CN114481509A - Dye cup charge device - Google Patents

Abstract

The invention discloses a medicine adding device for a dyeing cup, which relates to the technical field of textile sample dyeing and finishing equipment and comprises a dyeing cup consisting of a cup body and a cup cover, a supporting component, a driving component and a medicine adding rod, wherein the supporting component supports the driving component, and the driving component drives the dyeing cup to rotate; the dyeing cup is provided with a dosing port, and the dosing rod penetrates through the driving assembly to dose the dosing port. Compared with an assembly with one end providing rotary power and a dyeing cup dosing device with an assembly with one end providing dosing, the dyeing cup dosing device is simpler in structure and saves occupied space; the top of the dosing head is sealed with a funnel-shaped dosing port, and the liquid medicine in the dyeing cup is prevented from splashing out in the dosing process or the rotation process of the dyeing cup; thereby hollow extension axle front end extends to supporting component and puts cup mechanism fixed connection and drive and put cup mechanism at the supporting component internal rotation, add the medicine pole run through in hollow extension axle, the top seal adds the medicine mouth, realizes dyeing the dynamic of cup rotation in-process and adds the medicine, makes fabric and liquid medicine fully collide, ensures the dyeing homogeneity.

Description

Dye cup charge device

Technical Field

The invention relates to the technical field of textile sample dyeing and finishing equipment, in particular to a dyeing cup dosing device.

Background

In the textile dyeing process engineering, an auxiliary agent is generally required to be added so as to fix color or promote dyeing, and in the actual operation, the process is generally required to be suspended and manually added.

At present, some equipment with higher automation degree injects liquid through a dosing cup cover, and realizes automatic dosing of auxiliaries in the dyeing process in a mode of matching a dosing head, but in the dosing process, a dyeing cup and a motion assembly applying rotary force to the dyeing cup need to be stopped, and then liquid is injected in a top mode, and textile fabrics and dye liquor in the dyeing cup stop rotating and stirring in the process, so that the dye uniformity of textile fabric dyeing is influenced; when the liquid is statically injected at the top, the auxiliary agent (liquid medicine) is likely to be directly dripped on the textile, and the liquid in the cup is lacked for timely dissolution, thereby influencing the dyeing uniformity of the textile dyeing.

Also have the device that adds medicine for dyeing cup in the motion process in the market, for example one end provides the subassembly of rotary power, and one end provides the subassembly of dosing that doses, and the structure is complicated relatively, has occupied operating space.

Disclosure of Invention

The invention provides a chemical feeding device for a dyeing cup. According to the dyeing cup dosing device, the dosing rod penetrates through the driving assembly to dose medicine to the dosing port, and compared with an assembly with one end providing rotary power and a dyeing cup dosing device with one end providing a dosing assembly, the dyeing cup dosing device is simpler in structure and saves occupied space; the top of the dosing head is sealed with the funnel-shaped dosing port, so that the dosing head and the funnel-shaped dosing port are tightly matched to dose the medicine to the dyeing cup, and the medicine liquid in the dyeing cup is prevented from splashing out in the dosing process or the rotation process of the dyeing cup; thereby hollow extension axle front end extends to supporting component and puts cup mechanism fixed connection and drive and put cup mechanism at the supporting component internal rotation, add the medicine pole run through in hollow extension axle, the top seal adds the medicine mouth, realizes dyeing the dynamic of cup rotation in-process and adds the medicine, makes fabric and liquid medicine fully collide, ensures the dyeing homogeneity.

The technical scheme is as follows: the utility model provides a dye cup charge device, includes that the cup of dying 1, the supporting component 2, the drive assembly 3 and the pole 4 that adds the medicine of compriseing cup 11 and bowl cover 12, its characterized in that: the supporting component 2 supports the driving component 3, and the driving component 3 drives the dyeing cup 1 to rotate; the dyeing cup 1 is provided with a dosing port 13, and the dosing rod 4 penetrates through the driving assembly 3 to dose the dosing port 13.

