CN214831213U - Feeding structure of overflow dyeing machine - Google Patents

Abstract

The feeding device comprises a lifting platform, and the lifting platform is arranged on the rack in a sliding manner; the raw material barrel is placed on the lifting platform; and the driving device is arranged on the rack and is connected with the lifting platform. This application is through arranging former storage bucket in the elevating platform, and drive arrangement starts to drive the elevating platform and shifts up, then the staff promotes former storage bucket and pours the raw materials into the agitator to need not the people and in adding the raw materials into the agitator, alleviateed staff's burden, improve staff's efficiency.

Description

Feeding structure of overflow dyeing machine

Technical Field

The utility model relates to an overflow dyeing machine technical field especially relates to an overflow dyeing machine's reinforced structure.

Background

The overflow dyeing machine is used for the processes of dyeing, bleaching, scouring, washing and the like of ready-made clothes such as woolen sweaters, silk, acrylic fibers, cotton sweaters and the like, can also be used for the bleaching and dyeing treatment of finished products such as gloves, socks, towels and the like, and is ideal bleaching and dyeing equipment for finished products with wide application range.

In the related art, reference may be made to chinese utility model patent with publication number CN208121364U, which discloses an overflow dyeing machine, comprising an L-shaped cabinet, a feeding box is disposed on the cabinet, a feeding port is disposed on one side of the top end of the cabinet, a horizontally disposed cloth guide roller is rotatably connected to the inner wall of one side of the top end of the cabinet close to the feeding port, a ring-shaped fabric is sleeved on the cloth guide roller, a horizontally disposed cloth guide plate is disposed at the middle position of the inside of the cabinet, the cloth guide plate is fixed on the inner walls of both sides of the cabinet, the cloth guide plate is disposed at the oblique lower side of the cloth guide roller, the cloth guide roller is disposed inside the fabric, a fixing box is fixed on the outer wall of one side of the top end of the cabinet, a driving motor is fixed on the inner wall of one side of the fixing box far from the cabinet, the device not only can accelerate the flow of the dye, thereby generating a certain thrust to the fabric, accelerating the rotation of the fabric, and shortening the single cycle time of the fabric, the dyeing efficiency is high, the front side and the back side of the fabric can be simultaneously dyed, the condition that the two sides of the fabric are not uniformly dyed due to the time difference of the front side and the back side dyeing is prevented, and the dyeing effect is good.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: when the dyeing machine needs to add the dyestuff, open the charging box and carry the dyestuff to the dyeing machine, and the dyestuff needs to add various raw materials to prepare after using, and need artifically add the raw materials to the charging box during the preparation, and all prepare in batches during the preparation dyestuff, therefore the manual raw materials that adds can lead to staff fatigue, has prolonged the time of preparing the dyestuff and spent to you prolong the time that the dyeing machine shut down, reduced the production efficiency of dyeing machine.

SUMMERY OF THE UTILITY MODEL

In order to improve work efficiency, alleviate the staff and at the work burden when empting the raw materials, this application provides an overflow dyeing machine's reinforced structure.

The application provides a pair of overflow dyeing machine's reinforced structure adopts following technical scheme:

the utility model provides an overflow dyeing machine's reinforced structure, includes the agitator that is used for depositing the dye liquor with the dyeing machine intercommunication, its characterized in that: the feeding device comprises a rack and a feeding device arranged on the rack, wherein the feeding device comprises a feeding device body;

the lifting platform is arranged on the rack in a sliding manner;

a raw material bucket placed on the lifting table;

and the driving device is arranged on the rack and is connected with the lifting platform.

Through adopting above-mentioned technical scheme, when feeding device need be reinforced, arrange former storage bucket in the elevating platform on, drive arrangement starts to drive the elevating platform and shifts up, and the elevating platform drives former storage bucket and shifts up, then in the staff promoted former storage bucket and pours the raw materials into the agitator to need not in the people for adding the raw materials into the agitator, alleviateed staff's burden, improve staff's efficiency.

