CN104894789A - Ultra-penetration splitting sample color-measuring instrument - Google Patents

Abstract

The invention relates to an ultra-penetration splitting sample color-measuring instrument. The ultra-penetration splitting sample color-measuring instrument comprises a control cabinet and a body, and the control cabinet is fixedly connected with the body. The ultra-penetration splitting sample color-measuring instrument is characterized in that a cloth-guiding mechanism, a transmission mechanism, a liquid-spraying mechanism, a flapping mechanism, and a heating and cooling mechanism are arranged in the body, the transmission mechanism drives the cloth-guiding mechanism to operate, the transmission mechanism drives the flapping mechanism to flap, the transmission mechanism drives the liquid-spraying mechanism to spray out dye liquor, the cloth-guiding mechanism, the liquid-spraying mechanism, the flapping mechanism, and the heating and cooling mechanism are arranged in a dye vat body, and the transmission mechanism is arranged at the external part of the dye vat body. The ultra-penetration splitting sample color-measuring instrument is advantageous in that batch production is realized, noise pollution is prevented, the structure is simple, machines are not easily damaged, the maintenance cost is low, and the practical operation is facilitated.

Description

Sample colour photometer in super infiltration fibrillation

Technical field

The invention belongs to textile dyeing apparatus field, be specifically related to sample colour photometer in a kind of super infiltration fibrillation.

Background technology

As everyone knows, in the use procedure of dyeing machine, be its core component for nozzle existing dyeing machine, the effect of current nozzle in dyeing course is, first the dye liquor heated has to pass through shower nozzle becomes mist granule, whether dye liquor can be atomized, whether be atomized completely again, these are all by the uniformity of the vaporific dye liquor of impact, thus the quality of directly impact dyeing, dye liquor after atomization can not directly be sprayed onto on cloth cover, the air-flow that it and will enter spray chamber mixes, the process of mixing completes instantaneously, the air-flow adding vaporific dye liquor enters selvage guide room immediately, the air-flow of this mixing has two effects, an effect blows support cloth to travel forward, another effect is that the dye liquor in the process of motion in air-flow impacts cloth skin, the fiber of superfine little dye liquor in fabric is fully combined, there is physical-chemical reaction, painted to fiber (cloth), circulation repeated action like this, final textile dyeing.Such air-flowing type dyeing has a large feature of water-saving, but it needs liquid to be become gaseous state and need airduct to impact fabric superfine little dye liquor fiber in fabric is combined, so need the parts such as windmill, therefore power consumption, occupation of land are greatly.If abandon the mode of this kind of airflow dyeing, so, can only use again large-scale motor and a large amount of water that dye liquor is penetrated from nozzle mesohigh, with the needs of satisfied dyeing, this mode not only dye cloth dyeing uneven, and power consumption, water consumption, easily cause secondary pollution.

In order to avoid above problem, now produce a kind of utilize shaking device to be convenient to mechanism that dyestuff enters cloth, but this mechanism, in practical operation, but can not realize, main cause have following some, 1: percussion mechanism has frame structure, cloth need enter from frame structure, make cloth contact frame inner structural wall to obtain the chance better dye liquor being immersed described cloth, but, due to the characteristic of frame structure, the frame structure of percussion mechanism needs cloth-guiding wheel and goes to clash into, produce vibrations and shake cloth, a motor is shared both it, therefore the rotating speed of percussion mechanism and cloth-guiding wheel can not be too fast, when cloth-guiding wheel rotating speed reaches more than 100 rpms, due between percussion mechanism and cloth-guiding wheel for mechanical connection, can damage because of collision both it, therefore microrunning is suitable only for, 2: frame structure needs the rotation of cloth-guiding wheel and drives running, that is, need the third party to help its vibrations, and selvage guide mechanism can not reach the speed of percussion mechanism requirement, 3: because cloth shakes in percussion mechanism, so its noise is very large, creates noise pollution, have impact on the health of workman to environment, 4: percussion mechanism structure is all comparatively complicated, and parts are numerous, and because above-mentioned reason, causes machine more easily to damage, 5: due to the complexity of its structure, parts numerous, so once damage, rehabilitation cost and difficulty high.The more important thing is, though said mechanism causes shape, but, in later stage actual cloth dying operation experiment, cannot normally run at all.