Further: the dosing port 13 is a funnel-shaped dosing port;

the front end of the dosing rod 4 is provided with a dosing head 42, and the dosing head 42 is provided with a top sealing structure matched with the funnel-shaped dosing port;

the medicine adding head 42 seals the funnel-shaped medicine adding opening in a propping manner, so that the medicine adding head 42 and the funnel-shaped medicine adding opening are tightly matched to add medicine into the dyeing cup 1, and the medicine liquid in the dyeing cup 1 is prevented from splashing out in the medicine adding process or the dyeing cup rotating process.

Further: the driving assembly 3 comprises a bearing driving mechanism 31 and a cup placing mechanism 32, the bearing driving mechanism 31 is fixedly connected with the cup placing mechanism 32, the cup placing mechanism 32 is arranged in the supporting assembly 2, and the cup placing mechanism 32 is used for placing the dyeing cup 1;

the driving mechanism 31 drives the bearing presenting driving mechanism 31 and the cup placing mechanism 32 to rotate in the supporting component 2, so as to drive the dyeing cup 1 placed on the cup placing mechanism 32 to rotate.

Further: the bearing driving mechanism 31 further comprises a first bearing seat 33, a hollow extending shaft 34 and a driven mechanism 35; the first bearing seat 33 is disposed at one side of the support assembly 2;

the driven mechanism 35 drives the hollow extension shaft 34 to rotate in the first bearing seat 33, and the front end of the hollow extension shaft 34 extends to the supporting component 2 and is fixedly connected with the cup placing mechanism 32 so as to drive the cup placing mechanism 32 to rotate in the supporting component 2;

the dosing rod 4 penetrates through the hollow extension shaft 34, seals the dosing opening at the top, and doses the dye cup 1.

Preferably: the other side of the support component 2 is provided with a second bearing seat 36, and the other side of the cup placing mechanism 32 is connected with the second bearing seat 36 in a matching way.

Preferably: the first bearing seat 33 is fixedly connected with a U-shaped limiting sheet 37, the middle part of the U-shaped limiting sheet 37 is provided with a clamping hole 371, and the rear end of the hollow extension shaft 34 extends to be close to the clamping hole 371 of the U-shaped limiting sheet 37.

Preferably: the rear end of the dosing rod 4 is provided with a clamping groove 43 and a spring 44, and the dosing rod 4 presses the spring 44 and then penetrates through a clamping hole 371 of the U-shaped limiting sheet 37;

the locking groove 43 is used for locking the locking hole 371: the rear end of the dosing rod 4 is limited in the U-shaped limiting sheet 37 and does not bounce outside; the phenomenon that the liquor splashes out when the liquor feeding rod 4 is pushed open the liquor feeding opening 13 after the pressure in the dyeing cup 1 is increased under the high-temperature state is prevented.

Optionally: the medicine adding port 13 is arranged on one side of the cup body 11; the dyeing cup 1 is vertically placed in the cup placing mechanism 32.

Optionally: the medicine feeding port 13 is arranged on the cup cover 12, and the dyeing cup 1 is transversely placed in the cup placing mechanism 32.

Optionally: the medicine feeding port 13 is arranged on the cup cover 12, the cup placing mechanism 32 is obliquely and fixedly connected with the hollow extending shaft 34, the dyeing cup 1 is obliquely placed in the cup placing mechanism 32, and the medicine feeding port 13 is aligned to the front end of the hollow extending shaft 34.

Preferably: the medicine feeding port 13 is a funnel-shaped medicine feeding port which extends towards the inside of the cup body or protrudes towards the outside of the cup body; the funnel-shaped medicine feeding port is provided with a connecting part which is in a ring shape with wide outside and narrow inside.

Preferably: the top seal structure of the dosing head 42 is provided with a groove, a sealing ring is arranged in the groove, and when the top seal structure seals the funnel-shaped dosing port, the liquid medicine is prevented from leaking in the dosing process or the dyeing cup rotating process.

Preferably: the cup body 11 is provided with cup nails 14, the driving component 3 is provided with buckling nails 38, and the tension buckling spring pulls the dyeing cup 1 by the cup nails 14 and the buckling nails 39.

