CN205775273U - A kind of dye jigger - Google Patents

Abstract

The utility model discloses a kind of dye jigger, including dye pond, it is positioned at described dye pond and bottom for guiding a pair fabric guide roll of cloth motion simulation, be provided with between described fabric guide roll and be rotationally connected with the rotary shaft of described dye pond sidewall in described dye pond, when being provided with rotation on the motor driving described rotary shaft to rotate, described rotary shaft peak higher or lower than described fabric guide roll lower horizontal face and the top cloth member that is connected to cloth end face.This utility model has the following advantages and effect: this programme utilizes new frame for movement, use and rotate the cloth member rotation of rotary shaft drive top, top cloth member peak abuts higher than fabric guide roll lower horizontal face and compresses cloth, expand cloth gap and absorb more dyestuffs, top cloth member peak leaves cloth less than fabric guide roll lower horizontal face, unclamping cloth makes cloth internal clearance reduce the dyestuff in top clearance, can adsorb more dyestuff, improve the effect of cloth staining efficiency when having reached cloth by dye pond.

Description

A kind of dye jigger

Technical field

This utility model relates to cloth dyeing apparatus field, particularly to a kind of dye jigger.

Background technology

Dye jigger is a kind of step dyeing machinery, including two cloth rolling sticks alternately wound back and forth, dye pond etc..

The Chinese patent " dye jigger " of Publication No. CN204080422U discloses a kind of dye jigger, , including unwinding device, dye pond, wrap-up, add heat pipe, attemperating unit and timing means, it is provided with bottom dye pond and adds heat pipe, add heat pipe to be connected with attemperating unit, dye is provided with deflector roll in pond, deflector roll two ends are connected with unwinding device and wrap-up respectively, in dye pond, bottom is provided with poking bar, unwinding device is connected with unreeling motor by unreeling variable-frequency governor, wrap-up is connected with winding motor by rolling variable-frequency governor, unreel and be equipped with timing means on motor and winding motor, unreel motor and winding motor is either-rotation motor, can rotating.

But this dye jigger has the disadvantage in that the cloth contaminated is contaminated in dyestuff, every time less by the dyestuff of absorption during dye pond, need just to complete the dyeing to cloth by wrap-up and repeatedly alternately winding back and forth of unwinding device, staining efficiency is relatively low.

Utility model content

The purpose of this utility model is to provide a kind of dye jigger more by absorbing dye during dye pond.

Above-mentioned technical purpose of the present utility model has the technical scheme that a kind of dye jigger, including dye pond, it is positioned at described dye pond and bottom for guiding a pair fabric guide roll of cloth motion simulation, be provided with between described fabric guide roll and be rotationally connected with the rotary shaft of described dye pond sidewall in described dye pond, when being provided with rotation on the motor driving described rotary shaft to rotate, described rotary shaft peak higher or lower than described fabric guide roll lower horizontal face and the top cloth member that is connected to cloth end face.

nullBy using technique scheme，When dye jigger is dyed cloth，Cloth at one end unreels and at one end rolling under the drive of cloth beam，Middle cloth is contaminated in dyestuff by the guiding of fabric guide roll bottom and moves in dye pond，Motor-driven rotation axle rotates in dye pond，The top cloth member in rotary shaft is driven to rotate，When top cloth member rotates, peak is higher than fabric guide roll lower horizontal face，The end face being connected to cloth compresses cloth，The tension force making cloth becomes the gap between big fabric fibre and becomes big，Dyestuff in dye pond can enter among gap more，When the peak of top cloth member is less than fabric guide roll lower horizontal face，The peak of top cloth member leaves cloth end face，Cloth unclamps and tension force diminishes，Gap between fabric fibre diminishes the dyestuff in top clearance，Constantly compress by rotating and unclamp cloth，Make the dyestuff in dye pond can enter among cloth more and above contaminate on cloth under extrusion，Make the cloth passed through can adsorb more dyestuff，Thus improve staining efficiency.

