CN214276428U - Uniform drying device for hair fibers - Google Patents

Abstract

Even drying device of fibre is used to hair, which comprises supporting legs, be equipped with the thermal-insulated square tube structure that keeps warm on the landing leg, the inside installation square tube that is equipped with of thermal-insulated square tube structure that keeps warm, the length of the thermal-insulated square tube structure that keeps warm and the installation square tube equals and all controls penetrating, form square ring cavity between thermal-insulated square tube structure inner wall and the installation square tube outer wall, the inside two rows of guide wire roller set that is equipped with of installation square tube, every row of guide wire roller set all includes the uniform height and along controlling the even interval arrangement of direction a plurality of guide wire roller, the both ends of every guide wire roller all set up on the front side inner wall and the rear side inner wall of installation square tube through fixed support piece. The utility model discloses the principle science, simple structure, hot-blast degree of consistency is high, blows the fibre silk bundle from four directions, can not produce the damage to the fibre silk bundle, has good stoving effect and higher drying efficiency moreover.

Description

Uniform drying device for hair fibers

Technical Field

The utility model belongs to the technical field of send out with fibre production, concretely relates to send out with even drying device of fibre.

Background

In the production process of the hair fiber, the wet fiber needs to be subjected to a heat treatment process so as to dry the fiber and ensure certain color, luster, adhesion degree, quality and the like, thereby directly influencing the subsequent application of the fiber. In the prior art, the filament bundle is subjected to post-treatment bundling, extension, heat setting, soaking and oiling and then is extruded by a compression roller to remove water and then enters a drying device, and in order to remove moisture brought by the fiber in the oiling process and enable the fiber to reach the moisture requirement required by a finished product, the effect of drying by using dry hot air is better. However, in the existing drying process, hot air is directly sprayed to the tows in conveying by a hot air high-pressure nozzle on a production line, so that the operation mode is simple and convenient, if the air temperature is too high, fibers are easily damaged, and in addition, because the tows are not unfolded, the fiber yarns in the tows basically have no drying effect, so that the drying effect is uneven, and the production of the wig at the back is influenced.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a solve the weak point among the prior art, provide an even drying device of fibre is used to effectual sending out of drying.

In order to solve the technical problem, the utility model adopts the following technical scheme: even drying device of fibre for sending out, which comprises supporting legs, be equipped with heat preservation and insulation square tube structure on the landing leg, heat preservation and insulation square tube structure inside is equipped with the installation square tube, heat preservation and insulation square tube structure and installation square tube's length equal and all control penetrating, form square toroidal cavity between heat preservation and insulation square tube structure inner wall and the installation square tube outer wall, both ends all are equipped with square annular closure plate about square toroidal cavity, be equipped with four connecting partition plate along controlling the direction in the square toroidal cavity, the outside long limit of connecting partition plate is connected with the edge of heat preservation and insulation square tube structure inner wall, the inboard long limit of connecting partition plate is connected with the edge of installation square tube outer wall, the left side and the right side of connecting partition plate are connected with left square toroidal closure plate and right side square toroidal closure plate respectively, four connecting partition plate divide square toroidal cavity into preceding wind distribution chamber, back wind distribution chamber, go up wind distribution chamber and lower wind distribution chamber, the front side of heat preservation and insulation square tube structure, The rear side, upside and downside are equipped with preceding cloth tuber pipe respectively, back cloth tuber pipe, go up cloth tuber pipe and cloth tuber pipe down, preceding cloth tuber pipe rear end and preceding cloth wind cavity intercommunication, back cloth tuber pipe front end and back cloth wind cavity intercommunication, go up cloth tuber pipe lower extreme and last cloth wind cavity intercommunication, cloth tuber pipe upper end and cloth wind cavity intercommunication down, the front side of an installation side section of thick bamboo, the rear side, a plurality of bleeder vent has all been seted up to upside and downside, the inside two rows of seal wire roller sets that are equipped with of an installation side section of thick bamboo, every row of seal wire roller set all includes the equal height and along a plurality of seal wire roller of controlling the even interval arrangement of direction, the both ends of every seal wire roller all set up on the front side inner wall and the rear side inner wall of an installation side section of thick bamboo through fixed support piece.

The front air distribution pipes are arranged in a plurality of intervals along the left and right directions, the front ports of all the front air distribution pipes are simultaneously connected with a front air supply pipe, the rear ports of all the front air distribution pipes extend into the front air distribution cavities and are fixedly connected with the outer wall of the front side of the installation square tube, and the front air distribution pipes are provided with front air inlet holes communicated with the front air distribution cavities.