Optionally: an automatic driving mode: the driving assembly 3 further comprises a driving motor and a driving wheel, wherein the driving motor drives the driving wheel to operate to drive the driven mechanism 35 to operate.

Optionally: manual driving mode: the driving assembly 3 further comprises a hand crank piece and a driving wheel, wherein the hand crank piece drives the driving wheel to operate to drive the driven mechanism 35 to operate.

Preferably: the dosing rod 4 can be connected with a dosing device.

Advantageous effects

1. According to the dyeing cup dosing device, the dosing rod penetrates through the driving assembly to dose medicine to the dosing port, and compared with an assembly with one end providing rotary power and an assembly with one end providing dosing, the dyeing cup dosing device is simpler in structure and saves occupied space.

2. The medicine adding head seals the funnel-shaped medicine adding opening, so that the medicine adding head and the funnel-shaped medicine adding opening are tightly matched to add medicine into the dyeing cup, and the medicine liquid in the dyeing cup is prevented from splashing in the medicine adding process or the dyeing cup rotating process.

3. The cup placing mechanism is arranged in the supporting component and is fixedly connected with the driving mechanism through the bearing, and compared with the similar device which drives the dyeing cup to rotate through the rotating cage structure, the structure is simpler.

4. Thereby hollow extension axle front end extends to supporting component and puts cup mechanism fixed connection and drive and put cup mechanism at the supporting component internal rotation, add the medicine pole run through in hollow extension axle, the top seal adds the medicine mouth, realizes dyeing the dynamic of cup rotation in-process and adds the medicine, makes fabric and liquid medicine fully collide, ensures the dyeing homogeneity.

5. As a preferred scheme, the two sides of the cup placing mechanism are arranged on the bearing seats at the two ends, so that the cup placing mechanism rotates more stably, and the cup dyeing dosing device provided by the invention has less vibration during operation.

6. The clamping groove clamps the clamping hole, and the rear end of the dosing rod is limited on the U-shaped limiting sheet and does not bounce outwards; the phenomenon that the liquor splashes out when the liquor feeding rod pushes the liquor feeding opening after the pressure in the dyeing cup is increased under the high-temperature state is prevented.

7. According to the dyeing cup, various schemes are arranged on the dye cup and the corresponding medicine adding port, and the adaptive corresponding solution can be selected according to the needs of a user.

8. The top seal structure of adding the medicine head is equipped with the recess, sets up the sealing washer in the recess, seals when top seal structure top the infundibulate adds the medicine mouth, prevents to add the medicine in-process or dye the rotatory in-process seepage liquid medicine of cup.

9. The cup body is provided with cup nails, the driving assembly is provided with fasteners, the cup dyeing is drawn by the pull fastener springs, and the cup dyeing is further prevented from falling off in the rotating process.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic view of the exploded structure of a dyeing cup dosing device in the specification;

FIG. 2 is a schematic diagram illustrating the structure of a dyeing cup dosing device;

FIG. 3 is a schematic view of the structure of the dosing rod in the specification;

FIG. 4 is a schematic view of a dye cup dosing device with a dye cup placed obliquely;

FIG. 5 is a schematic view of a dye cup dosing device with the dye cups placed upright.

Wherein, 1, dyeing the cup; 11. a cup body; 12. a cup cover; 13. a medicine adding port;

2. a support assembly;

3. a drive assembly; 31. the bearing is a driving mechanism; 32. a cup placing mechanism; 33. a first bearing housing; 34. a hollow extension shaft; 35. a driven mechanism; 36. a second bearing housing; 37, a U-shaped limiting sheet; 371. a clamping hole; 39, fastening nails;

4. a medicine adding rod; 42, adding a medicine head; 43. a card slot; 44. a spring; cup spike 14.

Detailed Description

The technical solutions in the embodiments of the present invention are clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be practiced in other ways than those specifically described and will be readily apparent to those of ordinary skill in the art without departing from the spirit of the present invention, and therefore the present invention is not limited to the specific embodiments disclosed below.

