CN208309152U - A kind of overflow dyeing machine - Google Patents

Abstract

The utility model relates to a kind of overflow dyeing machines, interior autoclave body including external kettle body, inside external kettle body, the outer wall of the interior autoclave body and the inner wall gap setting of external kettle body, an inner cavity is formed between interior autoclave body and external kettle body, this is interior intracavitary equipped with feeding device, and the bottom of interior autoclave body is connected to inner cavity, and the top inner wall of interior autoclave body is equipped with intensive through-hole, and the top inner wall of interior autoclave body is fixedly connected with bulk material device, each through-hole is connected to the bulk material device；Bulk material device includes two bulk cargo die bodys being fixedly connected respectively with interior autoclave body top inner wall, the setting of each bulk cargo die body interval, the joint face of each bulk cargo die body and interior autoclave body recess is formed with a cavity, the section of cavity is " isosceles trapezoid ", the bottom interior wall of the cavity is arranged at intervals with multiple feed openings, the bottom direction of the inside autoclave body of each feed opening extends and is formed with bulk cargo channel in bulk cargo die body, and the discharge outlet in each bulk cargo channel is equipped with bulk cargo component；The utility model has the beneficial effects that dyeing effect is good.

Description

A kind of overflow dyeing machine

Technical field

The utility model relates to dyeing installation technical field, in particular to a kind of overflow dyeing machine.

Background technique

Cloth is essential part in current people's life, either in daily life or industrial and agriculture In use, the role that cloth performers are important, and the cloth of various colors is even more that common cloth is made to increase new life, Industry of dying cloth is come into being, and overflow dyeing machine also flourishes therewith.

Overflow dyeing machine is a kind of equipment for being dyed to cloth；In the prior art, only by dyestuff in dyeing course It is added in body, and is diluted by water, then cloth is dipped to the dyestuff being diluted, by simple heating to cloth It is dyed, therefore haves the shortcomings that dyeing effect is poor.

Utility model content

In view of the deficienciess of the prior art, the purpose of this utility model is to provide a kind of overflow dyeing machines, it is intended in solution State the problem in background technique.

The technical solution of the utility model is achieved in that a kind of overflow dyeing machine, it is characterised in that: including external kettle body, sets Interior autoclave body inside external kettle body, the outer wall of the interior autoclave body and the inner wall gap setting of external kettle body, the interior autoclave body and outer kettle An inner cavity is formed between body, this is interior intracavitary equipped with feeding device, and the bottom of interior autoclave body is connected to inner cavity, the top of interior autoclave body Inner wall is equipped with intensive through-hole, and the top inner wall of interior autoclave body is fixedly connected with bulk material device, and each through-hole is filled with the bulk cargo Set connection；The bulk material device includes two bulk cargo die bodys being fixedly connected respectively with interior autoclave body top inner wall, each bulk cargo die body The joint face recess of interval setting, each bulk cargo die body and interior autoclave body is formed with a cavity, and the section of the cavity is " isosceles ladder Shape ", the bottom interior wall of the cavity are arranged at intervals with multiple feed openings, the bottom direction of the inside autoclave body of each feed opening extend and Bulk cargo channel is formed in bulk cargo die body, the discharge outlet in each bulk cargo channel is equipped with bulk cargo component；The bulk cargo component packet More bulk cargo pipes of the discharge outlet set on bulk cargo channel are included, each bulk cargo pipe is arranged from the radially close outward of discharge port, And the one end quartile of each bulk cargo pipe is in outside bulk cargo channel；The feeding device includes being rotatablely connected with the both ends inner wall of inner cavity From change, circumferentially-spaced between respective change to be fixedly connected with muti-piece upper flitch, the two sides of upper flitch are respectively and in external kettle body The contact of the outer wall of wall and interior autoclave body.

It is preferred that are as follows: more bulk cargo pipes being arranged in the discharge port in bulk cargo channel are divided into first group of bulk cargo from center outward Pipe, second group of bulk cargo pipe and third group bulk cargo pipe, first group of bulk cargo pipe are located at the interior of one end outside bulk cargo channel and bulk cargo channel Wall is parallel, and the angle that second group of bulk cargo pipe is located at the inner wall institute angulation of one end and bulk cargo channel outside bulk cargo channel is 150 degree, the The angle that three groups of bulk cargo pipes are located at the inner wall institute angulation of one end and bulk cargo channel outside bulk cargo channel is 120 degree.

