CN115198400A

CN115198400A - High-efficient intelligence blowing-carding allies oneself with uses feeding device

Info

Publication number: CN115198400A
Application number: CN202211134346.1A
Authority: CN
Inventors: 司马辉
Original assignee: Changzhou Jinyang Textile Machinery Co ltd
Current assignee: Changzhou Jinyang Textile Machinery Co ltd
Priority date: 2022-09-19
Filing date: 2022-09-19
Publication date: 2022-10-18

Abstract

The invention relates to the technical field of blowing-carding, in particular to a high-efficiency intelligent blowing-carding feeding device, which comprises: main base, ejection of compact subassembly, promotion material seat and output dish promote material seat fixed mounting in one side of main base, and the fixed surface of main base installs guide motor and charging tray, and the surface of main base rotates installs the guide rotary drum that is located the charging tray centre of a circle department, and the discharge gate of subtend promotion material seat one side is seted up to one side of charging tray, and ejection of compact subassembly fixed mounting is located one side of discharge gate in the surface of main base. According to the invention, by arranging a plurality of groups of material guide movement structures, the material discharging assembly, the lifting ratchet wheel and the output ratchet wheel are respectively utilized to conduct, conduct and output raw materials such as cotton wool and the like, the raw materials are conducted in through the main base and output through the output disc under the driving of each driving structure, so that the automatic feeding and feeding of the lower-level blowing-carding-connecting equipment are realized, the defect that the lifting fiber materials are difficult to convey in the traditional conveying and feeding mode is overcome, and the automatic feeding is realized to improve the working efficiency.

Description

Clear comb allies oneself with and uses feeding device of high-efficient intelligence

Technical Field

The invention relates to the technical field of blowing-carding units, in particular to a high-efficiency intelligent blowing-carding combined feeding device.

Background

The technological process of the blowing-carding system comprises the following steps: the raw cotton is grabbed by a cotton grabbing machine, passes through a cotton conveying pipeline, sequentially passes through a weight separator, a single axial flow cotton opener, a multi-bin cotton mixer, a main impurity remover and a fine dust remover, and finally reaches a cotton carding machine. Each device is provided with a controller and independently supplies power, and the linkage control of the whole system can be realized by controlling each controller.

Need use conveying equipment to carry out the transport of fibre material in blowing and carding contact system processing, like cotton fiber, artificial fiber etc., because its fiber length of this type of material is longer, the easy intertwine conglobation of packing is in groups can't adopt traditional transport structure to carry out the material and reinforced of equipment, current reinforced structure still mainly adopts manual work or clamping jaw to carry out the transportation of material and equipment is reinforced, the operating efficiency is low, can't satisfy actual production facility's production work rate, production efficiency has seriously been restricted, and because throw the blowing rigidity and lead to the material to pile up when adopting the clamping jaw to throw the material, because the characteristic of fibre self leads to the material easily to lead to the material to pile up too high because of the fibre winding, influence follow-up throwing material, there is certain defect. In view of this, carry out research improvement to current problem, provide a feeding device is used in clear comb of high-efficient intelligence, solve and exist at present that the tradition carries reinforced structure can't carry out the transport of fibre material and reinforced and adopt the reinforced inefficiency of clamping jaw, aim at through this technique, reach the purpose of solving the problem and improving practical value nature.

Disclosure of Invention

The present invention is directed to solving one of the technical problems of the prior art or the related art.

Therefore, the technical scheme adopted by the invention is as follows: the utility model provides a feeding device is used in clear comb of high-efficient intelligence, includes: the lifting material base is fixedly arranged on one side of the main base, a material guide motor and a material tray are fixedly arranged on the surface of the main base, a material guide rotary drum positioned at the circle center of the material tray is rotatably arranged on the surface of the main base, a material outlet opposite to one side of the material guide base is formed in one side of the material tray, and the material discharge assembly is fixedly arranged on one side of the material outlet on the surface of the main base; the output dish is the sector plate structure and is the symmetrical arrangement in the both sides of rotating the ring seat top surface, the inboard rotation of output dish is installed the output ratchet, the inboard fixed smooth seat that leads that still installs of output dish, just the inboard slidable mounting who leads the seat has driven tray, the surface rotation of output dish installs the drive axostylus axostyle, the surface of driven tray is equipped with the arc rack with drive shaft lever surface transmission meshing, the one end of drive axostylus axostyle is connected with the driving motor who is fixed in the output dish surface.