Optionally, the driving device comprises;

the two driving wheels are rotatably arranged on the rack;

the first motor is arranged on the rack and is connected with the driving wheel;

and the conveying belt is sleeved on the two driving wheels and is connected with the lifting platform.

Through adopting above-mentioned technical scheme, first motor starts to drive the drive wheel and rotates, and the drive wheel rotates and drives the conveyer belt and remove, and the conveyer belt removes and drives the lifting platform and shift up to this realizes that first motor starts to drive the lifting platform and shifts up.

Optionally, be equipped with the installation pole on the conveyer belt, the lifting platform rotates with the installation pole through the second pivot to be connected, be equipped with the drive assembly who is connected with the second pivot on the installation pole, be equipped with on the lifting platform and be used for carrying out the fixing device fixed to raw materials bucket.

The phenomenon of untimely dumping can occur when the raw material barrel is pushed manually, so that the time spent on dumping the raw materials is prolonged, and the production efficiency of the dyeing machine is reduced;

through adopting above-mentioned technical scheme, it is fixed that the former storage bucket passes through the fixing device on the elevating platform, and the conveyer belt removes to drive the installation pole and moves upward, and the installation pole moves upward and drives the elevating platform and rise, and after the elevating platform moved up to the assigned position, drive assembly started to drive the elevating platform and rotates, and the elevating platform rotates and drives former storage bucket and rotate to this pours the raw materials into the agitator in, thereby reduced the manual work and emptyd and the probability that the untimely phenomenon appears emptying, improved the production efficiency of dyeing machine.

Optionally, the fixing device comprises;

the rotating rod is rotatably arranged on the lifting platform;

the clamping ring is arranged on the raw material barrel;

the buckle, the buckle sets up on the dwang and detains and establish on the snap ring.

By adopting the technical scheme, the rotating rod is rotated to drive the buckle to be close to the clamping ring, so that the buckle is buckled on the clamping ring, and the raw material barrel is positioned; when raw material barrel needs to be taken down, the rotating rod is rotated to drive the buckle to be away from the clamping ring, and then the raw material barrel can be taken down.

Optionally, the drive assembly comprises;

the first gear is arranged on the second rotating shaft;

the second motor is arranged on the mounting rod;

and the second gear is arranged on the output shaft of the second motor and is meshed with the first gear.

Through adopting above-mentioned technical scheme, the second motor starts to drive the second gear rotation, and the second gear rotation drives first gear rotation, and first gear drives pivot and lifting platform and rotates to this realizes that the second motor starts to drive the lifting platform and rotates.

Optionally, a limiting device for limiting the installation rod is arranged on the rack, and the limiting device comprises;

the limiting plate is arranged on the rack in a sliding manner;

and the limit switch is arranged on the limit plate and is used for limiting the installation rod and is electrically connected with the first motor.

And the screw rod is in threaded connection with the limiting plate and is abutted against the rack.

The heights of the mixing barrels with different specifications are different, so that the position of the lifting platform also needs to be adjusted to adapt to the addition of raw materials to the mixing barrels with different heights, and the adaptation range of the feeding device to the heights of the mixing barrels is enlarged;

through adopting above-mentioned technical scheme, twist and move the screw rod and keep away from the frame, then can adjust limiting plate and limit switch's position, adjust and accomplish the back, twist and move the screw rod and support tightly in the frame to this comes to carry on spacingly to limiting plate and limit switch position, thereby the adaptation adds the raw materials to the agitator of co-altitude not, has improved feeding device and has added the accommodation of agitator height.

Optionally, a flow guide device which is abutted against the side wall of the raw material barrel is arranged on the lifting platform, and the flow guide device comprises;

the guide rod is arranged on the lifting platform;

the guide rail sets up on the water conservancy diversion pole and contradicts on former storage bucket and be used for with in the former storage bucket raw materials water conservancy diversion to the agitator.