By using above-mentioned technical proposal: feeding device can transport the dyestuff of bottom in overflow dyeing machine to scattered by through-hole Expect in device, and passes through bulk material device to the dispersion of dyestuff so that dyestuff effectively disperses and falls in the intracorporal cloth of interior kettle On, make being adsorbed on cloth of dyestuff high level by subdivision to dyestuff and from the gravity above fallen, to improve pair The dyeing effect of cloth；In more detail: in overflow dyeing machine dyeing course, it will usually be passed through dyestuff with postponing by water dilution In interior autoclave body, then cloth dyed by being passed through in interior autoclave body of being straightened of each transfer roller；During cloth transport, if The rotation of change can drive upper flitch to rotate around interior autoclave body in inner cavity, since upper flitch is contacted with the inner wall of inner cavity, upper It can be by the dyestuff of interior autoclave body bottom to the overhead conveyor of inner cavity, when dyestuff is transported to inner cavity top during flitch revolution motion When portion, the through-hole that can be arranged by inner cavity top enters in each bulk cargo die body, and the multiple bulk cargos being arranged on each bulk cargo die body are logical Dyestuff can be segmented and by the dye transport bulk cargo component after subdivision by road, and each bulk cargo pipe will after dyestuff is carried out subdivision Dyestuff is ejected on cloth, can effectively improve the dyeing effect to cloth by the height between bulk cargo pipe and cloth；Its Secondary, one end that first group of bulk cargo pipe is located at outside bulk cargo channel is parallel with the inner wall in bulk cargo channel, and second group of bulk cargo pipe is located at bulk cargo The angle of the inner wall institute angulation of one end and bulk cargo channel outside channel is 150 degree, and third group bulk cargo pipe is located at outside bulk cargo channel The angle of the inner wall institute angulation of one end and bulk cargo channel is 120 degree, which can be by the dyestuff different directions after subdivision, difference On the cloth by dye distribution of angle, the area of dyeing is improved, to further improve the effect of dyeing；It needs to illustrate Be: the section of the cavity be " isosceles trapezoid ", the setting can by enter cavity in dyestuff rapidly and effectively transport to The effect of dyeing to guarantee the efficiency of bulk cargo, and then is further improved in each bulk cargo channel.

The utility model is further arranged to: the contact surface of each upper flitch and external kettle body angle angle formed is 75 Degree.

It is preferred that are as follows: axially spaced-apart is equipped with multiple diversion trenches in each upper flitch, and the notch of each diversion trench is outer with interior autoclave body Wall contact.

By using above-mentioned technical proposal: upper flitch and the contact area of external kettle body angle angle formed are 75 degree Have the advantages that (one), can be improved single upper flitch transport dyestuff amount, thus guarantee the efficiency of bulk cargo so as to In the effect for improving dyeing；(secondly), at top of the upper flitch by dye transport to inner cavity, inclined setting can be improved Dyestuff enters through interior speed, to further guarantee the efficiency of bulk cargo, and then improves dyeing effect；Secondly, upper flitch The diversion trench of upper setting can further improve the amount of upper flitch single feeding, thus further guarantee the efficiency of bulk cargo, And then further improve dyeing effect.

The utility model is further arranged to: the intensive through-hole includes that four rows are wavy and intersect two-by-two point The through-hole of cloth.

By using above-mentioned technical proposal: the through-hole of cross-cutting distribution two-by-two can effectively improve through-hole in interior kettle The area being distributed on body to improve the efficiency that dyestuff enters in bulk material device, and then further improves the effect of dyeing.

Detailed description of the invention

In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment Or attached drawing needed to be used in the description of the prior art is briefly described, it should be apparent that, the accompanying drawings in the following description is only It is some embodiments of the utility model, for those of ordinary skill in the art, before not making the creative labor property It puts, is also possible to obtain other drawings based on these drawings.

Fig. 1 is specific embodiment of the present invention structural schematic diagram；

Fig. 2 is the cross-sectional view of E-E in Fig. 1；

Fig. 3 is the portion the A enlarged drawing in Fig. 1.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without creative efforts Every other embodiment obtained, fall within the protection scope of the utility model.