The invention in a preferred example may be further configured to: the material tray is of a cylindrical structure, a plurality of uniformly distributed pulp plates are arranged on the periphery of the material guide rotary drum, and the output end of the material guide motor and the bottom end of the material guide rotary drum are provided with a transmission belt and are in transmission connection.

The invention in a preferred example may be further configured to: the discharging assembly comprises a ratchet roller, a separating guide fork, a discharging motor and a deflecting steering engine, wherein the discharging motor and the deflecting steering engine are in transmission connection with the end portion of the ratchet roller and the end portion of the separating guide fork respectively, the discharging motor and the deflecting steering engine are fixedly installed on the surface of the main base, and a plurality of guide toothed bars located in the surface gap of the ratchet roller are arranged on the surface of the separating guide fork.

The invention in a preferred example may be further configured to: the ratchet roller comprises a rotating shaft, wheel discs and a rotating drum, wherein the number of the wheel discs is a plurality of, the wheel discs are fixedly sleeved with gaps which are arranged between the surface of the rotating shaft and the adjacent wheel discs and correspond to the guide tooth rods one to one, the number of the rotating drum is a plurality of and is equally divided into a plurality of groups, the rotating drum is rotatably arranged on the surface of the wheel discs, the surface of the rotating drum is perpendicular to the rotating angle of the rotating direction of the rotating wheel discs and the surface of the wheel discs and is not larger than 45 degrees, the rotating drum is in the periphery of the wheel discs in a circumferential direction, and the surface of the rotating drum is provided with the ratchet rods.

The invention in a preferred example may be further configured to: the structure of the output ratchet wheel is the same as that of the ratchet roller, the surface of the output disc is provided with a material throwing motor of which the output end is connected with the output ratchet wheel, the top surface of the rotary gear ring seat is fixedly provided with a separation guide rod which is arranged in the vertical direction and is positioned in the surface gap of the output ratchet wheel, and the separation guide rod is in a round rod shape.

The invention in a preferred example may be further configured to: the rotary gear ring seat is of a circular ring tooth-shaped structure, the rotary gear ring seat is rotatably installed on the surface of the lifting material seat, a through hole with the same inner diameter as the rotary gear ring seat is formed in the surface of the lifting material seat, the bottom end of the through hole is communicated with the top surface of the guide box, and a driving structure for driving the rotary gear ring seat to rotate is arranged on the surface of the lifting material seat.

The invention in a preferred example may be further configured to: the output disc is the sector plate structure, and the quantity of output disc be two and be relative direction and arrange, the top surface fixed mounting of rotating the ring seat has servo steering wheel, and the output of servo steering wheel and the tip fixed connection of output disc.

The invention in a preferred example may be further configured to: the material lifting device is characterized in that the driven tray is of an arc plate structure, the center of a sliding motion circle and the center of a sliding motion circle of the output tray are located on the same axis, a plurality of material lifting claws are fixedly mounted at the bottom end of the driven tray, and the output ratchet wheel is located on the axis of the circle center of the output tray.

The beneficial effects obtained by the invention are as follows:

1. according to the invention, by arranging a plurality of groups of material guide movement structures, the material discharging assembly, the lifting ratchet wheel and the output ratchet wheel are respectively utilized to conduct, conduct and output raw materials such as cotton wool and the like, the raw materials are conducted in through the main base and output through the output disc under the driving of each driving structure, so that the automatic feeding and feeding of the lower-level blowing-carding-connecting equipment are realized, the defect that the lifting fiber materials are difficult to convey in the traditional conveying and feeding mode is overcome, and the automatic feeding is realized to improve the working efficiency.

2. According to the invention, through arranging the rotary discharging structure, the rotary gear ring seat is utilized to perform integral deflection motion of the output disc, the output disc can be deflected at will to adjust the opposite direction of the discharged material, the driven tray deflects to form a cut on the top surface of the guide box, fiber materials are guided out through the output ratchet wheel, a plurality of blowing-carding units on the periphery of the lifting material seat are fed respectively, or the single blowing-carding unit is fed dispersedly, so that the materials are prevented from being accumulated intensively.

