CN217895936U - Airflow dyeing machine with adjusting mechanism - Google Patents

Abstract

The utility model relates to an air current dyeing machine with adjustment mechanism, including frame, dyeing storehouse, guide roll, back flow, locate the component that sprays on the back flow, spray the component and include shunt tubes, honeycomb duct, shower nozzle, the shunt tubes is connected in the back flow, and the shunt tubes is scalable setting, and when the shunt tubes is flexible, the distance between two honeycomb ducts changes. Cloth moves along dyeing storehouse perisporium in the dyeing storehouse in the use, the back flow is retrieved the dye liquor of dyeing storehouse bottom and is got into the shunt tubes and follow the honeycomb duct entering shower nozzle again, spout the cloth through the shower nozzle at last and spray the dyeing to the cloth, and when the cloth between the shower nozzle of passing through is thick or when thinner, the distance between the honeycomb duct is adjusted to the flexible shunt tubes of accessible, make the distance between the shower nozzle change, with this distance between change shower nozzle and the cloth, make no matter cloth thickness size, the spray range of dye liquor all can be in invariable size, can make full use of dye liquor.

Description

Airflow dyeing machine with adjusting mechanism

Technical Field

The application relates to the field of dyeing machines, in particular to an airflow dyeing machine with an adjusting mechanism.

Background

In the production process of the cloth, the ornamental value of the cloth is improved through a dyeing process. Flow dyeing machines are dyeing apparatuses which are often used and whose principle is to disperse the dyeing liquid into tiny droplets by means of a hot air flow, which are spread over the surface of the cloth to achieve dyeing. However, in the use process of the airflow dyeing machine in the prior art, the same dyeing process is used regardless of the thickness, and the dyeing effect of the obtained cloth is different.

SUMMERY OF THE UTILITY MODEL

In order to reduce the difference in dyeing between cloths and to make full use of the dye liquor,

the application provides an airflow dyeing machine with adjustment mechanism adopts following technical scheme:

the utility model provides an air current dyeing machine with adjustment mechanism, includes the frame, installs the dyeing storehouse in the frame, locate and be used for driving the guide roll that the cloth transported forward along dyeing storehouse perisporium in the dyeing storehouse, locate on the dyeing storehouse and be used for the back flow of circulation dye liquor, locate and be used for spouting the spray component to the cloth with the dyestuff on the back flow, the spray component includes the shunt tubes, locates the honeycomb duct at shunt tubes both ends, installs in the shower nozzle of honeycomb duct orientation cloth one end, back flow play liquid end is connected in the shunt tubes, has the space that the cloth passes through between the shower nozzle, the shunt tubes is scalable setting, and when the shunt tubes is flexible, the distance between two honeycomb ducts changes.

Through adopting above-mentioned technical scheme, the cloth rotates along dyeing storehouse perisporium motion through the guide effect of guide roll in the dyeing storehouse in the use, the back is retrieved to the dye liquor of dyeing storehouse bottom in the back flow pipe, atomizing becomes small dye liquor granule, small dye liquor granule receives during the wind pressure gets into the shunt tubes, and in getting into the draft tube, spout through the shower nozzle at last and spray the dyeing to the cloth, and when the cloth between the shower nozzle of passing through is thick or thin, the distance between the draft tube is adjusted to the flexible shunt tubes of accessible, make the distance between the shower nozzle change, with this distance between change shower nozzle and the cloth, make no matter cloth thickness size, the spraying range of dye liquor all can be in invariable size, can make full use of dye liquor, it leads to spray the scope little because of the shower nozzle is too close to the cloth to appear in the reduction, and unable make full use of dye liquor, or lead to the not good condition of dyeing effect because of the shower nozzle is too far away from the cloth.

Optionally, be equipped with the cloth guide pipeline that direction cloth was transmitted along dyeing storehouse internal perisporium in the dyeing storehouse, the honeycomb duct is including sliding the second water conservancy diversion section of wearing to locate first water conservancy diversion section on the cloth guide pipeline, being used for connecting first water conservancy diversion section and shunt tubes.

