CN206635523U - Perforated cylinder dyeing machine - Google Patents

Abstract

It the utility model is related to overflow dyeing machine technical field, especially a kind of perforated cylinder dyeing machine, it includes roller, the circumferential side wall of roller is double-decker, roller opposite side is provided with auxiliary agent material mechanism, auxiliary agent material mechanism extends to drums inside by the main shaft of the side, material gate and dry powder dye loading hopper are respectively arranged with roller inner circumferential wall, one or more annular web plate is provided with the circumferential side wall of drums inside, cavity is formed between the circumferential side wall of annular web plate and roller, several discharge outlet are set in the circumferential side wall of the roller in cavity location, it is provided for blocking the plugging device of discharge outlet at the discharge outlet of cylinder outer wall.It a kind of perforated cylinder dyeing machine obtained by the utility model, can realize that roller directs out draining, and material can be isolated in drums inside, while effectively dry powder dye and auxiliary agent can be uniformly dispersed, steam usage amount reduces, and energy resource consumption is low, and processing efficiency is improved.

Description

Perforated cylinder dyeing machine

Technical field

Overflow dyeing machine technical field is the utility model is related to, especially a kind of perforated cylinder dyeing machine.

Background technology

In the prior art, for perforated cylinder dyeing machine, its dye liquor and fur are arranged from material gate in fur dyeing course Go out, so in some other product dyeing courses, such as sheep cropping, sweater, whole dyeing course need to change water multiple.If adopt With existing equipment, then need to take out the material of inside repeatedly, have a strong impact on staining efficiency.Simultaneously because after material is drenched, Weight is big, and wet stock, which is put into roller, to be needed to consume substantial amounts of manpower, increases cost, and can influence dyeability.

Utility model content

The purpose of this utility model be in order to solve the deficiency of above-mentioned technology and provide it is a kind of simple in construction, realize without Material carries out self-draining perforated cylinder dyeing machine in the case of taking out.

In order to achieve the above object, a kind of perforated cylinder dyeing machine designed by the utility model, it includes roller, the week of roller It is double-decker to side wall, described roller is connected in frame by main shaft, and the alignment of shafts in the side of roller is equipped with Steam input pipe road and steam output pipe, set actuating unit to drive roller to rotate in frame, set in roller opposite side There is auxiliary agent material machine structure, auxiliary agent material mechanism extends to drums inside by the main shaft of the side, in roller inner circumferential wall respectively Material gate and dry powder dye loading hopper are provided with, one or more annular web plate is provided with the circumferential side wall of drums inside, Cavity is formed between the circumferential side wall of annular web plate and roller, if being set in the circumferential side wall of the roller in cavity location Dry discharge outlet, it is provided for blocking the plugging device of discharge outlet at the discharge outlet of cylinder outer wall.

Above-mentioned technical proposal, using the design of annular web plate, and set in the cavity formed between annular web plate and roller Discharge outlet is put, then can open discharge outlet in roller rotation process, you can realize and Auto-drainage is carried out in roller rotation process, and Material can be isolated by annular web plate, avoid it from blocking discharge outlet, realize smooth draining, and drainage efficiency is high.

Described plugging device is that two chutes being parallel to each other, two chutes are provided with the discharge outlet of cylinder outer wall Opening towards between two chutes；Described discharge outlet is provided between two chutes and is used between two chutes The capping of discharge outlet is blocked, two engaging lugs are provided with the upper end of capping, through hole are provided with engaging lug, in through hole A locking bar is equipped with, the both ends extension of locking bar is inserted in the chute of both sides, and the locking bar both ends in chute are respectively arranged with arc The projection of shape, the centre of locking bar is provided with handle.The design of the structure, plugging device consolidating in cylinder outer wall can be facilitated It is fixed, and the positive effect of the opening and closing for discharge outlet, manipulate simple and convenient, efficiency high.

Wherein closed between two chutes of one end, caging bolt is provided between the chute of the other end.The structure Design, is avoided when opening discharge outlet, the situation that capping drops, it is ensured that the stable performance of equipment.