3. According to the invention, by adopting a novel lifting and conveying structure, the discharging assembly works to guide fiber raw materials accumulated in the main base into the guide box and rotate the lifting ratchet wheel to realize the lifting movement of the materials in the guide box, and the fiber materials are cut under the cutting action of the movement of the driven tray, so that the lifting and conveying of the whole materials are completed.

Drawings

FIG. 1 is a schematic overall structure of an embodiment of the present invention;

FIG. 2 is a schematic view of a surface structure of a main substrate according to an embodiment of the present invention;

FIG. 3 is a schematic structural view of a discharge assembly in accordance with an embodiment of the present invention;

FIG. 4 is a schematic diagram of a material lifting seat and an output tray according to an embodiment of the present invention;

FIG. 5 is an exploded view of a surface structure of a main substrate according to an embodiment of the present invention;

FIG. 6 is a schematic view of the interior of the lifter base according to an embodiment of the present invention;

fig. 7 is an exploded view of an output tray according to an embodiment of the present invention.

Reference numerals are as follows:

100. a main base; 110. a material guiding motor; 120. a material tray; 130. a material guiding rotary drum;

200. a discharging assembly; 210. a ratchet roller; 220. separating the guide fork; 230. a discharging motor; 240. deflecting the steering engine;

300. lifting the material seat; 310. a guide box; 320. lifting the ratchet; 330. a gear ring seat is rotated; 321. a drive shaft lever;

400. an output tray; 410. a material throwing motor; 420. an output ratchet wheel; 430. a driven tray; 401. a sliding guide seat; 402. a drive shaft; 431. a curved rack; 432. and (4) a material lifting claw.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings in conjunction with the following detailed description. It should be noted that the embodiments of the present invention and features of the embodiments may be combined with each other without conflict.

The following describes an efficient and intelligent blowing-carding combined feeding device provided by some embodiments of the invention with reference to the accompanying drawings.

With reference to fig. 1 to 7, the invention provides an efficient and intelligent feeding device for blowing and carding, which comprises: the automatic material lifting device comprises a main base 100, a discharging assembly 200, a lifting material base 300 and an output disc 400, wherein the lifting material base 300 is fixedly installed on one side of the main base 100, a material guide motor 110 and a material disc 120 are fixedly installed on the surface of the main base 100, a material guide rotary drum 130 located at the circle center of the material disc 120 is rotatably installed on the surface of the main base 100, a discharging hole opposite to one side of the lifting material base 300 is formed in one side of the material disc 120, and the discharging assembly 200 is fixedly installed on one side, located at the discharging hole, of the surface of the main base 100;

a guide box 310 is fixedly installed on the inner side of the lifting material seat 300, a lifting ratchet wheel 320 is rotatably installed on the inner side of the guide box 310, a transmission shaft rod 321 in transmission abutting connection with the output end of the material guide motor 110 is rotatably installed on the surface of the main seat 100, transmission bevel gears are respectively arranged at the other end of the transmission shaft rod 321 and the end part of the lifting ratchet wheel 320 and are in transmission connection with each other, a rotary gear ring seat 330 is movably installed on the surface of the lifting material seat 300, and an output disc 400 is fixedly installed on the top surface of the rotary gear ring seat 330 and is communicated with the top end of the guide box 310; output dish 400 is the sector plate structure and is the symmetrical arrangement in the both sides of rotating the top surface of tooth ring seat 330, output ratchet 420 is installed in the inboard rotation of output dish 400, the inboard fixed smooth guide seat 401 of still installing of output dish 400, and the inboard slidable mounting of smooth guide seat 401 has driven tray 430, the surface rotation of output dish 400 installs drive axostylus axostyle 402, the surface of driven tray 430 is equipped with the arc rack 431 with drive axostylus axostyle 402 surface transmission meshing, the one end of drive axostylus axostyle 402 is connected with the driving motor who is fixed in output dish 400 surface.

In this embodiment, the material tray 120 is a cylindrical structure, a plurality of uniformly distributed pulp plates are disposed on the periphery of the material guiding drum 130, and a driving belt is disposed at the output end of the material guiding motor 110 and the bottom end of the material guiding drum 130 and is in transmission connection with the same.