Summary of the invention

The technical problem to be solved in the present invention is to provide sample colour photometer in a kind of super infiltration fibrillation, overcome above-mentioned defect, by improving the structure of sample colour photometer in super infiltration fibrillation, solve noise pollution, complex structure, machine are fragile, maintenance cost is high, only has idealized and is difficult to apply to the problems such as practical operation.

For solving the problems of the technologies described above, the invention provides sample colour photometer in a kind of super infiltration fibrillation, comprise control cabinet and fuselage, described control cabinet is fixedly connected with described fuselage, selvage guide mechanism, transmission mechanism, hydrojet mechanism, beater mechanism and heating cooling body is provided with in described fuselage, described transmission mechanism drives described selvage guide mechanical operation, described transmission mechanism drives the beating of described beater mechanism, described transmission mechanism drives described hydrojet mechanism to spray dye liquor

Described selvage guide mechanism, hydrojet mechanism, beater mechanism and described heating cooling body are arranged in dye vat cylinder body, and it is outside that described transmission mechanism is arranged on described dye vat cylinder body.

As a kind of preferred version of sample colour photometer in a kind of super infiltration fibrillation of the present invention, described selvage guide mechanism comprises cloth guiding pole, cloth-guiding wheel He Duibu district, and described transmission mechanism comprises cloth-guiding wheel motor, infiltration motor and water pump, and described beater mechanism comprises eccentric wheel, described hydrojet mechanism comprises nozzle

Described cloth guiding pole supports cloth, described Dui Bu district is positioned at the below of described cloth guiding pole and described cloth-guiding wheel, the space of described nozzle between described cloth guiding pole and described cloth-guiding wheel, described nozzle is provided with sparge pipe, described dye liquor enters described nozzle by pipeline from described sparge pipe through described water pump, sprayed in described cloth by described nozzle

At least side of described cloth-guiding wheel is provided with the first belt pulley, described eccentric at least side is provided with the second belt pulley, the at least side of described cloth-guiding wheel motor is provided with the 3rd belt pulley, the at least side of described infiltration motor is provided with the 4th belt pulley, 3rd pulley rotation described in described cloth-guiding wheel Electric Machine Control, described 3rd belt pulley is by the first pulley rotation described in belt drive, 4th pulley rotation described in described infiltration Electric Machine Control, described 4th belt pulley is by the second pulley rotation described in belt drive

After described cloth enters described dye vat cylinder body by the door closure on described fuselage, described Dui Bu district is entered successively through described cloth guiding pole, nozzle and cloth-guiding wheel, get back to described cloth guiding pole by described Dui Bu district again, when described selvage guide mechanism drives described cloth to operate, described cloth patted by described eccentric wheel.

As a kind of preferred version of sample colour photometer in a kind of super infiltration fibrillation of the present invention, described selvage guide mechanism also comprises leading fabric swatch, the described space of leading fabric swatch between described cloth guiding pole and described nozzle, described cloth sprays described dye liquor by described nozzle after described cloth guiding pole and leading fabric swatch.

As a kind of preferred version of sample colour photometer in a kind of super infiltration fibrillation of the present invention, described eccentric wheel is arranged at the below of described cloth-guiding wheel, after described cloth enters described dye vat cylinder body by the door closure on described fuselage, successively through described cloth guiding pole, nozzle and cloth-guiding wheel, enter described Dui Bu district after being patted by described eccentric wheel, then get back to described cloth guiding pole by described Dui Bu district.

As a kind of preferred version of sample colour photometer in a kind of super infiltration fibrillation of the present invention, described selvage guide mechanism also comprises rear selvage guide plate, described rear selvage guide plate is positioned at the below of described cloth-guiding wheel, described cloth through described cloth-guiding wheel and after after selvage guide plate, enter described Dui Bu district after being patted by described eccentric wheel.