In the process of pouring the raw materials in the raw material barrel into the stirring barrel, the raw materials are easy to flow onto the outer side wall of the raw material barrel, so that the waste of the raw materials and the pollution to the environment are caused;

through adopting above-mentioned technical scheme, the raw materials passes through the guide rail and introduces the agitator when empting raw materials bucket to this waste and to environmental pollution that have reduced the raw materials.

Optionally, the guide rod comprises;

the sliding rail is vertically arranged on the lifting platform and is provided with limiting holes in an array manner;

the rod body is arranged on the sliding rail in a sliding mode, the rod body is provided with an inserting hole and is connected with the guide rail, and a bolt is arranged on the limiting hole and is matched with the inserting hole in an inserting mode.

When the heights of the raw material barrels are different, the heights of the guide rails also need to be adjusted so as to adapt to guiding the raw material barrels with different heights;

through adopting above-mentioned technical scheme, extract the bolt, remove the guide rail and drive the member and remove, the member removes and accomplishes the back, and the bolt is pegged graft and is installed on spacing hole and spliced eye to this position of adjusting the guide rail, thereby the adaptation leads to the former storage bucket of co-altitude not.

Optionally, the lifting platform is provided with a limiting block for limiting the raw material barrel.

Through adopting above-mentioned technical scheme, the stopper is contradicted on raw materials bucket lateral wall, and the stopper atress when the elevating platform is rotatory empting raw materials bucket to this carries on spacingly to raw materials bucket, has further reduced the probability that takes place to slide when raw materials bucket empties the raw materials, has improved raw materials bucket's stability.

Optionally, slots are formed in the lifting platform in an array mode, and the limiting blocks are matched with the slots in an inserting mode.

Through adopting above-mentioned technical scheme, the cooperation of pegging graft piece and inserting groove grafting, consequently when the external diameter size of former storage bucket changes, the cooperation of pegging graft of piece and different positions's inserting groove grafting to this adaptation is spacing to the former storage bucket of unidimensional not, has improved the accommodation of stopper to former storage bucket size.

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

1. the raw material barrel is placed on the lifting platform, the driving device is started to drive the lifting platform to move upwards, and then the raw material barrel is pushed by a worker to pour the raw material into the stirring barrel, so that the raw material is not required to be manually added into the stirring barrel, the burden of the worker is reduced, and the efficiency of the worker is improved;

2. the raw material barrel is fixed through the fixing device, and after the lifting platform moves upwards to a designated position, the lifting platform rotates to drive the raw material barrel to rotate, so that the raw materials are poured into the stirring barrel, the probability of untimely pouring caused by manual pouring is reduced, and the production efficiency of the dyeing machine is improved;

3. the raw materials are introduced into the stirring barrel through the guide rail, so that the waste of the raw materials and the environmental pollution are reduced.

Drawings

FIG. 1 is a schematic perspective view of the present application;

FIG. 2 is a schematic view of the structure of the driving device of the present application;

FIG. 3 is a schematic view of the drive assembly, the fixture and the guide of the present application;

reference numerals: 1. a stirring barrel; 12. a frame; 13. a bottom frame; 14. a vertical plate; 15. a universal wheel; 2. a feeding device; 21. a lifting platform; 22. a raw material barrel; 23. a limiting block; 24. a slot; 3. a drive device; 31. a driving wheel; 32. a first motor; 33. a conveyor belt; 34. a first rotating shaft; 35. connecting blocks; 36. mounting a rod; 37. a second rotating shaft; 4. a drive assembly; 41. a first gear; 42. a second motor; 43. a second gear; 44. a connecting rod; 45. a third rotating shaft; 5. a fixing device; 51. rotating the rod; 52. a snap ring; 53. buckling; 6. a flow guide device; 61. a guide rod; 62. a guide rail; 63. a slide rail; 64. a rod member; 65. a bolt; 66. a limiting hole; 7. a limiting device; 71. a limiting plate; 72. a limit switch; 73. a slideway; 74. a screw; 75. and (4) a sliding block.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses overflow dyeing machine's reinforced structure.