The rear air distribution pipes are arranged in a plurality of intervals along the left-right direction, rear ports of all the rear air distribution pipes are connected with a rear air supply pipe simultaneously, a front port of each rear air distribution pipe extends into the rear air distribution cavity and is fixedly connected with the outer wall of the rear side of the installation square tube, and a rear air distribution hole communicated with the rear air distribution cavity is formed in each rear air distribution pipe.

Go up the cloth tuber pipe and follow left and right direction interval arrangement a plurality ofly, all last cloth tuber pipe upper end mouth is connected with one simultaneously and supplies the tuber pipe, every go up the cloth tuber pipe down the port all stretch into go up the cloth tuber pipe in and with installation square barrel upside outer wall fixed connection, go up be equipped with on the cloth tuber pipe with last cloth tuber pipe upper air vent that the chamber communicates.

The lower air distribution pipes are arranged in a plurality at intervals along the left and right directions, the lower ports of all the lower air distribution pipes are simultaneously connected with a lower air supply pipe, the upper port of each lower air distribution pipe extends into the lower air distribution cavity and is fixedly connected with the outer wall of the lower side of the installation square barrel, and the lower air distribution pipes are provided with lower air inlet holes communicated with the lower air distribution cavities.

Fixed support piece includes oblique fagging and trough plate, and the trough plate top is uncovered, and the oblique fagging is triangle-shaped, and fagging top right angle limit and trough plate bottom surface fixed connection to one side, the equal fixed connection of vertical right angle limit of fagging and the tip of trough plate are on the installation side section of thick bamboo inner wall, and the center pin tip of godet is placed in the trough plate, and the center pin of trough plate and godet is pegged graft through the location bolt along the fore-and-aft direction.

The bottom of the heat-preservation and heat-insulation square-tube structure is provided with a water flowing pipe communicated with the lower air distribution cavity, and the water flowing pipe is provided with a valve.

The heat-preservation and heat-insulation square tube structure consists of an inner stainless steel plate layer, an outer stainless steel plate layer and a middle heat-preservation and heat-insulation layer.

By adopting the technical scheme, the fiber tows for hair to be dried enter from the left port of the mounting square barrel and are guided by the guide roller group to be conveyed rightwards; meanwhile, high-temperature hot air on the front side enters the front air distribution pipe through the front air supply pipe, enters the front air distribution cavity through the front air inlet and finally enters the mounting square cylinder through the front air hole; the high-temperature hot air on the rear side enters a rear air distribution pipe through a rear air supply pipe, enters a rear air distribution cavity through a rear air inlet and finally enters the mounting square cylinder through a rear air inlet; the high-temperature hot air on the upper side enters the upper air distribution pipe through the upper air supply pipe, then enters the upper air distribution cavity through the upper air inlet and finally enters the mounting square cylinder through the upper air inlet; high-temperature hot air on the lower side enters the lower air distribution pipe through the lower air supply pipe, enters the lower air distribution cavity through the lower air inlet hole and finally enters the mounting square cylinder through the lower air vent; therefore, the fiber tows are blown in four directions in the installation square barrel simultaneously, and water carried on the fiber tows is discharged from the left end port and the right end port of the installation square barrel. In the moving process of the fiber tows on the godet roller, the adopted godet roller is not a godet wheel, and the tows are gradually spread on the godet roller, so that the excellent drying effect is achieved.

If improve drying efficiency, can set up 2 rows of seal wire roller sets, carry two sets of fibre tows simultaneously.

Fixed support piece is fixed to be set up at the preceding lateral wall and the back lateral wall of fixed square cylinder, when placing the godet roller to two fixed support piece that correspond around, can place the center pin both ends of godet roller by the upside of channel plate downwards, then insert the location bolt can, the godet roller is simple to operate not only, dismantles the convenience moreover.

In the drying process, water carried on the fiber tows falls to the bottom of the mounting square barrel, flows into the lower cloth air cavity through the lower air holes and flows out of the water flowing pipe. In order to avoid the hot air from leaking from the water flowing pipe, the opening degree of the valve can be adjusted.

The heat-preservation and heat-insulation square tube structure is composed of three layers of structures, namely an inner stainless steel plate, an outer stainless steel plate and a middle heat-preservation and heat-insulation layer, and the temperature of hot air is prevented from being reduced too fast in the drying process.