The first embodiment: as shown in fig. 1, the chemical adding device for the dyeing cup comprises a dyeing cup 1 consisting of a cup body 11 and a cup cover 12, a supporting component 2, a driving component 3 and a chemical adding rod 4, wherein the supporting component 2 supports the driving component 3, and the driving component 3 drives the dyeing cup 1 to rotate; the dyeing cup 1 is provided with a dosing port 13, and the dosing rod 4 penetrates through the driving assembly 3 to dose the dosing port 13.

According to the invention, dynamic dosing in the rotating process of the dyeing cup is realized; add medicine pole 4 and run through drive assembly 3 and add medicine to adding medicine mouth 13, compare in the subassembly that one end provided rotary power, the one end provides the dyeing cup charge device who adds the subassembly of medicine, and the structure is simpler, practices thrift occupation space.

Second embodiment: as shown in fig. 1-3, in this embodiment, in order to prevent the liquor in the dyeing cup 1 from splashing, the dosing port 13 is a funnel-shaped dosing port; the front end of the dosing rod 4 is provided with a dosing head 42, and the dosing head 42 is provided with a top sealing structure matched with the funnel-shaped dosing port.

The medicine adding head 42 seals the funnel-shaped medicine adding opening, so that the medicine adding head 42 and the funnel-shaped medicine adding opening are tightly matched to add medicine into the dyeing cup 1, and the medicine liquid in the dyeing cup 1 is prevented from splashing out in the medicine adding process or the dyeing cup rotating process.

The third embodiment: as shown in fig. 1 to 4, the present embodiment further discloses a technical solution for driving the dye cup 1 to rotate based on the first embodiment: the driving assembly 3 comprises a bearing driving mechanism 31 and a cup placing mechanism 32, the bearing driving mechanism 31 is fixedly connected with the cup placing mechanism 32, the cup placing mechanism 32 is arranged in the supporting assembly 2, and the cup placing mechanism 32 is used for placing the dyeing cup 1;

the driving mechanism 31 drives the bearing presenting driving mechanism 31 and the cup placing mechanism 32 to rotate in the supporting component 2, so as to drive the dyeing cup 1 placed on the cup placing mechanism 32 to rotate.

The cup placing mechanism 32 is arranged in the supporting component 2 and is fixedly connected with the bearing driving mechanism 31, and compared with the similar devices which drive the dyeing cup to rotate by using a rotating cage structure, the structure is simpler.

The fourth embodiment: as shown in fig. 1 to 4, the present embodiment further discloses a dynamic dosing technical scheme in the rotation process of the dyeing cup on the basis of the third embodiment: the bearing driving mechanism 31 further comprises a first bearing seat 33, a hollow extending shaft 34 and a driven mechanism 35; the first bearing seat 33 is disposed at one side of the support assembly 2;

the driven mechanism 35 drives the hollow extension shaft 34 to rotate in the first bearing seat 33, and the front end of the hollow extension shaft 34 extends to the supporting component 2 and is fixedly connected with the cup placing mechanism 32 so as to drive the cup placing mechanism 32 to rotate in the supporting component 2;

the medicine adding rod 4 penetrates through the hollow extending shaft 34, seals the medicine adding opening at the top and adds medicine to the dyeing cup 1.

Thereby hollow extension axle 34 front end extends to supporting component 2 and puts cup mechanism 32 fixed connection and drive and put cup mechanism 32 at supporting component 2 internal rotation, add medicine pole 4 run through in hollow extension axle 34, the top seals adds the medicine mouth, realizes dyeing the dynamic medicine of cup rotation in-process, makes textile fabric and liquid medicine fully collide, ensures the dyeing homogeneity.

Fifth embodiment: as shown in fig. 1 to 4, in this embodiment, on the basis of the third embodiment, in order to make the cup placing mechanism rotate more stably, a second bearing seat 36 is provided on the other side of the support assembly 2, and the other side of the cup placing mechanism 32 is connected with the second bearing seat 36 in a matching manner.

The two sides of the cup placing mechanism are arranged on the bearing seats at the two ends, so that the cup placing mechanism rotates more stably, and the cup dyeing dosing device provided by the invention runs with less vibration.

