CN219157054U

CN219157054U - Water bath cooling and shaping device for fiber tows for hair

Info

Publication number: CN219157054U
Application number: CN202320071715.0U
Authority: CN
Inventors: 郑文青
Original assignee: Henan Rebecca Hair Products Co ltd
Current assignee: Henan Rebecca Hair Products Co ltd
Priority date: 2023-01-10
Filing date: 2023-01-10
Publication date: 2023-06-09
Anticipated expiration: 2033-01-10

Abstract

The utility model discloses a water bath cooling and shaping device for a hair fiber tow, which comprises a first godet, a constant-temperature water bath, a second godet, a water absorbing and storing device, a double-sided cooling device and a godet, wherein the first godet, the constant-temperature water bath, the second godet, the water absorbing and storing device, the double-sided cooling device and the godet are sequentially arranged from front to back; the water absorbing and storing device comprises a water tank with an open top, the front side of the water tank is in butt joint with the rear side of the constant-temperature water bath, and two water absorbers for absorbing water carried on tows after water bath are arranged at intervals in front of and behind the top of the water tank. The utility model has scientific principle and simple structure, adsorbs and collects water carried by the tows after water bath, avoids water from dropping to the workshop floor, adopts upper and lower double-sided simultaneous blowing for cooling and shaping, greatly improves the cooling and shaping efficiency and also greatly improves the product quality after the tows are cooled and shaped.

Description

Water bath cooling and shaping device for fiber tows for hair

Technical Field

The utility model belongs to the technical field of hair fiber production, and particularly relates to a hair fiber tow water bath cooling and shaping device.

Background

The utility model patent with the publication number of CN214612910U discloses a processing device of a high-shrinkage human hair-like texture fiber product, which has the following problems in the practical application process: the tow through the constant temperature water bath carries more water, and the water droplet falls to the workshop ground between constant temperature water bath and the second cold wind device on, when passing through the second cold wind device, still has the water droplet, influences the cooling drying effect of second cold wind device to the tow, and in addition, the second cold wind device is bloied to the tow from bottom to top, and single face is bloied, and the cooling design effect is not good.

Disclosure of Invention

The utility model aims to solve the defects in the prior art and provides a water bath cooling and shaping device for a hair fiber tow, which is used for absorbing water to the tow after constant-temperature water bath and then cooling and shaping the tow by double-sided blowing.

In order to solve the technical problems, the utility model adopts the following technical scheme: the device comprises a first godet, a constant-temperature water bath tank, a second godet, a water absorbing and storing device, a double-sided cooling device and a godet, which are sequentially arranged from front to back, and a third godet is arranged in the constant-temperature water bath tank; the water absorbing and storing device comprises a water tank with an open top, the front side of the water tank is in butt joint with the rear side of the constant-temperature water bath, and two water absorbers for absorbing water carried on tows after water bath are arranged at intervals in front of and behind the top of the water tank.

The water absorber comprises a support arranged at the top of the water tank, an installation box with an open top is arranged at the top of the support, a sponge is arranged in the installation box, the top of the sponge is higher than the upper side edge of the installation box, the top of the sponge is in a cambered surface shape with a high middle and a low front and back from front to back, and a water permeable hole is formed in the bottom of the installation box.

The double-sided cooling device comprises an upper cold air distributor which blows downwards and a lower cold air distributor which blows upwards, and the upper cold air distributor is positioned above the lower cold air distributor;

the upper cold air distribution device comprises an upper main air pipe, an upper air distribution pipe and a plurality of upper air blowing pipes, wherein the upper air distribution pipe is horizontally arranged along the front-back direction, the plurality of upper air blowing pipes are uniformly and alternately arranged along the front-back direction, each upper air blowing pipe is horizontally arranged along the left-right direction, the upper air distribution pipe is positioned at the tops of the plurality of upper air blowing pipes, the front-back two ports of the upper air distribution pipe are closed, the left-right two ports of the upper air blowing pipe are closed, the bottom of the upper air distribution pipe is fixedly connected with the top of each upper air blowing pipe respectively and is internally communicated, the upper main air pipe is vertically arranged, the lower port of the upper main air pipe is communicated with the middle position of the top of the upper air distribution pipe, and a plurality of upper air spraying holes are uniformly formed in the bottom of the upper air blowing pipe along the length direction;