As a kind of preferred version of sample colour photometer in a kind of super infiltration fibrillation of the present invention, be provided with several in described dye vat cylinder body for supporting the reinforcing prop of described dye vat cylinder body, described reinforcing prop is positioned at the top in described Dui Bu district.

As a kind of preferred version of sample colour photometer in a kind of super infiltration fibrillation of the present invention, described cloth guiding pole is reinforcing prop.

Compared with prior art, sample colour photometer in the one that the present invention proposes super infiltration fibrillation, improves the modular construction in dye vat cylinder body and position, has the following advantages:

1: applicability is wide, can be used in any textile dyeing machinery;

2: owing to abandoning percussion mechanism, be provided with beater mechanism, directly cloth is played by eccentric wheel, dyestuff can directly enter in cloth, does not need cloth to enter in a certain ad hoc structure, therefore saves the duration of runs, reduce equipment loss, machine is not fragile, is applicable to fast, slow multiple speed, can not affects machine performance;

3: the rotating speed of eccentric rotating speed and cloth-guiding wheel is irrelevant mutually, independent of different Electric Machine Control separately, like this, avoid the damage of cloth-guiding wheel, it also avoid the problem not easily run up;

4: eccentric wheel is played cloth and produced noise hardly, avoid noise pollution;

5: in selvage guide mechanism, add leading fabric swatch, not only guide the direction of motion of described cloth, and shared the weight of cloth, avoided the parts such as nozzle to be under pressure, be convenient to machine trouble-free operation.

6: selvage guide plate after adding in selvage guide mechanism, not only guides the direction of motion of described cloth, and the contact area optimized between beating device and described cloth and position.

7: machine of the present invention is little, water pump horsepower is little, limited with water, spray limited, but, by beating action, improve and spray effect, be embodied as dyestuff to be patted in dyeing on the one hand and infiltrate through cloth, namely open fabric fibre by dyestuff penetration by beating action, on the other hand in cloth cleaning process, extrude dyestuff unnecessary in cloth by beating action, compared with large machine, effect and intensity are equal to.

Accompanying drawing explanation

In order to be illustrated more clearly in the technical scheme of the embodiment of the present invention, below the accompanying drawing used required in describing embodiment is briefly described, apparently, accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.Wherein,

Fig. 1 is the main TV structure schematic diagram of sample colour photometer in a kind of super infiltration fibrillation of the present invention.

Wherein: 1 be control cabinet, 2 be fuselage, 3 be cloth guiding pole, 4 be cloth-guiding wheel, 5 be Dui Bu district, 6 be cloth-guiding wheel motor, 7 for infiltration motor, 8 be eccentric wheel, 9 be nozzle, 10 be door closure, 11 be leading fabric swatch, 12 be rear selvage guide plate, 13 be reinforcing prop, 14 be charging spout, 15 be water intaking valve, 16 be back-water valve (BWV), 18 be draining valve, 19 be safety valve, 20 be master switch, 21 for heating cooling body, 22 is for dye vat cylinder body.

Detailed description of the invention

Sample colour photometer in one of the present invention super infiltration fibrillation, it comprises sample colour photometer in super infiltration fibrillation, and in described super infiltration fibrillation, sample colour photometer comprises control cabinet 1 and fuselage 2, and described control cabinet 1 is fixedly connected with described fuselage 2.

Selvage guide mechanism (not shown), transmission mechanism (not shown), hydrojet mechanism (not shown), beater mechanism (not shown) and heating cooling body 21 etc. are provided with in described fuselage 2.

Described control cabinet 1 comprises master switch 20, warning device controller (not shown), interrupts rotating device controller (not shown), transmission mechanism control switch (not shown), selvage guide mechanism gauge tap (not shown), beater mechanism gauge tap (not shown) etc.

For enabling above-mentioned purpose of the present invention, feature and advantage become apparent more, and below in conjunction with detailed description of the invention, the present invention is further detailed explanation.

First, alleged herein " embodiment " or " embodiment " refers to special characteristic, structure or the characteristic that can be contained at least one implementation of the present invention.Different local in this manual " in one embodiment " occurred not all refers to same embodiment, neither be independent or optionally mutually exclusive with other embodiments embodiment.