Through adopting above-mentioned technical scheme, when the cloth was through leading the cloth pipeline, the shower nozzle sprayed the dye liquor granule to the cloth, made the cloth dyeing, and lead the cloth pipeline and make the cloth can be stable along dyeing storehouse perisporium motion.

Optionally, the shunt tubes include first reposition of redundant personnel section, second reposition of redundant personnel section, be used for adjusting first still include the adjustment mechanism of first reposition of redundant personnel section and distance between the second reposition of redundant personnel section, adjustment mechanism includes that one end screw thread cover locates outside the first reposition of redundant personnel section and other end screw thread cover locates the outer rotatory cover of second reposition of redundant personnel section, is used for driving the rotatory drive assembly of rotatory cover, and the screw thread of rotatory cover and first reposition of redundant personnel section junction and the screw thread of rotatory cover and second reposition of redundant personnel section junction are reverse screw thread setting, and two honeycomb ducts are connected respectively in first reposition of redundant personnel section and are kept away from first reposition of redundant personnel section one end and first reposition of redundant personnel section one end is kept away from to second reposition of redundant personnel section.

Through adopting above-mentioned technical scheme, come the distance between the adjustment shower nozzle according to the thickness of cloth, when the cloth between the shower nozzle that passes through is thick, through rotatory swivel sleeve, make the distance between first reposition of redundant personnel section and the second reposition of redundant personnel section increase, make the distance between shower nozzle and the cloth increase, adjust the shower nozzle to suitable position, make the scope of spraying of shower nozzle be in suitable size, it is thinner when the cloth that passes through, the same with above-mentioned principle, the swivel sleeve of opposite direction rotation, make the distance between the shower nozzle reduce, the shower nozzle is close to the cloth, the scope of spraying changes.

Optionally, the driving assembly comprises a first bevel gear fixedly sleeved outside the rotating sleeve, a second bevel gear meshed with the first bevel gear, a connecting rod rotatably connected to the frame and having one end fixedly connected to the second bevel gear, and a rotating assembly used for driving the connecting rod to rotate, wherein the connecting rod penetrates through the inner wall of the dyeing bin, and the rotating assembly is arranged at one end of the connecting rod outside the dyeing bin.

Through adopting above-mentioned technical scheme, drive the connecting rod through the runner assembly and rotate to drive second conical gear, first conical gear follows second conical gear and rotates, and first conical gear drives the rotating sleeve and rotates, makes the distance between first reposition of redundant personnel section and the second reposition of redundant personnel section change.

Optionally, the backflow pipe is provided with an opening and closing valve for adjusting the flow of dye liquor particles, the opening and closing valve comprises a valve body arranged on the backflow pipe, a rotating shaft arranged on the valve body, and a valve block fixedly connected to the rotating shaft and having a diameter matched with the diameter of the inner ring of the valve body, the rotating shaft penetrates through the valve body and is rotatably connected to the valve body, and the valve block is rotatably connected to the inside of the valve body.

By adopting the technical scheme, the angle of the valve piece relative to the valve body is adjusted by rotating the rotating shaft, so that the quantity of dye liquor particles passing through the return pipe to the guide pipe is adjusted, and the quantity of the dye liquor particles sprayed by the spray head can be controlled.

Optionally, one end of the rotating shaft, which is located outside the valve body, is provided with a first rotating gear, the rotating assembly comprises a first gear fixedly connected to the connecting rod and far away from one end of a second bevel gear, a second gear meshed with the first gear, a rotating rod connected to the frame in a rotating manner and fixedly connected to the second gear, a third gear arranged on the rotating rod and far away from one end of the second gear, a fourth gear meshed with the third gear, a supporting rod connected to the frame in a rotating manner and fixedly connected to one side of the fourth gear, a second rotating gear arranged on the supporting rod and far away from one end of the fourth gear, the second rotating gear is meshed with the first rotating gear, and one end of the rotating rod is used for driving a handle rotating the rotating rod.