the lower cold air distribution device comprises a lower main air pipe, a lower air distribution pipe and a plurality of lower air blowing pipes, wherein the lower air distribution pipes are horizontally arranged along the front and rear directions, the lower air blowing pipes are uniformly arranged at intervals along the front and rear directions, each lower air blowing pipe is horizontally arranged along the left and right directions, the lower air distribution pipe is positioned at the bottoms of the lower air blowing pipes, the front and rear ends of the lower air distribution pipes are closed, the left and right ends of the lower air blowing pipes are closed, the top of the lower air distribution pipe is respectively fixedly connected with the bottom of each lower air blowing pipe and is internally communicated with the bottom of the lower air distribution pipe, the lower main air pipe is vertically arranged, the upper ports of the lower main air pipes are communicated with the middle positions of the top of the lower air distribution pipe, and a plurality of lower air spraying holes are uniformly formed in the top of the lower air blowing pipe along the length direction.

The upper blowing pipes of the upper cold air distribution device and the lower blowing pipes of the lower cold air distribution device are sequentially arranged in a staggered mode at intervals along the front-back direction.

The outer circles of the first godet, the second godet and the third godet are thick in the middle and taper towards two ends along the axial direction, and two ends of the first godet, the second godet and the third godet are respectively provided with a yarn blocking ring plate; the outer circle of the godet is in a shape that the middle is thin and gradually thickens towards the two ends along the axial direction.

According to the technical scheme, when the yarn bundle bending machine is used in working, the yarn bundle passes through the cold air device (a double-sided cooling device can be adopted to replace the yarn bundle) to enable the lines to be stabilized, then enters the constant-temperature water bath tank through the first yarn guide roller, passes through the third yarn guide roller, after constant-temperature water bath, the yarn bundle passes through the second yarn guide roller to backwards fall into the water tank, the sponge contacts with the bottom of the yarn bundle, water on the yarn bundle is adsorbed, the water on the yarn bundle is not formed into water drops after the water absorption of the two water absorbers, then the top and the bottom of the yarn bundle are respectively subjected to cold air blowing cooling shaping (fiber line shaping) through the upper cold air distributor and the lower cold air distributor, and finally, the yarn bundle shaped product is output through the yarn outlet roller.

The water tank can prevent water carried on the tows after water bath from dripping to the ground of a workshop.

In order to improve cooling efficiency, two water absorbers of setting adsorb the water that carries on the silk bundle, adsorb the moisture in the sponge and drip in the water tank through the hole that permeates water of mounting box bottom. The sponge has high middle and low front and rear sides, and can reduce friction force with tows.

The double-sided cooling device adopts an upper cold air distribution device and a lower cold air distribution device, the top surface and the bottom surface of the filament bundle are respectively subjected to air blowing and shaping, the upper cold air distribution device and the lower cold air distribution device have the same structure, the main air pipe supplies air in a plurality of air blowing pipes through air distribution pipe items, and high-pressure cold air flows uniformly jet air to cool and shape the top surface and the bottom surface of the filament bundle through air jetting holes on the air blowing pipes.

The upper blowing pipe of the cold air distribution device and the lower blowing pipe of the lower cold air distribution device are sequentially arranged at intervals in a staggered mode along the front-back direction, downward air injection and upward air injection can be prevented from being counteracted by vertically corresponding, and cooling shaping efficiency is improved.

When the tow passes through the first godet, the second godet and the third godet, the middle of which is thick and gradually tapers towards the two ends along the axial direction, the tow can be dispersed towards the two ends of the godet, and the efficiency and the effect of water bath, water absorption and cooling shaping can be improved. Finally, when the tow passes through the filament outlet rollers with the middle thin and the two ends gradually thickened along the axial direction, the tow gathers towards the middle, so that the formed tow products can be conveniently stored.

In conclusion, the water-bath type cooling and shaping device is scientific in principle and simple in structure, water carried by tows after water bath is adsorbed and collected, water is prevented from dropping to the floor of a workshop, and the upper surface and the lower surface of the cooling and shaping device are simultaneously blown, so that the cooling and shaping efficiency is greatly improved, and the quality of products after the tows are cooled and shaped is also greatly improved.

