against the peripheral side of the annular water absorption sponge (22), and an adjusting piece (243) arranged between the mounting seat (241) and the water pressing plate (242) and used for adjusting the force of the water pressing plate (242) pressing on the annular water absorption sponge (22), the water pressing plate (242) is pressed on the annular water absorption sponge (22) and extends downwards in an inclined way towards the direction close to the film, a cavity (2421) is arranged in the water pressing plate (242), a plurality of water inlet holes (2422) communicated with the cavity (2421) are arranged on the surface array of the water pressing plate (242) pressing the annular water absorption sponge (22), the lower end of the water pressing plate (242) is provided with a water drainage hole (2423) which is communicated with the cavity (2421) and enables water to flow to the inner side of the water baffle (13).

6. The water cooling device of the plastic flat wire drawing machine according to claim 5, characterized in that: the adjusting piece (243) comprises an adjusting seat (2431) arranged on the mounting seat (241), a plurality of adjusting bolts (2432) which are screwed on the adjusting seat (2431) along the horizontal direction, and a plurality of adjusting sleeves (2433) which are hinged at one end of the adjusting bolts (2432) and are used for abutting against the surface of the water pressing plate (242) far away from the water inlet hole (2422).

7. The water cooling device of the plastic flat wire drawing machine according to claim 6, characterized in that: air-dry mechanism include a plurality of be used for rotate connect in the frame and realize carrying second guiding axle (31) of film, a plurality of air-supply line (32) that are used for fixing in the frame, a plurality of flat air outlet nozzle (33) of setting on air-supply line (32), draught fan (34) that are linked together with a plurality of air-supply line (32).

8. The water cooling device of the plastic flat wire drawing machine according to claim 7, characterized in that: the number of the second guide shafts (31) is four, the four second guide shafts (31) are divided into an upper row and a lower row and are distributed in a staggered mode in the horizontal direction, and the film part between the last first guide shaft (12) and the first second guide shaft (31) extends in the vertical direction; the number of the air inlet pipes (32) is two, wherein one air inlet pipe (32) is arranged between the two upper second guide shafts (31) and the flat air outlet nozzle (33) is arranged downwards, and the other air inlet pipe (32) is arranged between the two lower second guide shafts (31) and the flat air outlet nozzle (33) is arranged upwards.

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