By adopting the technical scheme, when the distance between the spray heads and the number of dye liquor particles sprayed out by the spray heads need to be adjusted, the second gear is driven to rotate at the same time as the third gear by rotating the handle, the second gear rotates to drive the first gear and the connecting rod to rotate, the second bevel gear rotates along with the connecting rod and drives the first bevel gear and the rotary sleeve to rotate, so that the distance between the spray heads is adjusted, when the second gear rotates and drives the rotary sleeve to rotate, the third gear drives the fourth gear to rotate, the supporting rod and the second rotating gear rotate along with the fourth gear, the second rotating gear drives the first rotating gear and the rotating shaft to rotate, so that the valve plate rotates in the valve body, so that the number of the dye liquor particles passing through the valve plate is adjusted, the distance between the spray heads and the number of the dye liquor particles sprayed out by the spray heads can be adjusted at the same time by rotating the handle, and the operation is convenient.

Optionally, the dwang cross-section sets up for the rectangle, the second gear be equipped with on the third gear with the logical groove of dwang cross-section size looks adaptation, just the second gear sliding fit is on the dwang, the third gear sliding fit is on the dwang.

Through adopting above-mentioned technical scheme, when only need adjusting the distance between the shower nozzle, remove the fourth gear and keep away from the third gear along dwang length direction with the third gear, when making the dwang drive second gear and third gear rotation, only can follow the second gear by first gear and rotate, when only need adjusting shower nozzle spun dye liquor granule flow, remove the second gear along dwang length direction and keep away from first gear, when making the dwang take second gear rotation and third gear rotation, only the fourth gear can follow the third gear rotation, and the dwang cross-section establishes to the rectangle, can make second gear and third gear circumference be fixed in the dwang, and sliding fit in the dwang.

Optionally, two first limiting blocks are arranged on the rotating rod along the length direction of the rotating rod, and the two first limiting blocks are respectively positioned on two sides of the second gear; when the second gear is abutted against the first limiting block close to one side of the dyeing bin, the second gear is meshed with the first gear; when the second gear is abutted against the first limiting block on one side far away from the dyeing bin, the second gear is meshed with the first gear; two second limiting blocks are further arranged on the rotating rod along the length direction of the rotating rod, and the two second limiting blocks are respectively positioned on two sides of the third gear; when the third gear is abutted against a second limiting block on one side far away from the dyeing bin, the third gear is meshed with the fourth gear; when the third gear is abutted against the second limiting block close to the dyeing bin, the third gear is meshed with the fourth gear.

Through adopting above-mentioned technical scheme, first stopper can play the effect of injecing to the direction of motion of second gear, and the second stopper plays spacing effect to the direction of motion of third gear for second gear and third gear can be stable move along dwang length direction.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the distance between the spray heads can be adjusted to adapt to the cloth with different thicknesses, so that the spraying range is kept at a constant size, and the dye liquor is fully utilized;

2. the distance between the spray heads and the amount of dye liquor particles sprayed by the spray heads can be adjusted simultaneously, so that the operation is more convenient.

Drawings

Fig. 1 is a perspective view of the structure of the present embodiment.

Fig. 2 is a sectional view of the shower member in the present embodiment.

Fig. 3 is a side view of the present embodiment.

Fig. 4 is a structural perspective view of the adjustment member in the present embodiment.

Description of reference numerals: 1. a dyeing bin; 2. a guide roller; 3. a return pipe; 31. opening and closing the valve; 3101. a valve body; 3102. a rotating shaft; 3103. a valve plate; 32. a hose; 4. a support; 5. a shunt tube; 501. a first flow splitting section; 502. a second flow splitting section; 6. a flow guide pipe; 601. a first flow guide section; 602. a second flow guide section; 7. a spray head; 8. a cloth guide pipeline; 9. a fixed mount; 10. a rotating sleeve; 11. a first bevel gear; 12. a second bevel gear; 13. a connecting rod; 14. a mounting frame; 15. a first support frame; 16. a second support frame; 17. a first gear; 18. a second gear; 19. rotating the rod; 1901. a handle; 1902. a first stopper; 1903. a second limiting block; 20. a third gear; 21. a fourth gear; 22. a support bar; 23. a first rotating gear; 24. a second rotating gear.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses air current dyeing machine with adjustment mechanism. Referring to fig. 1 and 2, the airflow dyeing machine with the adjusting mechanism comprises a frame, a dyeing bin 1 mounted on the frame, a guide roller 2, a return pipe 3 arranged on the dyeing bin and used for recovering a dye solution at the bottom of the dyeing bin 1, and a spraying component. The frame includes support 4, and dyeing storehouse is installed on support 4, sprays the component including locating shunt tubes 5 in dyeing storehouse 1, locate the honeycomb duct 6 at shunt tubes 5 both ends, locate on honeycomb duct 6 and towards the shower nozzle 7 of cloth, and has the space that the cloth passes through between the shower nozzle 7, and shunt tubes 5 middle part is connected with back flow 3.