Secondly; the present invention utilizes structural representation etc. to be described in detail; when describing the embodiment of the present invention in detail; for ease of explanation; represent that the schematic diagram of sample colour photometer structure in super infiltration fibrillation can be disobeyed general ratio and be made partial enlargement; and described schematic diagram is example, it should not limit the scope of protection of the invention at this.In addition, the three dimensions of length, width and the degree of depth should be comprised in actual fabrication.

Refer to Fig. 1, Fig. 1 is the main TV structure schematic diagram of sample colour photometer in a kind of super infiltration fibrillation of the present invention.As shown in Figure 1, sample colour photometer in one of the present invention super infiltration fibrillation, comprise control cabinet 1 and fuselage 2, described control cabinet 1 is fixedly connected with described fuselage 2, be provided with selvage guide mechanism (not shown), transmission mechanism (not shown), hydrojet mechanism (not shown), beater mechanism (not shown) and heating cooling body 21 in described fuselage 2, described transmission mechanism drives described selvage guide mechanical operation, described transmission mechanism drives the beating of described beater mechanism, described transmission mechanism drives described hydrojet mechanism to spray dye liquor.In above-mentioned several mechanism, described selvage guide mechanism, hydrojet mechanism, beater mechanism and heating cooling body 21 are arranged in dye vat cylinder body 22, and it is outside that described transmission mechanism is arranged on described dye vat cylinder body 22.Described heating cooling body 21 the best is arranged at the bottom of described dye vat cylinder body 22, described dye vat cylinder body 22 of fitting.The benefit of such setting is, described dye vat cylinder body 22 can be heated or cooled fast, avoids energy loss, heating or cooling effect poor.

Please continue to refer to Fig. 1, as shown in Figure 1, described selvage guide mechanism comprises cloth guiding pole 3, cloth-guiding wheel 4 He Duibu district 5, described transmission mechanism comprises cloth-guiding wheel motor 6, infiltration motor and water pump (not shown), described beater mechanism comprises at least one eccentric wheel 8, described hydrojet mechanism comprises nozzle 9, the number of described dyeing machine cylinder body 22 is at least one, in FIG, described dyeing machine cylinder body 22 is single cylinder, structure of the present invention is applicable to single cylinder and is also applicable to twin-tub or multi-cylinder, because the structure of described dyeing machine cylinder body 22 is always identical, therefore hereinafter, only introduce the structure of a dyeing machine cylinder body.

Described cloth guiding pole 3 supports cloth, described Dui Bu district 5 is positioned at the below of described cloth guiding pole 3 and described cloth-guiding wheel 4, the space of described nozzle 9 between described cloth guiding pole 3 and described cloth-guiding wheel 4, described nozzle 9 is provided with sparge pipe (not shown), described dye liquor enters described nozzle 9 by pipeline (not shown) from described sparge pipe through described water pump, is sprayed in described cloth by described nozzle 9.

The at least side of described cloth-guiding wheel 4 is provided with the first belt pulley (not shown), the at least side of described eccentric wheel 8 is provided with the second belt pulley (not shown), the at least side of described cloth-guiding wheel motor 6 is provided with the 3rd belt pulley (not shown), the at least side of described infiltration motor 7 is provided with the 4th belt pulley (not shown), described cloth-guiding wheel motor 6 controls described 3rd pulley rotation, described 3rd belt pulley is by the first pulley rotation described in belt drive, described infiltration motor 7 controls described 4th pulley rotation, described 4th belt pulley is by the second pulley rotation described in belt drive.

After described cloth enters described dye vat cylinder body 22 by the door closure 10 on described fuselage 2, successively through described cloth guiding pole 3, nozzle 9 and cloth-guiding wheel 4, then enter described Dui Bu district 5, then get back to described cloth guiding pole 3 by described Dui Bu district 5.Cloth described above is in described selvage guide mechanism in operation process, cloth is patted by described eccentric wheel 8, as can be seen from Figure 1, the effect that described cloth guiding pole 3 and other structures play is: cloth struts in left and right Two-point distribution by described cloth guiding pole 3 and described cloth-guiding wheel 4, a polygonized structure is formed again with the Dui Bu district 5 of below, making cloth when with selvage guide mechanism kinematic, when touching described nozzle 9 or described eccentric wheel 8, is not the state in accumulation or inductility all the time.