Drawings

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

FIG. 2 is an enlarged view of the absorber of FIG. 1;

FIG. 3 is a side view of the first godet, second godet, and third godet of FIG. 1;

fig. 4 is a side view of the godet of fig. 1.

Detailed Description

As shown in fig. 1-4, the water bath cooling and shaping device for the hair fiber tows comprises a first godet 1, a constant-temperature water bath 2, a second godet 3, a water absorption and storage device, a double-sided cooling device and a godet 4 which are sequentially arranged from front to back, wherein a third godet 5 is arranged in the constant-temperature water bath 2; the water absorbing and storing device comprises a water tank 6 with an open top, the front side of the water tank 6 is in butt joint with the rear side of the constant-temperature water bath 2, and two water absorbers 8 for absorbing water carried on tows 7 after water bath are arranged at intervals around the top of the water tank 6.

The water absorber 8 comprises a support 9 arranged at the top of the water tank 6, an installation box 10 with an open top is arranged at the top of the support 9, a sponge 11 is arranged in the installation box 10, the top of the sponge 11 is higher than the upper side edge of the installation box 10, the top of the sponge 11 is in a cambered surface shape with a high middle and a low front and rear from front to rear, and a water permeable hole 12 is formed in the bottom of the installation box 10.

the upper cold air distribution device comprises an upper main air pipe 13, an upper air distribution pipe 14 and a plurality of upper air blowing pipes 15, wherein the upper air distribution pipe 14 is horizontally arranged along the front and rear directions, the plurality of upper air blowing pipes 15 are uniformly arranged at intervals along the front and rear directions, each upper air blowing pipe 15 is horizontally arranged along the left and right directions, the upper air distribution pipe 14 is positioned at the tops of the plurality of upper air blowing pipes 15, the front and rear ports of the upper air distribution pipe 14 are closed, the left and right ports of the upper air blowing pipes 15 are closed, the bottom of the upper air distribution pipe 14 is respectively fixedly connected with the tops of the upper air blowing pipes 15 and is internally communicated, the upper main air pipe 13 is vertically arranged, the lower ports of the upper main air distribution pipe 13 are communicated with the middle positions of the tops of the upper air distribution pipes 14, and a plurality of upper air spraying holes are uniformly formed in the bottom of the upper air blowing pipes 15 along the length direction.

The lower cold air distribution device comprises a lower main air pipe 16, a lower air distribution pipe 17 and a plurality of lower air blowing pipes 18, wherein the lower air distribution pipes 17 are horizontally arranged along the front and rear directions, the plurality of lower air blowing pipes 18 are uniformly arranged at intervals along the front and rear directions, each lower air blowing pipe 18 is horizontally arranged along the left and right directions, the lower air distribution pipe 17 is positioned at the bottom of the plurality of lower air blowing pipes 18, the front and rear ports of the lower air distribution pipes 17 are closed, the left and right ports of the lower air blowing pipes 18 are closed, the top of the lower air distribution pipe 17 is respectively fixedly connected with the bottom of each lower air blowing pipe 18 and is internally communicated, the lower main air pipe 16 is vertically arranged, the upper ports of the lower main air distribution pipes 16 are communicated with the middle position of the top of the lower air distribution pipes 17, and a plurality of lower air spraying holes are uniformly formed in the top of the lower air blowing pipes 18 along the length direction.

The upper blowpipes 15 of the upper cold air distribution device and the lower blowpipes 18 of the lower cold air distribution device are orderly arranged at intervals in a staggered manner along the front-back direction.

The outer circles of the first godet 1, the second godet 3 and the third godet 5 are thick in the middle and taper towards two ends along the axial direction, and two ends of the first godet 1, the second godet 3 and the third godet 5 are provided with wire blocking ring plates 19 (used for blocking); the outer circumference of the godet 4 is thin in the middle and gradually thickened toward both ends in the axial direction.

When the device is used in working, the tows 7 of the bending press are stabilized by a cold air device (which can be replaced by a double-sided cooling device), then enter the constant-temperature water bath tank 2 through the first yarn guide roller 1, pass through the third yarn guide roller 5, after constant-temperature water bath, the tows 7 pass through the second yarn guide roller 3 and fall into the water tank 6 backwards, the sponge 11 contacts with the bottom of the tows 7, water on the tows 7 is adsorbed, the tows 7 do not form water drops after water absorption of the two water absorbers 8, then the top and the bottom of the tows 7 are subjected to cold air blowing cooling shaping (fiber grain shaping) through the upper cold air distributor and the lower cold air distributor respectively, and finally the molded products of the tows 7 are output through the yarn outlet roller 4.