The connecting partition plate, the upper air distribution pipe, the lower air distribution pipe, the front air distribution pipe and the rear air distribution pipe all play a role in supporting and connecting the mounting square cylinder.

To sum up, the utility model discloses the principle science, simple structure, the hot-blast degree of consistency is high, blows the fibre silk bundle from four directions, can not produce the damage to the fibre silk bundle, has good stoving effect and higher drying efficiency moreover.

Drawings

Fig. 1 is a schematic view of the external structure of the present invention;

FIG. 2 is a cross-sectional view A-A of FIG. 1;

fig. 3 is a vertical sectional view of the fixed support of fig. 2.

Detailed Description

As shown in figures 1-3, the utility model discloses an even drying device of fibre is used to hair, including landing leg 1, be equipped with the thermal-insulated square tube structure 30 that keeps warm on landing leg 1, the thermal-insulated square tube structure 30 inside installation square tube 2 that is equipped with that keeps warm, the thermal-insulated square tube structure 30 that keeps warm is equal and all controls penetrating with the length of installation square tube 2, it forms square annular cavity to keep warm between the thermal-insulated square tube structure 30 inner wall and the installation square tube 2 outer wall, both ends all are equipped with square annular closure plate about the square annular cavity, be equipped with four connecting barrier 3 along the left and right directions in the square annular cavity, the outside long limit of connecting barrier 3 is connected with the edge of thermal-insulated square tube structure 30 inner wall that keeps warm, the inboard long limit of connecting barrier 3 is connected with the edge of installation square tube 2 outer wall, the left side limit and the right side limit of connecting barrier 3 are connected with left square annular closure plate and the square annular closure plate on right side respectively, four connecting barrier 3 are with cloth wind chamber 4 before the square annular cavity is separated, Back cloth wind chamber 5, go up cloth wind chamber 6 and cloth wind chamber 7 down, the front side of heat preservation and thermal insulation square tube structure 30, the rear side, upside and downside are equipped with preceding cloth tuber pipe 8 respectively, back cloth tuber pipe 9, go up cloth tuber pipe 10 and cloth tuber pipe 11 down, preceding cloth tuber pipe 8 rear end and preceding cloth wind chamber 4 intercommunication, back cloth tuber pipe 9 front end and back cloth wind chamber 5 intercommunication, go up cloth tuber pipe 10 lower extreme and last cloth wind chamber 6 intercommunication, cloth tuber pipe 11 upper end and cloth wind chamber 7 intercommunication down, the front side of installation square tube 2, the rear side, a plurality of bleeder vent 12 have all been seted up to upside and downside, the inside two rows of seal wire roller set that is equipped with of installation square tube 2, every row of seal wire roller set all includes the equal height and along a plurality of seal wire roller 13 of the even interval arrangement of left and right sides direction, every seal wire roller 13's both ends all set up on installation square tube 2's the front side inner wall and rear side inner wall through fixed support piece.

Preceding cloth tuber 8 is a plurality of along left and right directions interval arrangement, and all preceding cloth tuber 8 front end mouth is connected with a preceding air feed pipe 14 simultaneously, and every preceding 8 rear end mouths of cloth tuber all stretch into in the preceding cloth tuber chamber 4 and with installation square barrel 2 front side outer wall fixed connection, are equipped with the preceding gas pocket 15 that communicates with preceding cloth tuber chamber 4 on the preceding cloth tuber 8.

The rear air distribution pipes 9 are arranged at intervals in the left-right direction, rear ports of all the rear air distribution pipes 9 are connected with a rear air supply pipe 16, a front port of each rear air distribution pipe 9 extends into the rear air distribution cavity 5 and is fixedly connected with the rear outer wall of the installation square tube 2, and a rear air inlet hole 17 communicated with the rear air distribution cavity 5 is formed in each rear air distribution pipe 9.

Go up the cloth tuber 10 along left right direction interval arrangement a plurality ofly, all last cloth tuber 10 upper end mouth is connected with one simultaneously and supplies tuber pipe 18, every go up the cloth tuber 10 down the port all stretch into in the cloth tuber chamber 6 and with installation square barrel 2 upside outer wall fixed connection, go up and be equipped with the last gas pocket 19 that communicates with last cloth tuber chamber 6 on the cloth tuber pipe 10.

The lower air distribution pipes 11 are arranged at intervals along the left-right direction, the lower ports of all the lower air distribution pipes 11 are simultaneously connected with a lower air supply pipe 20, the upper port of each lower air distribution pipe 11 extends into the lower air distribution cavity 7 and is fixedly connected with the outer wall of the lower side of the installation square barrel 2, and the lower air distribution pipes 11 are provided with lower air inlet holes 21 communicated with the lower air distribution cavities 7.