In the use, the cloth passes through the guide effect of guide roll 2, move along 1 internal perisporium in dyeing storehouse, the dye liquor of 1 bottom in dyeing storehouse atomizes into small dye liquor granule through 3 back flows, the dye liquor granule passes through shunt tubes 5 and gets into honeycomb duct 6, when the cloth passes through the space between shower nozzle 7, shower nozzle 7 sprays the dye liquor granule to the cloth, make the cloth surface spray the dye liquor, the cloth passes through guide roll 2 at dyeing storehouse internal perisporium round trip movement, receive shower nozzle 7's the effect of spraying many times, make the cloth dyeing shaping.

Referring to fig. 3 and 4, a cloth guide pipeline 8 installed on the frame is further arranged in the dyeing bin, the frame further includes a fixing frame 9 installed on the inner wall of the dyeing bin 1, the fixing frame 9 is fixedly connected to two ends of the cloth guide pipeline 8, the guide pipe 6 is arranged in an L shape, the guide pipe 6 includes a first guide section 601 connected to the side wall of the cloth guide pipeline 8 in a sliding manner, and a second guide section 602 used for connecting the first guide section 601 with the shunt pipe 5, the spray head 7 is connected to the first guide section 601, and the spray head 7 is arranged in the cloth guide pipeline 8. The shunt tube 5 is a telescopic arrangement, the shunt tube 5 comprises a first shunt section 501 and a second shunt section 502, one end of the first shunt section 501, which is far away from the second shunt section 502, is connected with a second flow guide section 602, one end of the second shunt section 502, which is far away from the first shunt section 501, is connected with the second flow guide section 602, when the shunt tube 5 is telescopic, the distance between the flow guide tubes 6 is changed, and a hose 32 is arranged at the connection position of the return tube 3 and the first shunt section 501.

The shunt tube 5 is further provided with an adjusting mechanism, and the adjusting mechanism comprises a rotary sleeve 10 arranged at the joint of the first shunt section 501 and the second shunt section 502, a first bevel gear 11 sleeved outside the rotary sleeve 10, a second bevel gear 12 meshed with the first bevel gear 11, a connecting rod 13 fixedly connected to the second bevel gear 12, and a rotating assembly for driving the connecting rod 13 to rotate. Outside first reposition of redundant personnel section 501 was located to rotatory cover 10 one end screw thread cover, outside second reposition of redundant personnel section 502 was located to other end screw thread cover, and two screw threads were reverse setting, outside connecting rod 13 kept away from second bevel gear 12 one end and locates dyeing storehouse 1, connecting rod 13 rotates to be connected in dyeing storehouse 1 outer wall, and rotating assembly locates outside dyeing storehouse 1.

The return pipe 3 is provided with an on-off valve 31 for adjusting the flow rate of dye liquor particles passing through the return pipe 3, the on-off valve 31 comprises a valve body 3101 arranged on the return pipe 3, a valve plate 3103 rotationally connected in the valve body 3101, and a rotating shaft 3102 which is used for driving the valve plate 3103 to rotate and penetrates through the valve body 3101 and the valve plate 3103, and the rotating shaft 3102 is coaxial with the center line of the valve plate 3103.