Referring to fig. 1, the feeding structure of the overflow dyeing machine comprises a frame 12, a stirring barrel 1 communicated with the dyeing machine is placed on the ground beside the frame 12, and a feeding device 2 for adding raw materials into the stirring barrel 1 is arranged on the frame 12.

Referring to fig. 1, the frame 12 includes a rectangular bottom frame 13 and two vertical plates 14 fixed on the upper surface of the bottom frame 13 and vertically arranged upward, and universal wheels 15 are mounted at the bottom of the frame 12.

Referring to fig. 1 and 2, the feeding device 2 comprises a lifting platform 21, a raw material barrel 22 and a driving device 3, wherein the lifting platform 21 is vertically and slidably mounted on the side wall of one side opposite to the two vertical plates 14; the raw material barrel 22 is placed on the lifting platform 21 and is filled with raw materials for preparing dyes, and the driving device 3 is provided with two vertical plates 14 and is connected with the lifting platform 21.

Referring to fig. 2, the driving device 3 includes two driving wheels 31 and a conveyor belt 33, horizontal first rotating shafts 34 are hinged on the side walls of the two vertical plates 14 at opposite sides, two first rotating shafts 34 are vertically arranged at intervals, and the two driving wheels 31 are respectively and fixedly installed on the two first rotating shafts 34; the two vertical plates 14 are fixedly provided with a first motor 32 connected with a first rotating shaft 34 on the opposite side of the side wall, and the two first motors 32 rotate synchronously.

Referring to fig. 1 and 3, the outer side walls of the two conveyor belts 33 are fixedly provided with connecting blocks 35, the opposite ends of the two connecting blocks 35 are fixedly provided with horizontal mounting rods 36, one end of the lifting platform 21, which is opposite to the other end, is fixedly provided with a horizontal second rotating shaft 37, the axes of the second rotating shaft 37 and the first rotating shaft 34 are parallel, and meanwhile, the opposite ends of the two second rotating shafts 37 are arranged outside the mounting rods 36.

Referring to fig. 3, a driving assembly 4 connected to the second rotating shaft 37 is disposed on one of the mounting rods 36, the driving assembly 4 includes a first gear 41, a second motor 42 and a second gear 43, the first gear 41 is keyed on the second rotating shaft 37, the second motor 42 is fixedly mounted on a side wall of the mounting rod 36, the second gear 43 is keyed on an output shaft of the second motor 42, and the first gear 41 is engaged with the second gear 43.

Referring to fig. 1, the first motor 32 is started to drive the first rotating shaft 34 to rotate, the first rotating shaft 34 drives the driving wheel 31 to rotate, the driving wheel 31 drives the conveying belt 33 to move, the conveying belt 33 drives the mounting rod 36 to move, and the mounting rod 36 drives the lifting table 21 and the raw material barrel 22 to move. Then, the second motor 42 rotates to drive the second gear 43 to rotate, the second gear 43 rotates to drive the first gear 41 and the second rotating shaft 37 to rotate synchronously, and the second rotating shaft 37 drives the lifting platform 21 to rotate.

Referring to fig. 1 and 3, slot 24 has all been seted up to elevating platform 21 upper surface and being located and being close to and keeping away from 1 both sides of agitator, and slot 24 has seted up a plurality ofly along the direction interval that is close to and keeps away from agitator 1, and two stoppers 23 are installed in pegging graft on slot 24, and two stoppers 23 contradict and carry on spacingly on former storage bucket 22 lateral wall.

Referring to fig. 3, vertical connecting rods 44 are fixedly mounted on the upper surface of the lifting platform 21 and on both sides of the raw material barrel 22 close to the two vertical plates 14, and fixing devices 5 for fixing the raw material barrel 22 are arranged on both the two connecting rods 44; the fixing device 5 includes a rotating lever 51, a snap ring 52, and a snap 53.