Of the present utility model it is further arranged to: described top cloth member is to be sheathed on the eccentric of described rotary shaft, described rotary shaft axis is to the minimum range between described eccentric outer wall less than the distance between described rotary shaft axis to described fabric guide roll lower horizontal face, and the ultimate range of described rotary shaft axis to described eccentric outer wall is more than described rotary shaft axis to the distance between described fabric guide roll lower horizontal face.

By using technique scheme, when rotating the rotation of roller strap movable eccentric wheel, rotary shaft axis to the ultimate range of eccentric outer wall more than rotary shaft axis to the distance between fabric guide roll lower horizontal face, make eccentric be connected to cloth bottom face and compress cloth when turning to the top away from the end face of rotary shaft, make cloth tension become big；Rotary shaft axis to the minimum range between eccentric outer wall less than the distance between rotary shaft axis to fabric guide roll lower horizontal face, cloth end face will not be abutted to when the end face of rotary shaft axis close on eccentric turns to the top, make cloth unclamp, make cloth tension diminish；Realize peak when top cloth member rotates and be higher or lower than the effect in fabric guide roll lower horizontal face.

Of the present utility model it is further arranged to: described eccentric is in interference fit with in described rotary shaft.

By using technique scheme, eccentric relative with between rotary shaft will not slide, fixes more to fasten, it is ensured that push up the properly functioning of cloth member.

Of the present utility model it is further arranged to: described rotary shaft is provided with multiple eccentric.

By using technique scheme, make the many places on cloth be pushed up cloth member and compress and unclamp, make dyestuff can enter cloth more and dye, improve the adsorbance of dyestuff in cloth further.

Of the present utility model it is further arranged to: described top cloth member is the triangular prism being arranged in described rotary shaft, described rotary shaft axis is less than the described rotary shaft axis distance to described fabric guide roll lower horizontal face to the distance of described triangular prism end face, and the distance between described rotary shaft axis to the crest line of described triangular prism is more than the distance between described rotary shaft axis to described fabric guide roll lower horizontal face.

By using technique scheme, when rotary shaft rotates, when triangular prism crest line turns to the top, rotary shaft axis to the distance between crest line more than the distance between rotary shaft axis to fabric guide roll lower horizontal face, i.e. push up the peak of cloth member higher than fabric guide roll lower horizontal face, compress cloth, make the gap in cloth become big, dyestuff；When the end face of triangular prism turns to the top, rotary shaft axis to the distance between end face less than the distance between rotary shaft axis to fabric guide roll lower horizontal face, the end face of triangular prism is less than fabric guide roll lower horizontal face, i.e. push up the peak of cloth member less than fabric guide roll lower horizontal face, triangular prism does not contact cloth end face and unclamps cloth, make cloth internal clearance diminish extruding dyestuff, make dyestuff paint in cloth.

Of the present utility model it is further arranged to: described triangular prism bottom surface is equilateral triangle, and described rotary shaft is positioned at described triangular prism bottom center.

By using technique scheme, rotary shaft is positioned at the center of triangular prism bottom surface, and triangular prism distribution of weight on the rotating shaft is uniform, reduces radial vibration when rotary shaft rotates, it is to avoid destroy the dynamic balancing of rotary shaft, extends the service life of rotary shaft.

Of the present utility model it is further arranged to: described rotary shaft is positioned at the middle in the horizontal direction of two described fabric guide rolls.

By using technique scheme, rotary shaft is positioned at middle, and when top cloth member rotates with rotary shaft, peak is higher than fabric guide roll lower horizontal face, can uniformly be compressed by the cloth between fabric guide roll, make dyeing more uniform when abutting cloth end face.

Of the present utility model it is further arranged to: described rotary shaft axis is parallel to described fabric guide roll axis.

By using technique scheme, when making the top cloth member being arranged in rotary shaft rotate and contact cloth end face, the top cloth member peak direction of motion is consistent with cloth motion simulation direction, it is to avoid cloth is occurred axial displacement by the active force axial along rotary shaft.

Of the present utility model it is further arranged to: described rotary shaft two ends are arranged with the bearing being installed in the sidewall of described dye pond.

By using technique scheme, driving bearing inner race to rotate when rotary shaft rotates, bearing outer ring is installed in the sidewall of dye pond, it is achieved rotary shaft is rotationally connected with dye pond sidewall.