Sixth embodiment: as shown in fig. 1 to 4, this embodiment further discloses a technical solution for limiting the rebound of the dosing rod on the basis of the third embodiment: a U-shaped limiting sheet 37 is fixedly connected to the first bearing seat 33, a clamping hole 371 is formed in the middle of the U-shaped limiting sheet 37, and the rear end of the hollow extending shaft 34 extends to be close to the clamping hole 371 of the U-shaped limiting sheet 37.

Seventh embodiment: as shown in fig. 1 to 4, this embodiment further discloses a technical solution for preventing the medicine adding rod 4 from opening the medicine adding port 13 after the pressure in the dyeing cup 1 is increased in a high temperature state on the basis of the sixth embodiment: the rear end of the dosing rod 4 is provided with a clamping groove 43 and a spring 44, and the dosing rod 4 presses the spring 44 and then penetrates through a clamping hole 371 of the U-shaped limiting sheet 37;

the catching groove 43 catches the catching hole 371 for: the rear end of the dosing rod 4 is limited in the U-shaped limiting sheet 37 and does not bounce outside; the phenomenon that the liquor splashes out when the liquor feeding rod 4 is pushed open the liquor feeding opening 13 after the pressure in the dyeing cup 1 is increased under the high-temperature state is prevented.

Eighth embodiment: as shown in fig. 2 or fig. 5, the present embodiment further discloses a technical solution of vertical placement of the dyeing cup on the basis of the fourth embodiment: the medicine adding port 13 is arranged on one side of the cup body 11; the dyeing cup 1 is vertically placed in the cup placing mechanism 32.

Ninth embodiment: as shown in fig. 1, this embodiment further discloses a technical solution of lateral placement of the dyeing cup on the basis of the fourth embodiment: the medicine feeding port 13 is arranged on the cup cover 12, and the dyeing cup 1 is transversely placed in the cup placing mechanism 32.

Tenth embodiment: as shown in fig. 4, the present embodiment further discloses a technical solution for placing the dyeing cup obliquely on the basis of the fourth embodiment: the medicine feeding port 13 is arranged on the cup cover 12, the cup placing mechanism 32 is obliquely and fixedly connected with the hollow extending shaft 34, the dyeing cup 1 is obliquely placed in the cup placing mechanism 32, and the medicine feeding port 13 is aligned to the front end of the hollow extending shaft 34.

According to the dyeing cup, various schemes are arranged on the dye cup and the corresponding medicine adding port, and the adaptive corresponding solution can be selected according to the needs of a user.

Eleventh embodiment: as shown in fig. 1 to 4, this embodiment further discloses that the medicine adding port 13 is a funnel-shaped medicine adding port extending toward the inside of the cup body or protruding toward the outside of the cup body on the basis of the second embodiment; the funnel-shaped medicine feeding port is provided with a connecting part which is in a ring shape with wide outside and narrow inside.

Twelfth embodiment: as shown in fig. 1 to 3, the present embodiment further discloses a technical solution for preventing leakage of liquid medicine on the basis of the second embodiment: the top seal structure of the dosing head 42 is provided with a groove, a sealing ring is arranged in the groove, and when the top seal structure seals the funnel-shaped dosing port, the liquid medicine is prevented from leaking in the dosing process or the dyeing cup rotating process.

The thirteenth embodiment: as shown in fig. 1 to 4, the present embodiment further discloses that the cup body 11 is provided with cup nails 14, the driving assembly 3 is provided with fasteners 38, and the tension spring pulls the dyeing cup 1 with the cup nails 14 and the fasteners 39, on the basis of the first to twelfth embodiments.

Fourteenth embodiment: as shown in fig. 1 to 4, the present embodiment further discloses an automatic driving mode embodiment on the basis of the first to thirteenth embodiments described above: the driving assembly 3 further comprises a driving motor and a driving wheel, wherein the driving motor drives the driving wheel to operate to drive the driven mechanism 35 to operate.