As shown in FIG. 1 to 3, the utility model discloses a kind of overflow dyeing machines, in the utility model specific embodiment, packet External kettle body 1, the interior autoclave body 2 inside external kettle body 1, the outer wall of the interior autoclave body 2 and the inner wall gap setting of external kettle body 1 are included, It is formed with an inner cavity 3 between the interior autoclave body 2 and external kettle body 1, feeding device 4, and the bottom of interior autoclave body 2 are equipped in the inner cavity 3 Be connected to inner cavity 3, the top inner wall of interior autoclave body 2 is equipped with intensive through-hole 21, and the top inner wall of interior autoclave body 2 be fixedly connected with it is scattered Expect that device 5, each through-hole 21 are connected to the bulk material device 5；The bulk material device 5 include respectively with interior 2 top inner wall of autoclave body Two bulk cargo die bodys 51 being fixedly connected, the setting of each interval of bulk cargo die body 51, the joint face of each bulk cargo die body 51 and interior autoclave body 2 are recessed It falls into and is formed with a cavity 511, the section of the cavity 511 is " isosceles trapezoid ", and the bottom interior wall interval of the cavity 511 is arranged There are multiple feed opening 511a, the bottom direction of the inside autoclave body 2 of each feed opening 511a extends and formed in bulk cargo die body 51 There is bulk cargo channel 512, the discharge outlet in each bulk cargo channel 512 is equipped with bulk cargo component 6；The bulk cargo component 6 includes being set to dissipate Expect that more bulk cargo pipes 61 of the discharge outlet in channel 512, each bulk cargo pipe 61 are arranged from the radially close outward of discharge port, and The one end quartile of each bulk cargo pipe 61 is in outside bulk cargo channel 512；The feeding device 4 includes rotating with the both ends inner wall of inner cavity 3 Connection is fixedly connected with muti-piece upper flitch 42, the two sides point of upper flitch 42 from circumferentially-spaced between change 41, respective change 41 It is not contacted with the outer wall of the inner wall of external kettle body 1 and interior autoclave body 2.

In the utility model specific embodiment, more bulk cargo pipes 61 being arranged in the discharge port in bulk cargo channel 512 are in The heart is divided into first group of bulk cargo pipe, 611, second groups of bulk cargo pipes 612 and third group bulk cargo pipe 613, first group of bulk cargo pipe outward 611 one end outside bulk cargo channel 512 is parallel with the inner wall in bulk cargo channel 611, and second group of bulk cargo pipe 612 is located at bulk cargo channel The angle of the inner wall institute angulation B of one end and bulk cargo channel 512 outside 512 is 150 degree, and third group bulk cargo pipe 613 is logical positioned at bulk cargo The angle of the inner wall institute angulation C of one end and bulk cargo channel 512 outside road 512 is 120 degree.

By using above-mentioned technical proposal: feeding device can transport the dyestuff of bottom in overflow dyeing machine to scattered by through-hole Expect in device, and passes through bulk material device to the dispersion of dyestuff so that dyestuff effectively disperses and falls in the intracorporal cloth of interior kettle On, make being adsorbed on cloth of dyestuff high level by subdivision to dyestuff and from the gravity above fallen, to improve pair The dyeing effect of cloth；In more detail: in overflow dyeing machine dyeing course, it will usually be passed through dyestuff with postponing by water dilution In interior autoclave body, then cloth dyed by being passed through in interior autoclave body of being straightened of each transfer roller；During cloth transport, if The rotation of change can drive upper flitch to rotate around interior autoclave body in inner cavity, since upper flitch is contacted with the inner wall of inner cavity, upper It can be by the dyestuff of interior autoclave body bottom to the overhead conveyor of inner cavity, when dyestuff is transported to inner cavity top during flitch revolution motion When portion, the through-hole that can be arranged by inner cavity top enters in each bulk cargo die body, and the multiple bulk cargos being arranged on each bulk cargo die body are logical Dyestuff can be segmented and by the dye transport bulk cargo component after subdivision by road, and each bulk cargo pipe will after dyestuff is carried out subdivision Dyestuff is ejected on cloth, can effectively improve the dyeing effect to cloth by the height between bulk cargo pipe and cloth；Its Secondary, one end that first group of bulk cargo pipe is located at outside bulk cargo channel is parallel with the inner wall in bulk cargo channel, and second group of bulk cargo pipe is located at bulk cargo The angle of the inner wall institute angulation of one end and bulk cargo channel outside channel is 150 degree, and third group bulk cargo pipe is located at outside bulk cargo channel The angle of the inner wall institute angulation of one end and bulk cargo channel is 120 degree, which can be by the dyestuff different directions after subdivision, difference On the cloth by dye distribution of angle, the area of dyeing is improved, to further improve the effect of dyeing；It needs to illustrate Be: the section of the cavity be " isosceles trapezoid ", the setting can by enter cavity in dyestuff rapidly and effectively transport to The effect of dyeing to guarantee the efficiency of bulk cargo, and then is further improved in each bulk cargo channel.