Of the present utility model it is further arranged to: described motor is reverse rotating motor.

By using technique scheme, motor is the motor of bidirectional rotation, and when cloth beam replaces dye gigging back and forth, rotary shaft rotation direction coordinates with cloth motion simulation direction, makes rotary shaft and top cloth member can coordinate the alternately dye gigging back and forth of dye jigger.

In sum, this utility model has the advantages that the rotation being driven top cloth member by the rotary shaft in dye pond, realize the effect that circulation compresses and unclamps cloth, make the gap enlargement in cloth absorb dyestuff and gap reduction extruding dyestuff realizes cloth and can adsorb more dyestuff, and the rotation of rotary shaft and top cloth member also has the effect of stirring dyestuff, make dyestuff acutely roll to connect and can more fully contact cloth, promote the staining efficiency of cloth further.

Accompanying drawing explanation

Fig. 1 is the internal structure schematic diagram of embodiment 1；

Fig. 2 is the side structure schematic diagram of embodiment 1；

Fig. 3 is the internal structure schematic diagram of embodiment 2；

Fig. 4 is the side structure schematic diagram of embodiment 2.

In figure: 1, dye pond；2, fabric guide roll；3, rotary shaft；4, top cloth member；5, eccentric；6, triangular prism；7, motor；8, bearing.

Detailed description of the invention

Below in conjunction with accompanying drawing, this utility model is described in further detail.

Specific embodiment is only to explanation of the present utility model; it is not to restriction of the present utility model; the present embodiment can be made after reading this specification by those skilled in the art as required does not has the amendment of creative contribution, but as long as all being protected by Patent Law in right of the present utility model.

Embodiment 1: a kind of dye jigger, as shown in Figure 1, including one group of cloth beam, it is positioned at the dye pond 1 in the middle of cloth beam, dye is provided with a pair fabric guide roll 2 in pond 1, cloth unreels from the cloth beam of side and passes sequentially through rolling behind fabric guide roll 2 bottom to the cloth beam of opposite side, and the cloth between fabric guide roll 2 is contaminated in the dyestuff in dye pond 1.

As it is shown in figure 1, the middle being provided with in the horizontal direction being positioned at fabric guide roll 2 in dye pond 1 is provided with a rotary shaft 3, rotary shaft 3 axis is parallel to fabric guide roll 2 axis, and rotary shaft 3 two ends are arranged with bearing 8, the sidewall in dye pond 1 is provided with the bearing block for installing bearing 8.The outside in dye pond 1 is additionally provided with the motor 7 being connected to rotary shaft 3 one end, is used for driving rotary shaft 3 to rotate, and for coordinating cloth beam to replace dye gigging back and forth, motor 7 uses reverse rotating motor.

As shown in Figure 1, the top cloth member 4 rotated and rotate it is additionally provided with fabric guide roll 2 on fabric guide roll 2, it is higher or lower than fabric guide roll 2 lower horizontal face along with rotating the peak of top cloth member 4 when roller rotates, when pushing up cloth member 4 higher than fabric guide roll 2 lower horizontal face, top cloth member 4 peak is connected to cloth and compresses cloth, make cloth tension become big and internal clearance change is big, absorb more dyestuff；When the peak pushing up cloth member 4 is less than fabric guide roll 2 lower horizontal face, top cloth member 4 peak leaves cloth end face, and cloth unclamps tension force and diminishes, the dyestuff in top clearance, makes dyestuff paint in cloth.

As shown in Fig. 1 to Fig. 2, top cloth member 4 is multiple eccentrics 5 being set in rotary shaft 3, and the through-hole diameter on eccentric 5 is less than the diameter of rotary shaft 3.Rotary shaft 3 axis to the ultimate range between eccentric 5 outer wall more than the distance between rotary shaft 3 axis to fabric guide roll 2 lower horizontal face, i.e. when eccentric 5 outer wall turns to the top away from one end of rotary shaft 3 axis, eccentric 5 peak is higher than fabric guide roll 2 lower horizontal face, and eccentric 5 is connected to cloth end face and compresses cloth；Rotary shaft 3 axis to the minimum range between eccentric 5 outer wall less than the distance between rotary shaft 3 axis to fabric guide roll 2 lower horizontal face, when i.e. eccentric 5 outer wall turns to the top near one end of rotary shaft 3 axis, the peak of eccentric 5 is less than fabric guide roll 2 lower horizontal face, and eccentric 5 leaves cloth and makes cloth unclamp.