Specifically, the materials entering the material tray 120 are conveyed in a rotating mode through the rotation of the material guide rotary drum 130, intermittent feeding of the discharging assembly 200 is achieved, the materials are conveyed in equal parts, and excessive materials are prevented from being blocked inside the material lifting seat 300.

In this embodiment, the discharging assembly 200 includes a ratchet roller 210, a separation guide fork 220, and a discharging motor 230 and a deflection steering engine 240 respectively connected to the ends of the ratchet roller 210 and the separation guide fork 220 in a transmission manner, the discharging motor 230 and the deflection steering engine 240 are fixedly mounted on the surface of the main base 100, and a plurality of guide rack bars located in the gaps between the surfaces of the ratchet roller 210 are disposed on the surface of the separation guide fork 220.

Further, ratchet roller 210 includes pivot, rim plate and rotary drum, and the quantity of rim plate is equipped with and leads the clearance of tooth bar one-to-one for a plurality of and fixed cover connect in the surface of pivot and adjacent rim plate within a definite time, and the quantity of rotary drum is a plurality of and equally divide into the multiunit, and the rotary drum rotates and installs in the surface of rim plate and the perpendicular turned angle in surface of direction of rotation and rim plate and be not more than 45 degrees, and the rotary drum is the circumferencial direction and evenly arranges in the periphery of rim plate, and the surface of rotary drum is equipped with the ratchet pole.

Specifically, the ratchet rod on the rotating surface of the ratchet roller 210 is used for guiding out the material in the tray 120, and the material adhered to the surface of the ratchet roller 210 is separated from the ratchet roller 210 through the intermittent deflection of the separation guide fork 220, and the rotary drum capable of freely deflecting at a certain angle is used for better separating from the fiber material in the operation of the separation guide fork 220.

In this embodiment, the structure of the output ratchet 420 is the same as that of the ratchet roller 210, the surface of the output disc 400 is provided with a throwing motor 410, the output end of which is connected with the output ratchet 420, and the top surface of the rotary gear ring seat 330 is fixedly provided with a separation guide rod which is vertically arranged and is positioned in the gap of the surface of the output ratchet 420, and the separation guide rod is in a round rod shape.

Specifically, the material on the surface of the driven tray 430 inside the output tray 400 is guided to the feeding opening of the next device by the rotation of the output ratchet 420 and the same rotating shaft, wheel disc and drum structure as the ratchet roller 210, and the material on the surface of the output ratchet 420 is conveniently separated from the ratchet rod in the rotating motion by the blocking of the stationary separation guide rod.

In this embodiment, the gear ring base 330 is a circular ring-shaped structure, the gear ring base 330 is rotatably mounted on the surface of the lifting material base 300, a through hole having the same inner diameter as the gear ring base 330 is formed on the surface of the lifting material base 300, the bottom end of the through hole is communicated with the top surface of the guide box 310, and a driving structure for driving the gear ring base 330 to rotate is formed on the surface of the lifting material base 300.

Specifically, the rotating ring seat 330 drives the integral output disc 400 to perform deflecting motion to adjust the opposite direction of the driven tray 430 and the output ratchet 420, so that a plurality of blowing-carding units on the periphery of the lifting material seat 300 can be fed respectively, or a single blowing-carding unit can be fed dispersedly to avoid material accumulation.

In this embodiment, the output disc 400 has a sector plate structure, and the number of the output discs 400 is two and the output discs are arranged in opposite directions, and the top surface of the rotary ring seat 330 is fixedly mounted with a servo steering engine, and the output end of the servo steering engine is fixedly connected with the end of the output disc 400.

Specifically, the deflection of the output disc 400 rotates along the sector circle center of the output disc 400, so that materials are accurately fed into a feeding port of lower-level blowing-carding equipment, and automatic accurate feeding is realized to avoid overflowing of the materials.

In this embodiment, the driven tray 430 is a circular arc plate structure, the center of the sliding motion is located on the same axis as the center of the output disc 400, the bottom end of the driven tray 430 is fixedly provided with a plurality of lifting claws 432, and the output ratchet 420 is located on the axis of the circular axis of the output disc 400.