The quantity of annular web plate is two, and two annular web plates are separately positioned on the both sides of drums inside, and annular web plate A circumferential side wall and roller circumferential side wall between connect, another circumferential side wall of annular web plate and the axial side of roller Connected between wall, described annular web plate, the circumferential side wall of roller, roller axial side wall three between formed one it is annular Cavity.The design of the structure, influence of the annular web plate to the space of drums inside can be farthest reduced, and reduce ring network Influence of the plate to the rolling of fur in dyeing course, it is ensured that dyeability.

Described auxiliary agent material mechanism includes material bucket and the feed tube of being connected to feed hopper bottom, feed tube pass through the side Main shaft enter drums inside, and material plate is set in the circumferential side wall of drums inside, the circumferential side wall of material plate and roller Between formed one closing cavity, the feed tube of drums inside extends to the inside cavity, on the basis of roller rotation direction, A row or multi-row fluid hole is provided with the material plate of roller rotation direction front end, and the mouth of pipe of the feed tube in cavity is located at At the material plate of roller rotation direction rear end；The highest liquid level of the material bucket is more than inside maximum level during drum functions. Above-mentioned technical proposal, during practice, it is put into after auxiliary agent is diluted according to a certain percentage inside material bucket, turns in roller During dynamic, when the cavity that material plate and roller are formed enters under water, water enters cavity, when being rotated up, part from fluid hole Water is accumulated in cavity, and when the position of cavity is higher than the liquid level inside material bucket, the water in cavity can be flowed backward in material bucket Portion, the auxiliary agent inside material bucket is diluted, and when cavity is located to rotate from high to low, when the position of cavity is less than material bucket During the height of internal liquid level, then the liquid inside material bucket can be flowed into cavity and entered in roller and be diluted, and be repeated above-mentioned Process, after certain number, when the assistant concentration inside material bucket is consistent with assistant concentration in roller, then launched equal to auxiliary agent Finish.In said process, realized using the change in location of cavity in roller rotation process and a material bucket part is sent into out of roller Water is diluted to auxiliary agent is again sent into the partially liq after dilution in roller, certain number is repeated, so as to realize the throwing of auxiliary agent Enter more uniformly, dispersion effect more preferably, and need not be additionally provided power, steam etc., reduce steam input, reduce cost.

It is arranged in the feed tube of drums inside in axial side wall of the feed tube into roller side.The design energy of the structure Influence of the feed tube to roller dyeing course is avoided, material will not be stirred in roller.

It is maximum in the cavity that material plate is formed with roller when roller turns to material Board position and main spindle's are close Water accumulating volume is less than the molten product of material bucket.The structure can avoid because rotating speed compared with it is slow when material plate and the water formed by roller in cavity it is big Amount flows into material bucket and causes the situation of material bucket overflowing liquid, and safety in utilization is guaranteed.

It is arranged an escape pipe on feed tube in main shaft, escape pipe extends to drums inside, the escape pipe in roller The axial side wall of roller and the intersection of circumferential side wall are extended to by least two gas-distributing pipes.Two points if two gas-distributing pipes Angle between tracheae is 180 °, if being more than two gas-distributing pipes, gas-distributing pipe is tried one's best decile.Said structure can ensure that roller rotates During, drums inside is connected with external by escape pipe all the time so that inner and outer air pressure is in poised state all the time.

The escape pipe of cylindrical outer is extended to inside material bucket.Because escape pipe unavoidably can band during air is discharged Go out certain liquid, so as to be extended to material bucket, liquids recovery can be avoided influenceing neighboring area.