Embodiment 2: a kind of dye jigger, is with the difference of embodiment 1, as it is shown on figure 3, top cloth member 4 is triangular prism 6, triangular prism 6 bottom surface is to be provided with the through hole worn for rotary shaft 3 in the middle part of equilateral triangle and bottom surface, and through-hole diameter is less than rotary shaft 3 diameter.As shown in Figure 4, rotary shaft 3 axis is more than the distance between fabric guide roll 2 lower horizontal face to the distance between the crest line of triangular prism 6, i.e. when triangular prism 6 crest line turns to the top, triangular prism 6 peak is higher than fabric guide roll 2 lower horizontal face, and triangular prism 6 abuts cloth end face and compresses cloth；Rotary shaft 3 axis to the distance of triangular prism 6 end face less than rotary shaft 3 line to the distance between fabric guide roll 2 lower horizontal face, when i.e. triangular prism 6 end face turns to the top, triangular prism 6 peak is less than fabric guide roll 2 lower horizontal face, and triangular prism 6 does not contact cloth makes cloth unclamp.

Claims (10)

1. a dye jigger, including dye pond (1), it is positioned at described dye pond (1) and bottom for guiding a pair fabric guide roll (2) of cloth motion simulation, it is characterized in that: be provided with in described dye pond (1) and be positioned between described fabric guide roll (2) and be rotationally connected with the rotary shaft (3) of described dye pond (1) sidewall, be used for the motor (7) that drives described rotary shaft (3) to rotate, when described rotary shaft (3) is provided with rotation, peak is higher or lower than described fabric guide roll (2) lower horizontal face and the top cloth member (4) that is connected to cloth end face.

A kind of dye jigger the most according to claim 1, it is characterized in that: described top cloth member (4) is the eccentric (5) being sheathed on described rotary shaft (3), described rotary shaft (3) axis is to the minimum range between described eccentric (5) outer wall less than the distance between described rotary shaft (3) axis to described fabric guide roll (2) lower horizontal face, and the ultimate range of described rotary shaft (3) axis to described eccentric (5) outer wall is more than described rotary shaft (3) axis to the distance between described fabric guide roll (2) lower horizontal face.

A kind of dye jigger the most according to claim 2, it is characterised in that: described eccentric (5) is in interference fit with in described rotary shaft (3).

A kind of dye jigger the most according to claim 3, it is characterised in that: described rotary shaft (3) is provided with multiple eccentric (5).

A kind of dye jigger the most according to claim 1, it is characterized in that: described top cloth member (4) is the triangular prism (6) being arranged in described rotary shaft (3), described rotary shaft (3) axis is less than described rotary shaft (3) axis distance to described fabric guide roll (2) lower horizontal face to the distance of described triangular prism (6) end face, and the distance between described rotary shaft (3) axis to the crest line of described triangular prism (6) is more than the distance between described rotary shaft (3) axis to described fabric guide roll (2) lower horizontal face.

A kind of dye jigger the most according to claim 2, it is characterised in that: described triangular prism (6) bottom surface is equilateral triangle, and described rotary shaft (3) is positioned at described triangular prism (6) bottom center.

7. according to a kind of dye jigger described in claim 4 or 6, it is characterised in that: described rotary shaft (3) is positioned at the middle in two described fabric guide roll (2) horizontal directions.

A kind of dye jigger the most according to claim 7, it is characterised in that: described rotary shaft (3) axis is parallel to described fabric guide roll (2) axis.

A kind of dye jigger the most according to claim 8, it is characterised in that: described rotary shaft (3) two ends are arranged with the bearing (8) being installed in described dye pond (1) sidewall.

A kind of dye jigger the most according to claim 9, it is characterised in that: described motor (7) is reverse rotating motor.