Preferably, described selvage guide mechanism also comprises leading fabric swatch 11, and the described space of leading fabric swatch 11 between described cloth guiding pole 3 and described nozzle 9, described cloth sprays described dye liquor by described nozzle 9 after described cloth guiding pole 3 and leading fabric swatch 11.

The position of eccentric wheel 8 and quantity can have multiple, as as described in below cloth-guiding wheel 4, and for example in the below of described cloth guiding pole 3, etc., but, if arrange too much, or position is improper, although object of the present invention can be realized, but, because described Dui Bu district 5 area is too small, and affect the amount of dying cloth, most preferredly be: described eccentric wheel 8 is in the below of described cloth-guiding wheel 4, introduce this kind of position below: described eccentric wheel 8 is arranged at the below of described cloth-guiding wheel 4, after described cloth enters described dye vat cylinder body 22 by the door closure 10 on described fuselage 2, successively through described cloth guiding pole 3, nozzle 9 and cloth-guiding wheel 4, described Dui Bu district 5 is entered after being patted by described eccentric wheel 8, described cloth guiding pole 3 is got back to again by described Dui Bu district 5.Described eccentric wheel 8 is by beating masterpiece for described cloth after nozzle 9 dyes, and described cloth lets droop due to the effect of gravity, eccentric wheel 8 can not be caused to damage because of beating or damage, also can not affect the quality of cloth.

Preferably, described selvage guide mechanism also comprises rear selvage guide plate 12, and described rear selvage guide plate 12 is positioned at the below of described cloth-guiding wheel 4, described cloth through described cloth-guiding wheel 4 and after after selvage guide plate 12, enter described Dui Bu district 5 after being patted by described eccentric wheel 8.

For the ease of understanding, now introduce a preferred forms.

Please continue to refer to Fig. 1, the arrangement mode of described cloth guiding pole 3, leading fabric swatch 11, nozzle 9, cloth-guiding wheel 4, rear selvage guide plate 12 and eccentric wheel 8 is: described cloth guiding pole 3 is before, then be leading fabric swatch 11, nozzle 9, cloth-guiding wheel 4 successively, for rear selvage guide plate 12 is finally eccentric wheel 8 below cloth-guiding wheel 4, the present embodiment, as example, includes but not limited to this kind of arrangement mode.The shell of described fuselage 2 is provided with door closure 10.

Open door closure 10, fuselage 2 sent into by cloth from door closure 31 from fuselage 2 outside inner, open cloth-guiding wheel motor 6, described 3rd pulley rotation, by the rotation of described 3rd belt pulley, belt drive first pulley rotation, described cloth-guiding wheel 4 also rotates thereupon, described cloth is along with the rotation of described cloth-guiding wheel 4, enter described nozzle 9 by described cloth guiding pole 3 through described leading fabric swatch 11 to spray, then along with the rotation of cloth-guiding wheel 4 enters described Dui Bu district 5 by described rear selvage guide plate 12 guiding, by fixing for described cloth head and the tail, so, described cloth gets back to described cloth-guiding wheel bar 3 from described Dui Bu district 6 again, repeat above-mentioned running.

Said structure completes the whole running of cloth in described super infiltration fibrillation in sample colour photometer.

Please continue to refer to Fig. 1, described transmission mechanism also comprises water pump, described hydrojet mechanism also comprises sparge pipe (not shown), the shape of described nozzle 9 can be pipe shape, inwall is provided with several liquid outlets (not shown), also can be directly shower nozzle, described sparge pipe connects the delivery port (not shown) of described water pump by pipeline (not shown), the water inlet (not shown) of described water pump connects water inlet pipe, and described fuselage 2 is provided with charging spout 14 and water intaking valve 15.