Described dry powder dye loading hopper includes loading hopper body, and described loading hopper body is the closing of a drawer type Cavity, sets the gallery ports for being used to feed on loading hopper body, and described loading hopper body is opened from the charging on roller It is inserted and secured at mouthful on cylinder；On the basis of roller rotation direction, it is located at roller in loading hopper body or gallery ports and rotates No.1 fluid hole is offered on the side of direction front end, wherein one end of the end face of the loading hopper body in roller is provided with one Number osculum, is provided with a rotary shaft in No.1 osculum side, after the cavity that rotary shaft is formed through loading hopper body The loading hopper body exterior extended to outside roller, it is provided with the side wall of the rotary shaft of drums inside for blocking No.1 draining The capping in hole, capping is driven to overlap or stagger with No.1 osculum when rotary shaft rotates；Also include a seal bootr, it is described Seal bootr be arranged in the side wall of drums inside, between seal bootr and the madial wall of roller formed one closing cavity, institute The charging opening stated is in the region that the cavity is covered, and described loading hopper body is entirely accommodated in the inside cavity； It is located in seal bootr on the surface or side of roller rotation direction front end and is provided with No. two fluid holes, is located at roller in seal bootr No. two osculums are provided with the surface or side of rotation direction rear end.Above-mentioned technical proposal, utilize the loading hopper of drawer type The design of body, while set gallery ports on loading hopper body, more easily can add dry powder dye, and by dry powder Dyestuff is enclosed in inside, in use, is broken up dry powder dye using Absorb Water, and needs repeatedly to be drawn to loading hopper sheet certainly The water in internal portion can just overcome rotator inertia gradually to discharge after reaching to a certain degree, so that dyestuff is fully dispersed, dilute strength Greatly.In roller rotation process, water can enter seal bootr and loading hopper body interior simultaneously, but during water outlet, add The water of hopper body interior can be then introduced into inside seal bootr, diluted again with the substantial amounts of water inside seal bootr so that Dye strength further reduces, and can greatly avoid the appearance of dyeing defect.The design of No. two osculums, when needing plus dyestuff, by It is discharged into the water of loading hopper body interior by No.1 osculum inside seal bootr and the water of itself can then passes through inside seal bootr No. two osculums discharge it, safer using process so as to there are flowing out when causing loading hopper body to extract out Reliably.

Described gallery ports are located at loading hopper body on the side of roller rotation direction front end, and described No.1 goes out liquid Hole position is on the side of the loading hopper body on gallery ports or where gallery ports.The design of the structure, loading hopper sheet can be realized Body is absorbed water when turning to low level, and water outlet is carried out when turning to high-order downward, so as to realize internal water in exiting water process It is maximum so that dry powder dye dilution is more uniform.

Inside cavity that No. two described osculums are formed between annular web plate and the circumferential side wall of roller or The inside cavity is extended to by pipeline.Due to being located at both sides, in rotation process, two in No. two osculums and No. two fluid holes When number fluid hole is above, now have a small amount of dye liquor after being diluted inside loading hopper body and seal bootr from The discharge of No. two osculums, if it is directly contacted with fur, sweater etc., dyeing defect still can be easily produced, therefore be drained to both sides, It is diluted with the water of two sides, performance further improves.

On the basis of roller rotation direction, be provided with baffle plate on the inner wall of rotary drum of seal bootr front end, described baffle plate with The spacing between No. two fluid holes on seal bootr is 5-30cm, preferably 10-20cm, optimal selection 15-20cm.And No. two The projection in fluid hole towards baffle plate direction is entirely located on baffle plate.Above-mentioned technical proposal, in roller rotation process, seal bootr is located at Eminence, baffle plate are located in front of seal bootr, are further continued for rotating, and baffle plate is contacted with water first, and material is compressed on to the front of baffle plate, So that the dye liquor inside the seal bootr at rear out accumulates in the rear of baffle plate, and the water progress at baffle plate rear is dilute again Release, directly will not be contacted with material, therefore can greatly improve the uniformity of dye liquor, avoid the dyestuff of discharge in seal bootr Directly contacted with material and cause dyeing defect.The control of 5-30cm spacing simultaneously, can realize can enter between baffle plate and seal bootr More water is diluted to dye liquor, improves efficiency, at the same be avoided that because spacing is excessive and caused by material enter between the two In spacing, the dye liquor for making to be expelled directly out in seal bootr contacts with material, and performance is greatly improved.

Described baffle plate is arc in the section of roller axial direction, and the circle of arc is located at the side where loading hopper.Should The design of structure, water can be more easily accumulated between baffle plate and loading hopper so that the dilution of dye liquor is more stable.

The radical length of described baffle plate is the 10-70% of radius roller.The design of the structure, preferably material can be kept off In the front of baffle plate, stable performance.