In the use, the cloth receives the guide effect of guide roll 2, moves along 1 inner wall in dyeing storehouse, and when leading cloth pipeline 8, the dyestuff granule is dyed the cloth from 7 blowout of shower nozzle. When the thickness of the cloth passing through the cloth guiding pipeline 8 is too thick, the rotating assembly drives the connecting rod 13 and the second bevel gear 12 to rotate, and the second bevel gear 12 rotates to drive the first bevel gear 11 and the rotating sleeve 10 to rotate, so that the distance between the first branch segment 501 and the second branch segment 502 is increased, the distance between the nozzles 7 is further adjusted, and the nozzles 7 are far away from the cloth. When the cloth is too thin, the connecting rod 13 and the second bevel gear 12 are driven by the rotating component to rotate reversely, so that the spray head 7 is close to the cloth. The spray head 7 is adjusted to adapt to the cloth with different thicknesses, so that the spray range of the spray head 7 to the cloth is kept in a constant range, and when the second flow-dividing section 502 is close to or far away from the first flow-dividing section 501, the hose 32 can move along with the second flow-dividing section 502 due to the soft characteristic. And the valve plate 3103 can be driven to rotate in the valve body 3101 by rotating the rotating shaft 3102, and the flow rate of dye granules sprayed by the spray head 7 can be adjusted by changing the angle of the valve plate 3103 relative to the valve body 3101 to adjust the flow rate of the dye granules passing through the backflow pipe 3.

Referring to fig. 3 and 4, the rack further includes a mounting frame 14 having one end fixedly connected to the outer wall of the dyeing compartment 1, a first support frame 15 mounted on the mounting frame 14, and a second support frame 16 mounted on the mounting frame 14. The rotating assembly comprises a first gear 17 fixedly connected to one end of the connecting rod 13 far away from the second bevel gear 12, a second gear 18 meshed with the first gear 17, a rotating rod 19 in sliding fit with the second gear 18 and rotatably connected to the first support frame 15, a third gear 20 arranged at one end of the rotating rod 19 far away from the second gear, a fourth gear 21 meshed with the third gear 20, a support rod 22 connected to one side of the fourth gear 21 close to the on-off valve 31 and rotatably connected to the second support frame 16, a second rotating gear 24 fixedly connected to one end of the support rod 22 far away from the fourth gear 21, and a first rotating gear 23 fixedly connected to the upper end of the rotating shaft 3102 and meshed with the second rotating gear 24, wherein a handle 1901 used for driving the rotating rod 19 to rotate is arranged on the rotating rod 19, and the first rotating gear 23 and the second rotating gear 24 are both conical gears. The third gear 20 is slidably fitted on the rotating rod 19, and the cross section of the rotating rod 19 is rectangular. Third gear 20 all is equipped with the logical groove that supplies dwang 19 to pass through on second gear 18, leads to the size of groove and in dwang 19 size looks adaptation. Two first stopper 1902 are fixed to be equipped with on the dwang 19, locate second gear 18 both sides respectively, and form between two first stopper 1902 and supply second gear 18 to be close to or keep away from a distance of first gear 17. And two second limit blocks 1903 are further fixedly arranged on the rotating rod 19, and a distance for the third gear 20 to approach or leave the fourth gear 21 is formed between the two second limit blocks 1903. The first stopper 1902 and the second stopper 1903 are made of magnet material.

When the distance between the nozzles 7 and the angle of the valve plate 3103 relative to the valve body 3101 need to be adjusted simultaneously, the rotating rod 19 is driven to rotate by rotating the handle 1901, so that the third gear 20 rotates along with the rotating rod 19 at the second gear 18, the second gear 18 drives the first gear 17 and the connecting rod 13 to rotate, the second bevel gear 12 rotates along with the connecting rod 13 and drives the first bevel gear 11 and the rotating sleeve 10 to rotate, and the distance between the nozzles 7 is changed. And the third gear 20 and the second gear 18 rotate simultaneously, the third gear 20 drives the fourth gear 21 and the support rod 22 to rotate, the second rotating gear 24 rotates along with the support rod 22 and drives the first rotating gear 23 to rotate, and the first rotating gear 23 rotates to drive the rotating shaft 3102 and the valve plate 3103 to rotate, so that the angle of the valve plate 3103 relative to the valve body 3101 is adjusted.