Fixed support member includes inclined support plate 22 and trough plate 23, the trough plate 23 top is uncovered, inclined support plate 22 is triangle-shaped, inclined support plate 22 top right-angle side and the equal fixed connection of tip of trough plate 23 on the 2 inner walls of installation square cylinder 23 bottom surface fixed connection, inclined support plate 22's vertical right-angle side and trough plate 23, the 31 tip of center pin of godet roller 13 is placed in trough plate 23, the center pin 31 of trough plate 23 and godet roller 13 is followed the fore-and-aft direction and is pegged graft through location bolt 24.

The bottom of the heat-preservation and heat-insulation square-tube structure 30 is provided with a water flowing pipe 25 communicated with the lower air distribution cavity 7, and the water flowing pipe 25 is provided with a valve 26.

The heat-preservation and heat-insulation square tube structure 30 is composed of an inner layer stainless steel plate 27, an outer layer stainless steel plate 28 and a middle heat-preservation and heat-insulation layer 29.

Fiber tows for hair to be dried enter from the left port of the mounting square barrel 2 and are guided by the godet roller 13 group to be conveyed rightwards; meanwhile, high-temperature hot air on the front side enters the front air distribution pipe 8 through the front air supply pipe 14, enters the front air distribution cavity 4 through the front air inlet 15, and finally enters the installation square barrel 2 through the front air hole 12; the high-temperature hot air at the rear side enters the rear air distribution pipe 9 through the rear air supply pipe 16, enters the rear air distribution cavity 5 through the rear air inlet 17 and finally enters the mounting square tube 2 through the rear air inlet 12; the high-temperature hot air on the upper side enters the upper air distribution pipe 10 through the upper air supply pipe 18, then enters the upper air distribution cavity 6 through the upper air inlet 19, and finally enters the mounting square barrel 2 through the upper air inlet 12; high-temperature hot air on the lower side enters the lower air distribution pipe 11 through the lower air supply pipe 20, enters the lower air distribution cavity 7 through the lower air inlet hole 21, and finally enters the mounting square barrel 2 through the lower air holes 12; from here, the fiber tows are blown simultaneously in four directions in the installation square tube 2, and the moisture carried on the fiber tows is discharged from the left and right ends of the installation square tube 2. In the process of moving the fiber tows on the godet roller 13, as the godet roller 13 is not a godet wheel, the tows are gradually spread on the godet roller 13, and the excellent drying effect is achieved.

If improve drying efficiency, can set up 2 rows of guide roller 13 groups, carry two sets of fibre tows simultaneously.

Fixed support piece is fixed to be set up at the preceding lateral wall and the back lateral wall of fixed square cylinder, and when placing godet 13 to two fixed support piece that correspond around, can place the 31 both ends of center pin of godet 13 downwards by the upside of channel plate 23, then insert location bolt 24 can, godet 13 is simple to operate not only, dismantles the convenience moreover.

In the drying process, water carried on the fiber tows drops to the bottom of the mounting square barrel 2, flows into the lower cloth air cavity 7 through the lower air holes 12 and then flows out from the water flowing pipe 25. In order to avoid a large leakage of hot air from the water flow pipe 25, the opening degree of the valve 26 may be adjusted.

The heat-preservation and heat-insulation square-tube structure 30 is composed of an inner-layer stainless steel plate 27, an outer-layer stainless steel plate 28 and a middle heat-preservation and heat-insulation layer 29, and the temperature of hot air is prevented from being reduced too fast in the drying process.

The present embodiment is not intended to limit the shape, material, structure, etc. of the present invention in any form, and all of the technical matters of the present invention belong to the protection scope of the present invention to any simple modification, equivalent change and modification made by the above embodiments.