For the dyeing to different materials such as fur, woollen sweaters, then in addition to one piece of baffle plate of seal bootr front end, in roller What is be spaced on wall is provided with the driving lever of polylith baffle plate or multiple radial directions.If being dyed to sheep cropping, general use sets several pieces again Baffle plate；But multiple driving levers are arranged at intervals again to woolen sweater dyeing, general use.

In above-mentioned each technical scheme, propose on the basis of roller rotation direction, it refers to roller in dyeing material process In roller rotation direction.

A kind of perforated cylinder dyeing machine obtained by the utility model, can realize that roller directs out draining, and can by material every From in drums inside, at the same can effective dry powder dye and auxiliary agent be uniformly dispersed, steam usage amount reduces, and energy resource consumption is low, adds Work efficiency rate is improved.

Brief description of the drawings

Fig. 1 is structural representation of the present utility model；

Fig. 2 is the structural representation of the utility model auxiliary agent material mechanism；

Fig. 3 is structural representation when the utility model installs multiple baffle plates；

Fig. 4 is structural representation when the utility model installs multiple driving levers；

Fig. 5 is the structural representation of the dry powdered hopper of the utility model；

Fig. 6 is this Fig. 3 close-up schematic view；

Fig. 7 is the structural representation of loading hopper body of the present utility model；

Fig. 8 is the side view of loading hopper body of the present utility model；

Fig. 9 is mounting structure schematic diagram of the loading hopper body of the present utility model on roller；

Figure 10 is the utility model Fig. 1 close-up schematic view；

Figure 11 is the structural representation of plugging device of the present utility model.

Embodiment

Below by embodiment combination accompanying drawing, the utility model will be further described.

Embodiment 1：

As shown in figure 1, a kind of perforated cylinder dyeing machine of the present embodiment description, it includes roller 2, and the circumferential side wall of roller 2 is Double-decker, described roller 2 are connected in frame 1 by main shaft 3, and steam is equipped with the center of main shaft 3 of the side of roller 2 Input channel 4 and steam output pipe 5, set actuating unit 6 to drive roller 2 to rotate in frame 1, set in the opposite side of roller 2 Auxiliary agent material mechanism is equipped with, auxiliary agent material mechanism is extended to inside roller 2 by the main shaft 3 of the side, in the inner circumferential wall of roller 2 Material gate and dry powder dye loading hopper 13 are respectively arranged with, two annular web plates are provided with the circumferential side wall inside roller 2 16, above-mentioned two annular web plate 16 is separately positioned on the both sides inside roller 2, and a circumferential side wall of annular web plate 16 and rolling Connect, connected between another circumferential side wall of annular web plate 16 and the axial side wall of roller 2, institute between the circumferential side wall of cylinder 2 The annular web plate 16 stated, the circumferential side wall of roller 2, roller 2 axial side wall three between form an annular cavity, in chamber Several discharge outlet 17 are set in the circumferential side wall of the roller 2 in body location, set at the discharge outlet 17 of the outer wall of roller 2 For blocking the plugging device 18 of discharge outlet 17.

As shown in Figure 10, Figure 11, described plugging device 18 is that two phases are provided with the discharge outlet 17 of the outer wall of roller 2 Mutually parallel chute 18-1, two chute 18-1 opening are towards between two chute 18-1；Described discharge outlet 17 is two Between bar chute 18-1, the capping 18-2 for blocking discharge outlet 17 is provided between two chute 18-1, in capping 18-2 upper end is provided with two engaging lug 18-3, and through hole is provided with engaging lug 18-3, and a locking bar is equipped with through hole In the chute 18-1 of 18-4, locking bar 18-4 both ends extension insertion both sides, the locking bar 18-4 both ends in chute 18-1 are set respectively The raised 18-7 of arc is equipped with, locking bar 18-4 centre is provided with handle 18-5.