When only the distance between the nozzles 7 needs to be adjusted, the third gear 20 is moved along the length of the rotating rod 19 and abuts against the second limit block 1903 on the side close to the first support frame 15, so that the third gear 20 is far away from the fourth gear 21, so that when the rotating rod 19 rotates, only the second gear 18 drives the first gear 17 to rotate, when only the angle of the valve plate 3103 relative to the valve body 3101 needs to be adjusted, the second gear 18 is moved along the length direction of the rotating rod 19 and abuts against the first limit block 1902 on the side close to the first support frame 15, and so that the second gear 18 is far away from the first gear 17, and the third gear 20 is moved along the length direction of the rotating rod 19 and abuts against the second limit block 1903 on the side far away from the first support frame 15, so that the third gear 20 is close to and engages with the fourth gear 21, so that when the rotating rod 19 rotates, only the third gear 20 drives the fourth gear 21 to rotate. The first limiting block 1902 limits the moving direction of the second gear 18, and the second limiting block 1903 limits the moving direction of the third gear 20, so that the second gear 18 and the third gear 20 can stably move in a predetermined direction, and the first limiting block 1902 and the second limiting block 1903 are arranged by magnets, so that the second gear 18 and the third gear 20 can be more stably connected to the rotating rod 19 when the rotating rod 19 rotates.

The implementation principle of the airflow dyeing machine with the adjusting mechanism in the embodiment of the application is as follows: the cloth passes through the guide effect of guide roll 2 and moves along dyeing storehouse 1 perisporium, and the dyestuff granule sprays on the cloth through the spray component, and when the cloth thickness of shower nozzle 7 that passes through is different, drive connecting rod 13 and second cone gear 12 through the rotating member and rotate for first cone gear 11 and swivel nut 10 rotate along second cone gear 12, and swivel nut 10 rotates and makes the distance between first reposition of redundant personnel section 501 and the second reposition of redundant personnel section 502 change, changes the distance between the honeycomb duct 6 and the distance between the shower nozzle 7 with this. The distance between the spray heads 7 and the cloth is changed by adjusting the distance between the spray heads 7, and the spraying range of the spray heads 7 to the cloth is kept in a constant size no matter the thickness of the cloth passing through, so that the dye can be fully utilized.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides an airflow dyeing machine with adjustment mechanism, includes the frame, installs dyeing storehouse (1) in the frame, locate in dyeing storehouse (1) be used for driving cloth along guide roll (2) of dyeing storehouse (1) perisporium forward transport, locate on dyeing storehouse (1) and be used for circulating back flow (3) of dye liquor, locate back flow (3) on be used for spouting the dyestuff to the component that sprays of cloth, its characterized in that: spray the component and include shunt tubes (5), locate honeycomb duct (6) at shunt tubes (5) both ends, install in honeycomb duct (6) towards one end of cloth shower nozzle (7), back flow (3) play liquid end is connected in shunt tubes (5), has the space that the cloth passes through between shower nozzle (7), shunt tubes (5) are scalable setting, and when shunt tubes (5) are flexible, the distance between two honeycomb ducts (6) changes.

2. Airflow dyeing machine with adjustment mechanism according to claim 1, characterized in that: be equipped with guide cloth in dyeing storehouse (1) along guide cloth pipeline (8) of dyeing storehouse (1) internal perisporium transmission, honeycomb duct (6) are including sliding first water conservancy diversion section (601) of wearing to locate on guide cloth pipeline (8), second water conservancy diversion section (602) that are used for connecting first water conservancy diversion section (601) and shunt tubes (5).