Described dyestuff and auxiliary agent are added in charging spout 14, described charging spout 14 is communicated with water source, open water intaking valve 15, after described dyestuff and auxiliary agent are mixed into dye liquor in described charging spout 14, water pump is flowed into from pipeline by the suction of described water pump, and the delivery port 16 of described water pump is flow to through the water inlet of described water pump, then enter described nozzle 9 by described sparge pipe, and drench or ejection from the liquid outlet of described nozzle 9.

Described fuselage 2 is also provided with back-water valve (BWV) 16, described back-water valve (BWV) 16 is connected with described charging spout 14, by opening back-water valve (BWV) 16, the recirculated water in described feed well 14 is entered turnover circulation, namely open the water in described cylinder body by described back-water valve (BWV) 16, be back in described feed well 14, water is stirred by the dyestuff that adds in the rotation of current and described feed well 14 and auxiliary agent, so that dye liquor is even, eliminate and rabbling mechanism is set, be beneficial to the simplification of equipment, avoid the problem of stirring operation and dye liquor inequality manually.

Said structure completes the whole running of dye liquor in described super infiltration fibrillation in sample colour photometer.

The structure of described beater mechanism can have multiple, and below for beater mechanism eccentric wheel 8 introduction shown in Fig. 1, its effects all are similar with effect and following beater mechanism, all within the scope of the present invention.

Open infiltration motor 7, eccentric wheel 8 starts to rotate, and the cloth speckling with dye liquor after nozzle 9 is patted it by described eccentric wheel, by the mode of this beating, dye liquor is entered in described cloth, completes cloth dyeing.

Said structure completes in described super infiltration fibrillation in sample colour photometer, and dye liquor penetrates cloth, absorb by cloth fixing.

Sample colour photometer in super infiltration fibrillation of the present invention, when needs rapid dyeing, tune up the horsepower of infiltration motor 7, running speed accelerated by described eccentric wheel 8, realizes high frequency pat cloth, when needs reduce dyeing kinetics, slow down the horsepower of infiltration motor 7, described eccentric wheel 8 running speed slows down, and realizes low frequency and pats, can complete the process of dying cloth to cloth.In this process, the running of selvage guide mechanism and the running speed of beater mechanism do not interfere with each other, independent separately, and convenient operation person is by the machine regulation and control extremely required state of dyeing.And when needs are patted at a high speed, the running speed of described eccentric wheel 8 can up to more than hundreds of turns per minute.

In super infiltration fibrillation of the present invention in sample colour photometer, described heating cooling body 21 as shown in Figure 1, several reinforcing props 13 are also important component parts, described heating cooling body 21 is arranged on below described selvage guide mechanism, preferably, described heating-cooling device 12 matches with the outer wall construction of described dye vat cylinder body 22, it is inner that described heating-cooling device 12 is arranged on described dye vat cylinder body 22, and described heating-cooling device 12 is fitted described dye vat cylinder body 22 inwall; After cloth speckles with dyestuff, its weight can increase a lot, load-bearing in described dye vat cylinder body 22 can increase, several reinforcing props 13 may be used for supporting described dye vat cylinder body 22, increase the fastness of whole dye vat cylinder body 22, described reinforcing prop 13 be preferably disposed on cloth without region, cloth can have been avoided like this to be wound around so that the complicated running of selvage guide mechanism.

Described cloth guiding pole 3 can be arranged to the structure of reinforcing prop 13, and it can play the effect supporting cloth on the one hand, on the other hand, cloth guiding pole 3 also can be made to support dye vat cylinder body 22, saves the quantity of reinforcing prop 13.

In the present invention, described dyeing machine cylinder body is full-sealing device, and in order to ensure its security, prevent blast, described cylinder body is provided with safety valve 19 and observation window (not shown), for the ease of cleaning, described fuselage 2 is also provided with draining valve 18.Well known to a person skilled in the art because these contents are, so, do not repeat them here.