Specifically, the driven tray 430 deflects to the top end of the guide box 310 along the inner side of the sliding guide seat 401 in the output tray 400, the material lifting claw 432 enables fibers adhered to the surface of the lifting ratchet wheel 320 to fall off and be located above the driven tray 430, the top surface of the guide box 310 is blocked, excessive materials are prevented from entering the output tray 400, agglomerated and polymerized fiber materials are separated under the rotating traction of the output ratchet wheel 420 and the closing pressing of the driven tray 430, and the feeding and conveying are prevented from being influenced by the polymerization of a large number of fiber materials.

The working principle and the using process of the invention are as follows:

when the intelligent blowing-carding feeding device is used, the main base 100 is arranged at the bottom end of a material storage tank or a storage cabin and directly falls into the main base 100 through the gravity of materials, the material guide drum 130 is driven by the material guide motor 110 to rotate, the materials are enabled to rotate to reach the outlet end of the material tray 120, the materials are led out from the inner part of the material tray 120 through nail teeth with dense surfaces under the rotation of the ratchet roller 210, the deflection motion of the deflection steering engine 240 and the separation guide fork 220 is controlled by the controller intermittently, the separation guide fork 220 deflects for a certain angle and then retreats again, fibers adhered to the surface of the ratchet roller 210 are separated from the ratchet roller 210 and enter the inner part of the guide box 310 when the separation guide fork 220 deflects, the lifting ratchet 320 is enabled to rotate synchronously through the transmission of the transmission shaft rod 321 driven by the material guide motor 110, and the materials in the transmission shaft rod 321 are driven by the surface tooth rod to move upwards along the inner part of the guide box 310, so that the materials are lifted;

the driving shaft 402 is controlled to rotate by a driving structure at one end of a control end automatic control driving shaft 402, the driving shaft 402 is meshed with the surface of a curved rack 431 for transmission, so that a driven tray 430 deflects to the top end of a guide box 310 along the inner side of a sliding guide seat 401 in an output disc 400, a material lifting claw 432 enables fibers adhered to the surface of a lifting ratchet wheel 320 to fall off and be positioned above the driven tray 430 and blocks the top surface of the guide box 310, excessive materials are prevented from entering the output disc 400, the rotating gear ring seat 330 drives the integral output disc 400 to deflect to adjust the opposite direction of the driven tray 430 and the output ratchet wheel 420, the surface materials on the driven tray 430 are output along the surface of the output ratchet wheel 420 under the action of a material throwing motor 410 driving the output ratchet wheel 420 to feed the blowing and carding equipment, the materials can be accurately fed into the blowing and carding equipment along the fan-shaped circle center of the output disc 400 through deflection of the driven tray 430, the cut-off fiber materials are discharged from the output ratchet wheel 420 on the top surface of the guide box 310, a plurality of the blowing and carding equipment are respectively fed to the side of the lifting material seat 300, or the blowing and carding equipment are prevented from being dispersed and accumulated in a single blowing and carding equipment.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a feeding device is used in blowing comb of high-efficient intelligence, its characterized in that includes: the automatic material lifting device comprises a main base (100), a discharging assembly (200), a lifting base (300) and an output disc (400), wherein the lifting base (300) is fixedly installed on one side of the main base (100), a material guiding motor (110) and a material disc (120) are fixedly installed on the surface of the main base (100), a material guiding rotary drum (130) located at the circle center of the material disc (120) is rotatably installed on the surface of the main base (100), a discharging hole opposite to one side of the lifting base (300) is formed in one side of the material disc (120), and the discharging assembly (200) is fixedly installed on one side of the discharging hole in the surface of the main base (100);

the inner side of the lifting material seat (300) is fixedly provided with a guide box (310), the inner side of the guide box (310) is rotatably provided with a lifting ratchet wheel (320), the surface of the main base (100) is rotatably provided with a transmission shaft rod (321) which is in transmission abutting connection with the output end of the material guide motor (110), the other end of the transmission shaft rod (321) and the end part of the lifting ratchet wheel (320) are respectively provided with a transmission bevel gear and are in transmission connection with each other, the surface of the lifting material seat (300) is movably provided with a rotary gear ring seat (330), and the output disc (400) is fixedly arranged on the top surface of the rotary gear ring seat (330) and is communicated with the top end of the guide box (310);