3. Airflow dyeing machine with adjustment mechanism according to claim 2, characterized in that: shunt tubes (5) include first reposition of redundant personnel section (501), second reposition of redundant personnel section (502), be used for adjusting first still include first reposition of redundant personnel section (501) and second reposition of redundant personnel section (502) between the adjustment mechanism of distance, adjustment mechanism includes that one end screw thread cover locates first reposition of redundant personnel section (501) outer and other end screw thread cover locates outer rotatory cover (10) of second reposition of redundant personnel section (502), be used for driving rotatory cover (10) rotatory drive assembly, and the screw thread of rotatory cover (10) and first reposition of redundant personnel section (501) junction and the screw thread of rotatory cover (10) and second reposition of redundant personnel section (502) junction are reverse screw thread setting, two honeycomb ducts (6) are connected respectively in first reposition of redundant personnel section (501) and are kept away from second reposition of redundant personnel section (502) one end and second reposition of redundant personnel section (502) and are kept away from first reposition of redundant personnel section (501) one end.

4. Airflow dyeing machine with adjustment mechanism according to claim 3, characterized in that: drive assembly locates outer first conical gear (11) of swivel mount (10), meshing in second conical gear (12) of first conical gear (11), rotates and connects in the frame and one end fixed connection connecting rod (13) on second conical gear (12), is used for driving connecting rod (13) pivoted rotating assembly including fixed cover, connecting rod (13) pass dyeing storehouse (1) inner wall, rotating assembly locates connecting rod (13) and is located the outer one end in dyeing storehouse (1).

5. Airflow dyeing machine with adjustment mechanism according to claim 4, characterized in that: be equipped with on back flow (3) and be used for adjusting opening and close valve (31) through dye liquor granule flow, open and close valve (31) including locating valve body (3101) on back flow (3), locating pivot (3102) on valve body (3101), fixed connection in pivot (3102) go up diameter and valve block (3103) of valve body (3101) inner circle diameter looks adaptation, pivot (3102) pass valve body (3101) and rotate and connect in valve body (3101), valve block (3103) rotate and connect in valve body (3101).

6. Airflow dyeing machine with adjustment mechanism according to claim 5, characterized in that: the one end that pivot (3102) are located outside valve body (3101) is equipped with first rotation gear (23), the runner assembly includes that fixed connection keeps away from first gear (17) that second cone gear (12) were served in connecting rod (13), second gear (18) that mesh in first gear (17), rotation is connected in the frame and fixed connection in dwang (19) of second gear (18), locate third gear (20) that dwang (19) kept away from second gear (18) one end, fourth gear (21) that mesh in third gear (20), rotation is connected in the frame and fixed connection is close to bracing piece (22) of opening and close valve (31) one side in fourth gear (21), locate second rotation gear (24) of keeping away from fourth gear (21) one end on bracing piece (22), and second rotation gear (24) and first rotation gear (23) meshing dwang, dwang (19) one end is used for driving (19) pivoted handle (1901).

7. Airflow dyeing machine with adjustment mechanism according to claim 6, characterized in that: dwang (19) cross-section is the rectangle setting, second gear (18) be equipped with on third gear (20) with dwang (19) cross-section size looks adaptation lead to the groove, just second gear (18) sliding fit is on dwang (19), third gear (20) sliding fit is on dwang (19).

8. Airflow dyeing machine with adjustment mechanism according to claim 7, characterized in that: two first limiting blocks (1902) are arranged on the rotating rod (19) along the length direction of the rotating rod, and the two first limiting blocks (1902) are respectively positioned at two sides of the second gear (18); when the second gear (18) is abutted against the first limiting block (1902) close to one side of the dyeing bin (1), the second gear (18) is meshed with the first gear (17); when the second gear (18) is abutted against the first limiting block (1902) at one side far away from the dyeing bin (1), the second gear (18) is meshed with the first gear (17); two second limiting blocks (1903) are further arranged on the rotating rod (19) along the length direction of the rotating rod, and the two second limiting blocks (1903) are respectively located on two sides of the third gear (20); when the third gear (20) is abutted against a second limit block (1903) on one side far away from the dyeing bin (1), the third gear (20) is meshed with the fourth gear (21); when the third gear (20) is abutted against a second limiting block (1903) close to the dyeing bin (1), the third gear (20) is meshed with the fourth gear (21).

Images