Closed between wherein two chute 18-1 of one end, caging bolt is provided between the chute 18-1 of the other end 18-6。

As shown in Fig. 2, Fig. 6, described auxiliary agent material mechanism includes material bucket 7 and is connected to the feed liquor of the bottom of material bucket 7 Pipe 8, feed tube 8 enters inside roller 2 through the main shaft 3 of the side, and material plate is set in the circumferential side wall inside roller 2 10, the cavity of a closing is formed between material plate 10 and the circumferential side wall of roller 2, the feed tube 8 inside roller 2 extends to this Inside cavity, on the basis of the rotation direction of roller 2, more discharge liquors are provided with the material plate 10 of the rotation direction front end of roller 2 Hole 11, and the mouth of pipe of the feed tube 8 in cavity is located at the material plate 10 of the rotation direction rear end of roller 2；The material bucket 7 is most High level is more than inside maximum level when roller 2 works.

Feed tube 8 inside roller 2 is arranged on feed tube 8 and entered in the axial side wall of the side of roller 2.

When roller 2 turns to the position of material plate 10 and main shaft 3 and is closely located to, chamber that material plate 10 is formed with roller 2 Internal maximum water accumulating volume is less than the molten product of material bucket 7.

An escape pipe 9 is arranged on feed tube 8 in main shaft 3, escape pipe 9 is extended to inside roller 2, in roller 2 Escape pipe 9 extends to the axial side wall of roller 2 and the intersection of circumferential side wall by multiple gas-distributing pipes 12.Three gas-distributing pipes 12, Then gas-distributing pipe 12 try one's best decile.It may be otherwise and more gas-distributing pipes 12 are set, and be evenly arranged in the axial side wall of roller 2 On, it can preferably realize that inner air and outer air balances, the escape pipe 9 outside roller 2 is extended to inside material bucket 7.

As shown in Fig. 5, Fig. 7, Fig. 8, described dry powder dye loading hopper 13 includes loading hopper body 13-1, described charging Struggled against the closed cavity that body 13-1 is a drawer type, and the gallery ports for being used to feed are set on loading hopper body 13-1 13-3, described loading hopper body 13-1 are inserted and secured on cylinder from the charging opening on roller 2；Rotated with roller 2 On the basis of direction, it is located in loading hopper body 13-1 or gallery ports 13-3 on the side of the rotation direction front end of roller 2 and offers one Number fluid hole 13-6, wherein one end of the end face of the loading hopper body 13-1 in roller 2 are provided with No.1 osculum 13-16, A rotary shaft 13-9 is provided with No.1 osculum 13-16 sides, rotary shaft 13-9 is formed through loading hopper body 13-1 Cavity after extend to outside the loading hopper body 13-1 outside roller 2, set in the side wall of the rotary shaft 13-9 inside roller 2 There is the capping 13-4 for blocking No.1 osculum 13-16, drive capping 13-4 to be arranged with No.1 when rotary shaft 13-9 is rotated Water hole 13-16 is overlapped or staggered；Also the side inside roller 2 is arranged on including seal bootr a 13-2, described seal bootr 13-2 On wall, the cavity of a closing is formed between the madial wall of seal bootr 13-2 and roller 2, described charging opening is located at the cavity In the region covered, and described loading hopper body 13-1 is entirely accommodated in the inside cavity；In seal bootr 13-2 positioned at rolling No. two fluid hole 13-7 are provided with the surface of 2 rotation direction front ends of cylinder, are located at the rotation direction rear end of roller 2 in seal bootr 13-2 Side on be provided with No. two osculum 13-5.

Described gallery ports 13-3 is located at loading hopper body 13-1 on the side of the rotation direction front end of roller 2, and described No.1 fluid hole 13-6 be located on gallery ports 13-3.

In the cavity that No. two described osculum 13-5 are formed between annular web plate 16 and the circumferential side wall of roller 2 Portion.

A straight hollow tube 13-8, hollow tube 13-8 is set to penetrate whole loading hopper inside loading hopper body 13-1 Body 13-1, and described rotary shaft 13-9 passes through hollow tube 13-8, and it is close between rotary shaft 13-9 and loading hopper body 13-1 Envelope connection.The design of the structure can make it that loading hopper body 13-1 sealing effect is more preferable, and internal liquid will not flow to roller 2 At outside rotary shaft 13-9.