In the utility model specific embodiment, the contact surface angle D angle formed of each upper flitch 42 and external kettle body 1 It is 75 degree.

In the utility model specific embodiment, axially spaced-apart is equipped with multiple diversion trenches 421, each water conservancy diversion in each upper flitch 42 The notch of slot 421 is contacted with the outer wall of interior autoclave body 2.

By using above-mentioned technical proposal: upper flitch and the contact area of external kettle body angle angle formed are 75 degree Have the advantages that (one), can be improved single upper flitch transport dyestuff amount, thus guarantee the efficiency of bulk cargo so as to In the effect for improving dyeing；(secondly), at top of the upper flitch by dye transport to inner cavity, inclined setting can be improved Dyestuff enters through interior speed, to further guarantee the efficiency of bulk cargo, and then improves dyeing effect；Secondly, upper flitch The diversion trench of upper setting can further improve the amount of upper flitch single feeding, thus further guarantee the efficiency of bulk cargo, And then further improve dyeing effect.

In the utility model specific embodiment, the intensive through-hole 21 is wavy including four rows and mutually hands over two-by-two Pitch the through-hole 21 of distribution.

By using above-mentioned technical proposal: the through-hole of cross-cutting distribution two-by-two can effectively improve through-hole in interior kettle The area being distributed on body to improve the efficiency that dyestuff enters in bulk material device, and then further improves the effect of dyeing.

The above is only the preferred embodiment of the utility model only, is not intended to limit the utility model, all at this Within the spirit and principle of utility model, any modification, equivalent replacement, improvement and so on should be included in the utility model Protection scope within.

Claims (5)

1. a kind of overflow dyeing machine, it is characterised in that: the interior autoclave body including external kettle body, inside external kettle body, the interior autoclave body it is outer The inner wall gap setting of wall and external kettle body is formed with an inner cavity between the interior autoclave body and external kettle body, this is interior intracavitary equipped with feeding Device, and the bottom of interior autoclave body is connected to inner cavity, the top inner wall of interior autoclave body is equipped with intensive through-hole, and in the top of interior autoclave body Wall is fixedly connected with bulk material device, and each through-hole is connected to the bulk material device；The bulk material device include respectively with interior autoclave body Two bulk cargo die bodys that top inner wall is fixedly connected, the setting of each bulk cargo die body interval, the joint face of each bulk cargo die body and interior autoclave body Recess is formed with a cavity, and the section of the cavity is " isosceles trapezoid ", the bottom interior wall of the cavity be arranged at intervals with it is multiple into Expect hole, the bottom direction of the inside autoclave body of each feed opening extends and be formed in bulk cargo die body bulk cargo channel, and each bulk cargo is logical The discharge outlet in road is equipped with bulk cargo component；The bulk cargo component includes more bulk cargos of the discharge outlet set on bulk cargo channel Pipe, each bulk cargo pipe is arranged from the radially close outward of discharge port, and the one end quartile of each bulk cargo pipe is in outside bulk cargo channel； The feeding device includes being fixedly connected with what the both ends inner wall of inner cavity was rotatablely connected from circumferentially-spaced between change, respective change There is muti-piece upper flitch, the two sides of upper flitch are contacted with the outer wall of the inner wall of external kettle body and interior autoclave body respectively.

2. a kind of overflow dyeing machine according to claim 1, it is characterised in that: more be arranged in the discharge port in bulk cargo channel dissipate Expects pipe is divided into first group of bulk cargo pipe, second group of bulk cargo pipe and third group bulk cargo pipe, first group of bulk cargo pipe position from center outward Parallel with the inner wall in bulk cargo channel in one end outside bulk cargo channel, second group of bulk cargo pipe is located at one end and bulk cargo outside bulk cargo channel The angle of the inner wall institute angulation in channel is 150 degree, and third group bulk cargo pipe is located at the interior of one end outside bulk cargo channel and bulk cargo channel The angle of wall institute angulation is 120 degree.

3. a kind of overflow dyeing machine according to claim 1, it is characterised in that: the contact surface of each upper flitch and external kettle body is formed The angle of angle is 75 degree.

4. a kind of overflow dyeing machine according to claim 1, it is characterised in that: axially spaced-apart is equipped with multiple water conservancy diversion in each upper flitch Slot, the notch of each diversion trench are contacted with the outer wall of interior autoclave body.

5. a kind of overflow dyeing machine according to claim 1, it is characterised in that: the intensive through-hole includes that four rows are wavy And the through-hole of cross-cutting distribution two-by-two.