Fifteenth embodiment: as shown in fig. 1 to 4, the present embodiment further discloses a manual driving mode embodiment on the basis of the above first to thirteenth embodiments: the driving assembly 3 further comprises a hand crank piece and a driving wheel, wherein the hand crank piece drives the driving wheel to operate to drive the driven mechanism 35 to operate.

According to the invention, the external driving motor and the driving wheel are in an automatic driving mode, and the external hand crank piece and the driving wheel can be switched into a manual driving mode.

Sixteenth embodiment: as shown in fig. 1-4, this embodiment is an embodiment of the drug-adding rod externally connected to the drug delivery device based on the first to fifteenth embodiments: the dosing rod 4 can be externally connected with a dosing device.

Seventeenth embodiment: as shown in fig. 1 or 3, the present embodiment is a dye liquor embodiment according to the bath ratio requirement:

according to the dyeing process, textile fabrics and dyeing liquid corresponding to the bath ratio are placed in the dyeing cup, the cup cover is screwed on, and the cup is transversely placed on the cup placing mechanism.

Pushing the dosing rod to enable the dosing head at the front end of the dosing rod to seal the funnel-shaped dosing port of the cup cover, and clamping the clamping groove at the rear end of the dosing rod on the clamping hole of the U-shaped limiting piece to fix the position of the dosing rod;

the medicine adding rod can add medicine to the dyeing cup when the dyeing cup does not rotate;

the driving motor drives the driving wheel to operate to drive the driven mechanism to operate, and the driven mechanism drives the bearing to rotate in the form of a driving mechanism, so that the cup placing mechanism connected with the bearing in the form of the driving mechanism is driven to rotate, and then the dyeing cup is driven to rotate; the textile fabric and the liquid medicine are fully collided, and the dyeing uniformity is ensured;

meanwhile, as the dosing rod (4) penetrates through the hollow extension shaft (34) to seal the dosing port, the dosing rod is relatively static when the bearing rotates together with the driving mechanism, the cup placing mechanism and the dyeing cup;

the medicine adding rod can also add medicine to the dyeing cup when the dyeing cup rotates;

in addition, according to the process requirement, the temperature can be raised by externally connecting a temperature control assembly, and the temperature raising condition can be set for dynamic dosing.

Sixteenth embodiment: as shown in fig. 4, the present embodiment is different from the fifteenth embodiment in that the cup is placed in the cup placing mechanism in an inclined manner, and the textile fabric and the chemical liquid in the dyeing cup are made to perform a circular rotation motion and simultaneously perform a combined motion of oscillating the inclined surface up and down to sufficiently collide with each other, thereby further ensuring the dyeing uniformity.

Seventeenth embodiment: as shown in fig. 2 or 5, the present embodiment is different from the fifteenth embodiment in that the cup is vertically placed on the cup placing mechanism, so that the collision range of the textile fabrics and the liquor in the dyeing cup is larger, and the dyeing uniformity is further ensured.

Claims (13)

1. The utility model provides a dye cup charge device, includes and dyes cup (1), supporting component (2), drive assembly (3) and add pencil (4) that comprise cup (11) and bowl cover (12), its characterized in that: the supporting component (2) supports the driving component (3), and the driving component (3) drives the dyeing cup (1) to rotate; the dyeing cup (1) is provided with a dosing port (13), and the dosing rod (4) penetrates through the driving assembly (3) to dose the dosing port (13).

2. The dye cup dosing device of claim 1, wherein: the medicine feeding port (13) is a funnel-shaped medicine feeding port;

a dosing head (42) is arranged at the front end of the dosing rod (4), and a top sealing structure matched with the funnel-shaped dosing port is arranged on the dosing head (42);

the medicine adding head (42) seals the funnel-shaped medicine adding opening in a propping manner, so that the medicine adding head (42) and the funnel-shaped medicine adding opening are tightly matched to add medicine into the dyeing cup (1), and the medicine liquid in the dyeing cup (1) is prevented from splashing out in the medicine adding process or the dyeing cup rotating process.