Claims (8)

1. Even drying device of fibre for sending out, its characterized in that: the square tube type heat-insulation and heat-preservation combined leg comprises supporting legs, a heat-preservation and heat-insulation square tube structure is arranged on the supporting legs, an installation square tube is arranged inside the heat-preservation and heat-insulation square tube structure, the heat-preservation and heat-insulation square tube structure and the installation square tube are equal in length and are permeable to the left and the right, a square annular cavity is formed between the inner wall of the heat-preservation and heat-insulation square tube structure and the outer wall of the installation square tube, square annular blocking plates are arranged at the left end and the right end of the square annular cavity, four connecting partition plates are arranged in the square annular cavity in the left-right direction, the long outer side edge of each connecting partition plate is connected with the edge of the inner wall of the heat-preservation and heat-insulation square tube structure, the long inner side edge of each connecting partition plate is connected with the square annular blocking plates on the left side and the right side respectively, the square annular cavity is divided into a front air distribution cavity, a rear air distribution cavity, an upper air distribution cavity and a lower air distribution cavity by the four connecting partition plates, the front side of the heat-preservation and the heat-insulation square tube structure, The rear side, upside and downside are equipped with preceding cloth tuber pipe respectively, back cloth tuber pipe, go up cloth tuber pipe and cloth tuber pipe down, preceding cloth tuber pipe rear end and preceding cloth wind cavity intercommunication, back cloth tuber pipe front end and back cloth wind cavity intercommunication, go up cloth tuber pipe lower extreme and last cloth wind cavity intercommunication, cloth tuber pipe upper end and cloth wind cavity intercommunication down, the front side of an installation side section of thick bamboo, the rear side, a plurality of bleeder vent has all been seted up to upside and downside, the inside two rows of seal wire roller sets that are equipped with of an installation side section of thick bamboo, every row of seal wire roller set all includes the equal height and along a plurality of seal wire roller of controlling the even interval arrangement of direction, the both ends of every seal wire roller all set up on the front side inner wall and the rear side inner wall of an installation side section of thick bamboo through fixed support piece.

2. The uniform drying device for the hair fibers according to claim 1, characterized in that: the front air distribution pipes are arranged in a plurality of intervals along the left and right directions, the front ports of all the front air distribution pipes are simultaneously connected with a front air supply pipe, the rear ports of all the front air distribution pipes extend into the front air distribution cavities and are fixedly connected with the outer wall of the front side of the installation square tube, and the front air distribution pipes are provided with front air inlet holes communicated with the front air distribution cavities.

3. The uniform drying device for the hair fibers according to claim 1, characterized in that: the rear air distribution pipes are arranged in a plurality of intervals along the left-right direction, rear ports of all the rear air distribution pipes are connected with a rear air supply pipe simultaneously, a front port of each rear air distribution pipe extends into the rear air distribution cavity and is fixedly connected with the outer wall of the rear side of the installation square tube, and a rear air distribution hole communicated with the rear air distribution cavity is formed in each rear air distribution pipe.

4. The uniform drying device for the hair fibers according to claim 1, characterized in that: go up the cloth tuber pipe and follow left and right direction interval arrangement a plurality ofly, all last cloth tuber pipe upper end mouth is connected with one simultaneously and supplies the tuber pipe, every go up the cloth tuber pipe down the port all stretch into go up the cloth tuber pipe in and with installation square barrel upside outer wall fixed connection, go up be equipped with on the cloth tuber pipe with last cloth tuber pipe upper air vent that the chamber communicates.

5. The uniform drying device for the hair fibers according to claim 1, characterized in that: the lower air distribution pipes are arranged in a plurality at intervals along the left and right directions, the lower ports of all the lower air distribution pipes are simultaneously connected with a lower air supply pipe, the upper port of each lower air distribution pipe extends into the lower air distribution cavity and is fixedly connected with the outer wall of the lower side of the installation square barrel, and the lower air distribution pipes are provided with lower air inlet holes communicated with the lower air distribution cavities.

6. The uniform drying device for the hair fibers according to claim 1, characterized in that: fixed support piece includes oblique fagging and trough plate, and the trough plate top is uncovered, and the oblique fagging is right angled triangle, and oblique fagging top right angle limit and trough plate bottom surface fixed connection, the equal fixed connection of vertical right angle limit of oblique fagging and the tip of trough plate are on the installation side section of thick bamboo inner wall, and the center pin tip of godet roller is placed in the trough plate, and the center pin of trough plate and godet roller is pegged graft through the location bolt along the fore-and-aft direction.

7. The uniform drying device for the hair fibers according to claim 1, characterized in that: the bottom of the heat-preservation and heat-insulation square-tube structure is provided with a water flowing pipe communicated with the lower air distribution cavity, and the water flowing pipe is provided with a valve.

8. The uniform drying device for the hair fibers according to claim 1, characterized in that: the heat-preservation and heat-insulation square tube structure consists of an inner stainless steel plate layer, an outer stainless steel plate layer and a middle heat-preservation and heat-insulation layer.

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