Turning handle 13-10 is provided with the rotary shaft 13-9 outside loading hopper body 13-1, rotates and is covered in turning handle 13-10 It is provided with the raised 13-11 of arc in the range of lid, described raised 13-11 is in turning handle 13-10 rotation directions from one end to another One end thickness gradually increases, and when turning handle 13-10 turns to convex 13-11 and plays peak, the closure of the rotary shaft 13-9 other ends Lid 13-4 overlaps with No.1 osculum 13-16.The structure can facilitate the locking to rotary shaft 13-9, simple and convenient.

As shown in fig. 7, described gallery ports 13-3 one end is hinged with loading hopper body 13-1, the relative other end adds One locking device is set on bin gate 13-3, and the locking device includes two fixing pipe 13-13 linearly set and one The elastomeric grip 13-12 of arc, elastomeric grip 13-12 both ends are straight latch 13-14, and two latch 13-14 are inserted respectively Enter inside fixing pipe 13-13, wherein the fixing pipe 13-13 close to loading hopper body 13-1 sides is lacked being axially formed an arc Mouth 13-15, and sides of the arc notch 13-15 between two fixing pipe 13-13；In its natural state, elastomeric grip Minimum spacing between the latch 13-14 at 13-12 both ends is more than the maximum spacing between two fixing pipe 13-13；And elastic When hand 13-12 is at the maximum spacing between two fixing pipe 13-13, a latch 13-14 insertion loading hopper bodies 13-1 It is internal.The structure can the simpler locking between gallery ports 13-3 and loading hopper body 13-1.

As shown in figure 9, charging opening both sides are symmetrically arranged with a sleeve pipe 13-17 on roller 2, set in sleeve pipe 13-17 The locking bar 13-18 of a rotation is equipped with, locking bar 13-18 is moved in sleeve pipe 13-17, when locking bar 13-18 is moved inward, locking bar 13-18 end is located at loading hopper body 13-1 outside, and arc convex 13-19, locking bar 13- are provided with locking bar 13-18 Loading hopper body 13-1 is pressed on charging open interior by 18 rotations using arc convex 13-19.The structure can be simpler Loading hopper body 13-1 is locked on roller 2, manipulated simple and convenient.

On the basis of the rotation direction of roller 2, baffle plate 14 is provided with the inwall of roller 2 of seal bootr 13-2 front ends, it is described Baffle plate 14 and seal bootr 13-2 on No. two fluid hole 13-7 between spacing be 10cm, and No. two fluid hole 13-7 are towards baffle plate The projection in 14 directions is entirely located on baffle plate 14.

Described baffle plate 14 is arc in the section of the axial direction of roller 2, and the circle of arc is located at the side where loading hopper. The radical length of described baffle plate 14 is the 30% of the radius of roller 2.

As shown in figure 3, in addition to one piece of baffle plate 14 of seal bootr 13-2 front ends, being provided with for being spaced on the inwall of roller 2 is more Block baffle plate 14.

Embodiment 2：

As shown in figure 4, a kind of perforated cylinder dyeing machine of the present embodiment description, the difference of itself and embodiment 1 are：Only closing Outside one piece of baffle plate 14 for covering 13-2 front ends, remaining is not provided with baffle plate 14, but what is be spaced on the inwall of roller 2 is provided with multiple footpaths To driving lever 15.

On the basis of the rotation direction of roller 2, baffle plate 14 is provided with the inwall of roller 2 of seal bootr 13-2 front ends, it is described Baffle plate 14 and seal bootr 13-2 on No. two fluid hole 13-7 between spacing be 15cm, and No. two fluid hole 13-7 are towards baffle plate The projection in 14 directions is entirely located on baffle plate 14.

Claims (8)

1. a kind of perforated cylinder dyeing machine, it includes roller, and the circumferential side wall of roller is double-decker, and described roller is connected by main shaft It is connected in frame, the alignment of shafts in the side of roller is equipped with steam input pipe road and steam output pipe, is set in frame Putting actuating unit drives roller to rotate, it is characterized in that：Roller opposite side is provided with auxiliary agent material mechanism, auxiliary agent material mechanism leads to The main shaft for crossing the side extends to drums inside, and material gate and dry powder dye loading hopper are respectively arranged with roller inner circumferential wall, It is provided with one or more annular web plate in the circumferential side wall of drums inside, shape between the circumferential side wall of annular web plate and roller Into cavity, several discharge outlet are set in the circumferential side wall of the roller in cavity location, in the discharge outlet of cylinder outer wall Place is provided for blocking the plugging device of discharge outlet.