3. The dye cup dosing device of claim 1, wherein: the driving assembly (3) comprises a bearing driving mechanism (31) and a cup placing mechanism (32), the bearing driving mechanism (31) is fixedly connected with the cup placing mechanism (32), the cup placing mechanism (32) is arranged in the supporting assembly (2), and the cup placing mechanism (32) is used for placing the dyeing cup (1);

the driving mechanism (31) drives the bearing to rotate in the supporting component (2) in the form of the driving mechanism (31) and the cup placing mechanism (32), so as to drive the dyeing cup (1) placed in the cup placing mechanism (32) to rotate.

4. The dye cup dosing device of claim 3, wherein: the bearing driving mechanism (31) further comprises a first bearing seat (33), a hollow extending shaft (34) and a driven mechanism (35); the first bearing seat (33) is arranged on one side of the support component (2);

the driven mechanism (35) drives the hollow extension shaft (34) to rotate in the first bearing seat (33), and the front end of the hollow extension shaft (34) extends to the supporting assembly (2) and is fixedly connected with the cup placing mechanism (32) so as to drive the cup placing mechanism (32) to rotate in the supporting assembly (2);

the medicine adding rod (4) penetrates through the hollow extension shaft (34), seals the medicine adding opening at the top and adds medicine to the dyeing cup (1).

5. The dye cup dosing device of claim 3, wherein: and a second bearing seat (36) is arranged on the other side of the supporting component (2), and the other side of the cup placing mechanism (32) is connected with the second bearing seat (36) in a matching manner.

6. The dye cup dosing device of claim 4, wherein: the U-shaped limiting sheet (37) is fixedly connected to the first bearing seat (33), a clamping hole (371) is formed in the middle of the U-shaped limiting sheet (37), and the rear end of the hollow extending shaft (34) extends to be close to the clamping hole (371) of the U-shaped limiting sheet (37).

7. The dye cup dosing device of claim 6, wherein: the rear end of the dosing rod (4) is provided with a clamping groove (43) and a spring (44), and the dosing rod (4) presses the spring (44) and then penetrates through a clamping hole (371) of the U-shaped limiting sheet (37);

a clamping groove (43) clamping the clamping hole (371) and used for: the rear end of the dosing rod (4) is limited in a U-shaped limiting sheet (37) and cannot be bounced outwards; the phenomenon that the liquor splashes out when the liquor feeding rod (4) jacks the liquor feeding opening (13) after the pressure in the dyeing cup (1) is increased under the high-temperature state is prevented.

8. The dye cup dosing device of claim 4, wherein: the medicine adding port (13) is arranged on one side of the cup body (11); the dyeing cup (1) is vertically placed in the cup placing mechanism (32).

9. The dye cup dosing device of claim 4, wherein: the medicine adding port (13) is arranged on the cup cover (12), and the dyeing cup (1) is transversely placed in the cup placing mechanism (32).

10. The dye cup dosing device of claim 4, wherein: the dosing port (13) is arranged on the cup cover (12), the cup placing mechanism (32) is obliquely and fixedly connected with the hollow extension shaft (34), the dyeing cup (1) is obliquely placed in the cup placing mechanism (32), and the dosing port (13) is aligned to the front end of the hollow extension shaft (34).

11. The dye cup dosing device of claim 2, wherein: the medicine adding port (13) is a funnel-shaped medicine adding port which extends towards the inside of the cup body or protrudes towards the outside of the cup body; the funnel-shaped medicine feeding port is provided with a connecting part which is in a ring shape with wide outside and narrow inside.

12. The dye cup dosing device of claim 2, wherein: the top seal structure of adding medicine head (42) is equipped with the recess, sets up the sealing washer in the recess, works as top seal structure top seals the infundibulate mouth that adds medicine prevents to add the medicine in-process or dye the rotatory in-process seepage liquid medicine of cup.

13. The dye cup dosing device according to any one of claims 1 to 12, wherein: the cup body (11) is provided with cup nails (14), the driving component (3) is provided with buckles (38), and the tension buckle spring pulls the dyeing cup (1) through the cup nails (14) and the buckles (39).

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