Referring to fig. 3, a horizontal third rotating shaft 45 is fixedly installed at the top end of the connecting rod 44, and the axis of the third rotating shaft 45 is vertical to that of the second rotating shaft 37; one end of the rotating rod 51 is hinged on the third rotating shaft 45, the clamping rings 52 are fixedly arranged on the outer side wall of the raw material barrel 22, and the two clamping rings 52 are arranged corresponding to the two rotating rods 51; the buckle 53 is fixedly installed on the lower surface of one end of the rotating rod 51 far away from the third rotating shaft 45, the rotating rod 51 is erected on the upper surface of the snap ring 52, and the buckle 53 is buckled on the snap ring 52, so as to position the raw material barrel 22.

Referring to fig. 1 and 3, be provided with guiding device 6 on the elevating platform 21 and be located and be close to agitator 1 one side, guiding device 6 includes guide rod 61 and guide rail 62, guide rod 61 is provided with two along the 45 axis direction intervals of perpendicular to third pivot, guide rod 61 includes slide rail 63 and member 64, slide rail 63 fixed mounting just is vertical state on elevating platform 21 upper surface, vertical groove that slides has been seted up on slide rail 63 top, vertical interval is equipped with a plurality of spacing holes 66 that communicate with the groove that slides on the slide rail 63 lateral wall.

Referring to fig. 1 and 3, the rod member 64 is slidably mounted on the sliding groove and is provided with an insertion hole, the limiting hole 66 is provided with a plug pin 65 in insertion fit with the insertion hole, and the plug pin 65 is used for positioning the rod member 64. The guide rails 62 are fixedly mounted on the top ends of the two rod members 64, one end of each guide rail 62 is in contact with the outer side wall of the raw material barrel 22, and the guide rails 62 are used for guiding the raw materials in the raw material barrel 22 into the stirring barrel 1.

Referring to fig. 1 and 2, a limiting device 7 for limiting the installation rod 36 is arranged on the vertical plate 14, the limiting device 7 includes a limiting plate 71, a limiting switch 72 and a screw 74, a vertical slide 73 is fixedly installed on a side wall of one side of one of the vertical plates 14 close to the lifting platform 21, the cross section of the slide 73 is "T" -shaped, a sliding block 75 is installed on the slide 73 in a sliding manner, one end of the limiting plate 71 is fixedly installed on a side wall of the sliding block 75 departing from one side of the vertical plate 14, and one end of the limiting plate 71 far away from the sliding block 75 horizontally extends to the upper side of the installation rod 36.

Referring to fig. 1 and 2, the limit switch 72 is fixedly mounted on the lower surface of the limit plate 71 near one end of the mounting rod 36, and the mounting rod 36 can contact the limit switch 72 after moving up, and the limit switch 72 is electrically connected to the first motor 32. The screw 74 is in threaded connection with the sliding block 75 and abuts against the slideway 73, the screw 74 is loosened when the position of the limiting plate 71 is adjusted, and the screw 74 is screwed down to be fixed after the limiting plate 71 is moved to a specified position.

The implementation principle of the embodiment is as follows:

place on elevating platform 21 raw materials bucket 22 that will be equipped with the raw materials, and two stopper 23 contradict and carry on spacingly on raw materials bucket 22 lateral wall, rotate two dwang 51 and be close to snap ring 52 for buckle 53 detains and establishes on snap ring 52, fixes raw materials bucket 22 with this. First motor 32 starts to drive installation pole 36, elevating platform 21 and former storage bucket 22 move up, installation pole 36 and limit switch 72 contact, limit switch 72 control first motor 32 bring to rest, second motor 42 starts to drive elevating platform 21 and former storage bucket 22 and rotates, raw materials pass through guide rail 62 in the former storage bucket 22 flows into agitator 1 to need not the manual work and add the raw materials into agitator 1 in, consequently, staff's burden has been alleviateed, staff's efficiency is improved.