The water tank 6 is arranged to prevent water carried on the tows 7 after passing through the water bath from dripping to the floor of a workshop.

In order to improve the cooling efficiency, the two water absorbers 8 are arranged to absorb water carried on the tows 7, and the water absorbed into the sponge 11 drips into the water tank 6 through the water permeable holes 12 at the bottom of the mounting box 10. The sponge 11 has high middle and low front and rear sides, and can reduce friction with the tows 7.

The double-sided cooling device adopts an upper cold air distributor and a lower cold air distributor, which are used for respectively carrying out blowing shaping on the top surface and the bottom surface of the filament bundle 7, the upper cold air distributor and the lower cold air distributor have the same structure, the main air pipe supplies air in a plurality of air blowing pipes through the air distribution pipe items, and the high-pressure cold air flow evenly jets air to cool and shape the top surface and the bottom surface of the filament bundle 7 through air jetting holes on the air blowing pipes.

The upper blowpipes 15 of the cold air distribution device and the lower blowpipes 18 of the lower cold air distribution device are sequentially arranged at intervals in a staggered mode along the front-rear direction, so that downward air injection and upward air injection can be prevented from being counteracted by vertically corresponding, and the cooling shaping efficiency is improved.

When the tow 7 passes through the first godet 1, the second godet 3 and the third godet 5, which are thick in the middle and taper towards the two ends along the axial direction, the tow 7 can disperse towards the two ends of the godet, and the efficiency and the effect of water bath, water absorption and cooling shaping can be improved. Finally, when the filament bundles 7 pass through the filament outlet roller 4 with the middle thin and gradually thickened towards the two ends along the axial direction, the filament bundles 7 gather towards the middle, so that the formed filament bundle 7 products can be conveniently stored.

The utility model and its embodiments have been described above with no limitation, and the actual construction is not limited to the embodiments of the utility model as shown in the drawings. In summary, if one of ordinary skill in the art is informed by this disclosure, a structural manner and an embodiment similar to the technical solution should not be creatively devised without departing from the gist of the present utility model.

Claims

1. The utility model provides a fiber silk bundle water bath cooling setting device for hair which characterized in that: the device comprises a first godet, a constant-temperature water bath, a second godet, a water absorbing and storing device, a double-sided cooling device and a godet, which are sequentially arranged from front to back, wherein a third godet is arranged in the constant-temperature water bath; the water absorbing and storing device comprises a water tank with an open top, the front side of the water tank is in butt joint with the rear side of the constant-temperature water bath, and two water absorbers for absorbing water carried on tows after water bath are arranged at intervals in front of and behind the top of the water tank.

2. The hair fiber strand water bath cooling and shaping device according to claim 1, wherein: the water absorber comprises a support arranged at the top of the water tank, an installation box with an open top is arranged at the top of the support, a sponge is arranged in the installation box, the top of the sponge is higher than the upper side edge of the installation box, the top of the sponge is in a cambered surface shape with a high middle and a low front and back from front to back, and a water permeable hole is formed in the bottom of the installation box.

3. The hair fiber strand water bath cooling and shaping device according to claim 1 or 2, wherein: the double-sided cooling device comprises an upper cold air distributor which blows downwards and a lower cold air distributor which blows upwards, and the upper cold air distributor is positioned above the lower cold air distributor;

4. A hair fiber bundle water bath cooling and shaping device according to claim 3, wherein: the upper blowing pipes of the upper cold air distribution device and the lower blowing pipes of the lower cold air distribution device are sequentially arranged in a staggered mode at intervals along the front-back direction.

5. The hair fiber strand water bath cooling and styling device according to any one of claims 1 to 4, wherein: the outer circles of the first godet, the second godet and the third godet are thick in the middle and taper towards two ends along the axial direction, and two ends of the first godet, the second godet and the third godet are respectively provided with a yarn blocking ring plate; the outer circle of the godet is in a shape that the middle is thin and gradually thickens towards the two ends along the axial direction.