output dish (400) are the sector plate structure and are the symmetrical arrangement in the both sides of commentaries on classics ring gear seat (330) top surface, the inboard rotation of output dish (400) is installed output ratchet (420), the inboard fixed smooth guide seat (401) of still installing of output dish (400), just the inboard slidable mounting of smooth guide seat (401) has driven tray (430), the surface rotation of output dish (400) installs drive shaft pole (402), the surface of driven tray (430) is equipped with curved rack (431) with drive shaft pole (402) surface drive meshing, the one end of drive shaft pole (402) is connected with the driving motor who is fixed in output dish (400) surface.

2. The feeding device for efficient and intelligent blowing-carding of claim 1, wherein the material tray (120) is cylindrical, the material guiding drum (130) is provided with a plurality of uniformly distributed pulp plates on the periphery, and the output end of the material guiding motor (110) is in transmission connection with the bottom end of the material guiding drum (130) through a transmission belt.

3. The feeding device for efficient and intelligent blowing-carding-drawing use according to claim 1, wherein the discharging assembly (200) comprises a ratchet roller (210), a separating guide fork (220), a discharging motor (230) and a deflecting steering engine (240) which are respectively in transmission connection with the end portions of the ratchet roller (210) and the separating guide fork (220), the discharging motor (230) and the deflecting steering engine (240) are fixedly installed on the surface of the main base (100), and a plurality of guide gear rods located in gaps between the surfaces of the ratchet roller (210) are arranged on the surface of the separating guide fork (220).

4. The feeding device for blowing-carding-drawing combined use of high-efficiency intelligent according to claim 3, wherein the ratchet roller (210) comprises a rotating shaft, wheel discs and a rotating drum, the number of the wheel discs is a plurality of, the wheel discs are fixedly sleeved on the surface of the rotating shaft, gaps corresponding to the guide tooth rods in a one-to-one mode are formed between the adjacent wheel discs, the number of the rotating drum is a plurality of, the rotating drum is uniformly arranged on the surface of the wheel discs, the rotating direction of the rotating drum is not larger than 45 degrees, the rotating drum is uniformly arranged on the periphery of the wheel discs in the circumferential direction, and the ratchet rods are arranged on the surface of the rotating drum.

5. The feeding device for efficient and intelligent blowing-carding-drawing use according to claim 1, wherein the structure of the output ratchet wheel (420) is the same as that of the ratchet roller (210), the surface of the output disc (400) is provided with a throwing motor (410) of which the output end is connected with the output ratchet wheel (420), the top surface of the rotary gear ring seat (330) is fixedly provided with a separation guide rod which is vertically arranged and is positioned in a gap on the surface of the output ratchet wheel (420), and the separation guide rod is in a round rod shape.

6. The feeding device for efficient and intelligent blowing-carding of claim 1, wherein the rotating gear ring seat (330) is a circular-ring-shaped structure, the rotating gear ring seat (330) is rotatably mounted on the surface of the lifting material seat (300), the surface of the lifting material seat (300) is provided with a through hole with the same inner diameter as that of the rotating gear ring seat (330), the bottom end of the through hole is communicated with the top surface of the guide box (310), and the surface of the lifting material seat (300) is provided with a driving structure for driving the rotating gear ring seat (330) to rotate.

7. The efficient intelligent blowing-carding feeding device as claimed in claim 1, wherein the output discs (400) are of sector plate structures, the number of the output discs (400) is two, the output discs are arranged in opposite directions, the top surfaces of the rotating tooth ring seats (330) are fixedly provided with servo steering engines, and the output ends of the servo steering engines are fixedly connected with the end portions of the output discs (400).

8. The efficient intelligent feeding device for blowing-carding unit as claimed in claim 1, wherein the driven tray (430) is of a circular arc plate structure, the center of the sliding motion circle and the center of the output tray (400) are located on the same axis, a plurality of material lifting claws (432) are fixedly mounted at the bottom end of the driven tray (430), and the output ratchet wheel (420) is located on the axis of the circular axis of the output tray (400).