It should be noted that, above embodiment is only in order to illustrate technical scheme of the present invention and unrestricted, although with reference to preferred embodiment to invention has been detailed description, those of ordinary skill in the art is to be understood that, can modify to technical scheme of the present invention or equivalent replacement, and not departing from the spirit and scope of technical solution of the present invention, it all should be encompassed in the middle of right of the present invention.

Claims (7)

1. surpass sample colour photometer in infiltration fibrillation, comprise control cabinet and fuselage, described control cabinet is fixedly connected with described fuselage, it is characterized in that: in described fuselage, be provided with selvage guide mechanism, transmission mechanism, hydrojet mechanism, beater mechanism and heating cooling body, described transmission mechanism drives described selvage guide mechanical operation, described transmission mechanism drives the beating of described beater mechanism, described transmission mechanism drives described hydrojet mechanism to spray dye liquor

Described selvage guide mechanism, hydrojet mechanism, beater mechanism and heating cooling body are arranged in dye vat cylinder body, and it is outside that described transmission mechanism is arranged on described dye vat cylinder body.

2. sample colour photometer in super infiltration fibrillation as claimed in claim 1, is characterized in that:

Described selvage guide mechanism comprises cloth guiding pole, cloth-guiding wheel He Duibu district, and described transmission mechanism comprises cloth-guiding wheel motor, infiltration motor and water pump, and described beater mechanism comprises at least one eccentric wheel, and described hydrojet mechanism comprises nozzle,

Described cloth guiding pole supports cloth, described Dui Bu district is positioned at the below of described cloth guiding pole and described cloth-guiding wheel, the space of described nozzle between described cloth guiding pole and described cloth-guiding wheel, described nozzle is provided with sparge pipe, described dye liquor enters described nozzle by pipeline from described sparge pipe through described water pump, sprayed in described cloth by described nozzle

At least side of described cloth-guiding wheel is provided with the first belt pulley, described eccentric at least side is provided with the second belt pulley, the at least side of described cloth-guiding wheel motor is provided with the 3rd belt pulley, the at least side of described infiltration motor is provided with the 4th belt pulley, 3rd pulley rotation described in described cloth-guiding wheel Electric Machine Control, described 3rd belt pulley is by the first pulley rotation described in belt drive, 4th pulley rotation described in described infiltration Electric Machine Control, described 4th belt pulley is by the second pulley rotation described in belt drive

After described cloth enters described dye vat cylinder body by the door closure on described fuselage, described Dui Bu district is entered successively through described cloth guiding pole, nozzle and cloth-guiding wheel, get back to described cloth guiding pole by described Dui Bu district again, when described selvage guide mechanism drives described cloth to operate, described cloth patted by described eccentric wheel.

3. sample colour photometer in super infiltration fibrillation as claimed in claim 2, it is characterized in that: described selvage guide mechanism also comprises leading fabric swatch, the described space of leading fabric swatch between described cloth guiding pole and described nozzle, described cloth sprays described dye liquor by described nozzle after described cloth guiding pole and leading fabric swatch.

4. sample colour photometer in super infiltration fibrillation as claimed in claim 2, it is characterized in that: described eccentric wheel is arranged at the below of described cloth-guiding wheel, after described cloth enters described dye vat cylinder body by the door closure on described fuselage, successively through described cloth guiding pole, nozzle and cloth-guiding wheel, enter described Dui Bu district after being patted by described eccentric wheel, then get back to described cloth guiding pole by described Dui Bu district.

5. sample colour photometer in super infiltration fibrillation as claimed in claim 2, it is characterized in that: described selvage guide mechanism also comprises rear selvage guide plate, described rear selvage guide plate is positioned at the below of described cloth-guiding wheel, described cloth through described cloth-guiding wheel and after after selvage guide plate, enter described Dui Bu district after being patted by described eccentric wheel.

6. sample colour photometer in super infiltration fibrillation as claimed in claim 2, is characterized in that: be provided with several in described dye vat cylinder body for supporting the reinforcing prop of described dye vat cylinder body, described reinforcing prop is positioned at the top in described Dui Bu district.

7. sample colour photometer in super infiltration fibrillation as claimed in claim 6, is characterized in that: described cloth guiding pole is reinforcing prop.