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 (10)

1. The utility model provides an overflow dyeing machine's reinforced structure, includes agitator (1) that communicates with the dyeing machine and be used for depositing the dye liquor, its characterized in that: the device comprises a rack (12) and a feeding device (2) arranged on the rack (12), wherein the feeding device (2) comprises;

the lifting platform (21), the lifting platform (21) is arranged on the frame (12) in a sliding manner;

a raw material bucket (22), the raw material bucket (22) being placed on the lifting table (21);

the driving device (3) is arranged on the frame (12) and connected with the lifting platform (21).

2. The feed structure of an overflow dyeing machine according to claim 1, characterized in that: the drive device (3) comprises;

the two driving wheels (31), the two driving wheels (31) are rotatably arranged on the frame (12);

the first motor (32), the said first motor (32) is set up on framework (12) and connected with drive wheel (31);

the conveying belt (33), the conveying belt (33) is sleeved on the two driving wheels (31) and is connected with the lifting platform (21).

3. The feed structure of an overflow dyeing machine according to claim 2, characterized in that: be equipped with installation pole (36) on conveyer belt (33), lifting platform (21) are rotated with installation pole (36) through second pivot (37) and are connected, be equipped with drive assembly (4) of being connected with second pivot (37) on installation pole (36), be equipped with on lifting platform (21) and be used for carrying out fixing device (5) to former storage bucket (22).

4. The feed structure of an overflow dyeing machine according to claim 3, characterized in that: said fixing means (5) comprise;

the rotating rod (51), the rotating rod (51) is rotatably arranged on the lifting platform (21);

a snap ring (52), the snap ring (52) being disposed on the raw material barrel (22);

the buckle (53) is arranged on the rotating rod (51) and buckled on the clamping ring (52).

5. The feed structure of an overflow dyeing machine according to claim 3, characterized in that: the drive assembly (4) comprises;

a first gear (41), the first gear (41) being disposed on the second rotating shaft (37);

a second motor (42), the second motor (42) being disposed on the mounting bar (36);

a second gear (43), the second gear (43) being provided on the output shaft of the second motor (42) and meshing with the first gear (41).

6. The feed structure of an overflow dyeing machine according to claim 1, characterized in that: the rack (12) is provided with a limiting device (7) for limiting the mounting rod (36), and the limiting device (7) comprises;

the limiting plate (71), the limiting plate (71) is arranged on the rack (12) in a sliding manner;

the limit switch (72) is arranged on the limit plate (71), is used for limiting the installation rod (36) and is electrically connected with the first motor (32);

the screw rod (74) is in threaded connection with the limiting plate (71) and is abutted against the rack (12).

7. The feed structure of an overflow dyeing machine according to claim 1, characterized in that: the lifting platform (21) is provided with a flow guide device (6) which is abutted against the side wall of the raw material barrel (22), and the flow guide device (6) comprises;

the guide rod (61), the guide rod (61) is arranged on the lifting platform (21);

the guide rail (62), guide rail (62) set up on water conservancy diversion pole (61) and contradict on former storage bucket (22) and be used for with in raw materials bucket (22) raw materials water conservancy diversion to agitator (1).

8. The feed structure of an overflow dyeing machine according to claim 7, characterized in that: the guide rod (61) comprises;

the sliding rail (63) is arranged on the lifting platform (21), and the limiting holes (66) are arranged in an array manner;

the rod piece (64) is arranged on the sliding rail (63) in a sliding mode, the rod piece (64) is provided with an inserting hole and connected with the guide rail (62), and a bolt (65) matched with the inserting hole in an inserting mode is arranged on the limiting hole (66).

9. The feed structure of an overflow dyeing machine according to claim 1, characterized in that: and a limiting block (23) for limiting the raw material barrel (22) is arranged on the lifting platform (21).

10. The feed structure of an overflow dyeing machine according to claim 9, characterized in that: slots (24) are formed in the lifting platform (21) in an array mode, and the limiting blocks (23) are matched with the slots (24) in an inserting mode.

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