2. a kind of perforated cylinder dyeing machine according to claim 1, it is characterized in that：Described auxiliary agent material mechanism includes material bucket And the feed tube of being connected to feed hopper bottom, feed tube enter drums inside through the main shaft of the side, and in the week of drums inside Material plate is set on to side wall, the cavity of a closing is formed between material plate and the circumferential side wall of roller, drums inside enters Liquid pipe extends to the inside cavity, on the basis of roller rotation direction, is provided with the material plate of roller rotation direction front end A row or multi-row fluid hole, and the mouth of pipe of the feed tube in cavity is located at the material plate of roller rotation direction rear end；Describedization The highest liquid level of hopper is more than inside maximum level during drum functions.

3. a kind of perforated cylinder dyeing machine according to claim 2, it is characterized in that：One is arranged on feed tube in main shaft to go out Tracheae, escape pipe extend to drums inside, and the escape pipe in roller extends to the axial side of roller by least two gas-distributing pipes The intersection of wall and circumferential side wall；The escape pipe of cylindrical outer is extended to inside material bucket.

4. according to a kind of perforated cylinder dyeing machine described in claim 1 or 2 or 3, it is characterized in that：Described dry powder dye loading hopper bag Loading hopper body is included, described loading hopper body is the closed cavity of a drawer type, and a use is set on loading hopper body In the gallery ports of charging, described loading hopper body is inserted and secured on cylinder from the charging opening on roller；With roller On the basis of rotation direction, it is located in loading hopper body or gallery ports and offers No.1 on the side of roller rotation direction front end and go out liquid Hole, wherein one end of the end face of the loading hopper body in roller are provided with No.1 osculum, are set in No.1 osculum side There is a rotary shaft, the loading hopper body exterior outside roller extended to after the cavity that rotary shaft is formed through loading hopper body, The capping for blocking No.1 osculum is provided with the side wall of the rotary shaft of drums inside, envelope is driven when rotary shaft rotates Blanking cover is overlapped or staggered with No.1 osculum；Also include a seal bootr, described seal bootr is arranged on the side wall of drums inside On, a cavity closed is formed between seal bootr and the madial wall of roller, described charging opening is located at the cavity and covered Region in, and described loading hopper body is entirely accommodated in the inside cavity；It is located at roller rotation direction front end in seal bootr Surface or side on be provided with No. two fluid holes, be located in seal bootr on the surface or side of roller rotation direction rear end It is provided with No. two osculums.

5. a kind of perforated cylinder dyeing machine according to claim 4, it is characterized in that：No. two described osculums are located at annular web plate The inside cavity that is formed between the circumferential side wall of roller extends to the inside cavity by pipeline.

6. a kind of perforated cylinder dyeing machine according to claim 5, it is characterized in that：On the basis of roller rotation direction, closing Cover and baffle plate is provided with the inner wall of rotary drum of front end, the spacing between No. two fluid holes on described baffle plate and seal bootr is 5- 30cm, and the projection in No. two fluid holes towards baffle plate directions is entirely located on baffle plate.

7. a kind of perforated cylinder dyeing machine according to claim 6, it is characterized in that：In addition to one piece of baffle plate of seal bootr front end, What is be spaced on inner wall of rotary drum is provided with the driving lever of polylith baffle plate or multiple radial directions.

8. a kind of perforated cylinder dyeing machine according to claim 1, it is characterized in that：The quantity of annular web plate is two, two rings Shape web plate is separately positioned on the both sides of drums inside, and connects between a circumferential side wall of annular web plate and the circumferential side wall of roller Connect, connected between another circumferential side wall of annular web plate and the axial side wall of roller, described annular web plate, the circumference of roller Side wall, roller axial side wall three between formed an annular cavity.